Sample records for exhaust lead-acid batteries

  1. Fast charging of lead/acid batteries

    Calasanzio, D. (FIAMM SpA, Montecchio Maggiore (Italy)); Maja, M. (Polytechnical Univ., Turin (Italy). Dept. of Materials Science and Chemical Engineering); Spinelli, P. (Polytechnical Univ., Turin (Italy). Dept. of Materials Science and Chemical Engineering)


    A key point in the development of storage batteries for electric vehicles (EVs) is the possibility for fast recharging. It is widely recognized that the lead/acid system represents an excellent candidate for EVs because of the low cost, durability, and expectance of improvements in the near future. The viability of the lead/acid battery for EV applications would be greatly enhanced if fast recharging could be applied to the system without shortening its life. The present paper reports the results obtained by simulating the charging behaviour with a mathematical model that is capable of predicting the behaviour of nonconventional lead/acid cells both on discharge and recharge. The effects of important parameters such as plate dimensions, acid distribution, and porosity of the active mass are taken into account. The data obtained with the simulation are compared with results got from fast-recharge testing of commercial batteries. (orig.)

  2. Lifetime modelling of lead acid batteries

    Bindner, H.; Cronin, T.; Lundsager, P.


    , therefore, lead to uncertainty in the viability of the system in the long term. This report details the work undertaken to investigate and develop two different battery life prediction methodologies withspecific reference to their use in hybrid renewable energy systems. Alongside this, results from battery...... been part of the European Union Benchmarking research project (ENK6-CT-2001-80576), funded by theEuropean Union, the United States and Australian governments together with other European states and other public and private financing bodies. The project has concentrated on lead acid batteries...

  3. Valve-regulated lead-acid batteries

    Berndt, D.

    Valve-regulated lead-acid (VRLA) batteries with gelled electrolyte appeared as a niche market during the 1950s. During the 1970s, when glass-fiber felts became available as a further method to immobilize the electrolyte, the market for VRLA batteries expanded rapidly. The immobilized electrolyte offers a number of obvious advantages including the internal oxygen cycle which accommodates the overcharging current without chemical change within the cell. It also suppresses acid stratification and thus opens new fields of application. VRLA batteries, however, cannot be made completely sealed, but require a valve for gas escape, since hydrogen evolution and grid corrosion are unavoidable secondary reactions. These reactions result in water loss, and also must be balanced in order to ensure proper charging of both electrodes. Both secondary reactions have significant activation energies, and can reduce the service life of VRLA batteries, operated at elevated temperature. This effect can be aggravated by the comparatively high heat generation caused by the internal oxygen cycle during overcharging. Temperature control of VRLA batteries, therefore, is important in many applications.

  4. Failure modes of lead/acid batteries

    Culpin, B.; Rand, D. A. J.

    The delivery and storage of electrical energy in lead/acid batteries via the conversion of lead dioxide and lead to, and from, lead sulphate is deceptively simple. In fact, battery performance depends upon the cell design, the materials of construction, a complex interplay between the multitudinous parameters involved in plate preparation, the chemical composition/structure of the active materials, and the duty/conditions of battery operation. It is not surprising, therefore, that the factors responsible for the degradation of battery performance, and eventual failure, are many and varied. Apart from occasional field surveys of automotive batteries in the U.S.A., comprehensive failure analyses of units removed from service are rarely published. In general, the information is kept proprietary, or appears as a post mortem report that is subsidiary to some other topic of interest. By contrast, the literature abounds with detailed laboratory investigations of phenomena that are likely to contribute, wholly or in part, to the demise of batteries. In broad terms, this review draws together the fragmented and scattered data presently available on the failure mechanisms of lead/acid batteries in order to provide a platform for further exploration of the phenomena, and for the planning of remedial strategies. The approach taken is to classify, first, the different lead/acid technologies in terms of required duty (i.e., float, cycling and automotive applications), unit design (i.e., flat or tubular plate, flooded or immobilized electrolyte), and grid alloy (i.e., leadantimony or leadcalcium system). A distinction is then made between catastrophic failure, as characterized by a sudden inability of the battery to function, and progressive failure, as demonstrated by some more subtle deviation from optimum performance. Catastrophic failure is attributed to incorrect cell design, poor manufacturing practice, abuse, or misuse. These problems are obvious and, accordingly

  5. Exhaust lead-acid batteries recycling as a tool of the environmental protection policy. Energy, environmental and economic issues; Il riciclaggio delle batterie al piombo-acido esauste come strumento della politica di salvaguardia ambiental. Aspetti energetici, ambientali ed economici

    Picini, P.; Battista, A. [ENEA, Divisione Caratterizzazione dell' Ambiente e del Territorio, Centro Ricerche Casaccia, S. Maria di Galeria, RM (Italy)


    Lead is an heavy metal that has a major impact on human health and his removal from the environment is an important action for its protection. The aim of the present work is to provide a framework of the Italian lead recycling with respect to the economic and environmental aspects of COBAT activities (COBAT is the Mandatory Consortium to collect and recycle the exhaust lead-acid batteries and lead wastes). In order to better understand the context in which COBAT works, some statistical data on the lead production, consumption and end uses in Italy and in the world are provided. An estimate of the energy consumptions and the environmental impact related to Italian lead production was also carried out. [Italian] Il piombo e' uno dei metalli pesanti a maggiore impatto ambientale e sanitario e la sua rimozione dall'ambiente costituisce un'importante azione di protezione e tutela della salute umana. Lo scopo del presente lavoro e' quello di fornire un quadro di riferimento relativo al riciclaggio del piombo in Italia evidenziandone gli aspetti ambientali ed economici in relazione alle attivita' condotte dal COBAT (Consorzio Obbligatorio delle Batterie Esauste e dei rifiuti piombosi). In tal senso, per disporre di una visione piu' completa del contesto in cui si inserisce l'attivita' del Consorzio, vengono forniti alcuni dati di carattere statistico sulla produzione, sul consumo e sugli utilizzi del piombo in Italia e nel mondo e viene effettuata una stima dei consumi energetici e dell'impianto ambientale associati alla produzione di piombo nazionale.

  6. Lead-acid battery technologies fundamentals, materials, and applications

    Jung, Joey; Zhang, Jiujun


    Lead-Acid Battery Technologies: Fundamentals, Materials, and Applications offers a systematic and state-of-the-art overview of the materials, system design, and related issues for the development of lead-acid rechargeable battery technologies. Featuring contributions from leading scientists and engineers in industry and academia, this book:Describes the underlying science involved in the operation of lead-acid batteriesHighlights advances in materials science and engineering for materials fabricationDelivers a detailed discussion of the mathematical modeling of lead-acid batteriesAnalyzes the

  7. Development of new sealed bipolar lead-acid battery

    Attia, Alan I.; Rowlette, J. J.


    New light weight composite bipolar plates which can withstand the corrosive environment of the lead acid battery have made possible the construction of a sealed bipolar lead acid battery that promises to achieve very high specific power levels and substantially higher energy densities than conventional lead acid batteries. Performance projections based on preliminary experimental results show that the peak specific power of the battery can be as high as 90 kW/kg, and that a specific power of 5 kW/kg can be sustained over several thousand pulses.

  8. Heat tolerance of automotive lead-acid batteries

    Albers, Joern

    Starter batteries have to withstand a quite large temperature range. In Europe, the battery temperature can be -30 °C in winter and may even exceed +60 °C in summer. In most modern cars, there is not much space left in the engine compartment to install the battery. So the mean battery temperature may be higher than it was some decades ago. In some car models, the battery is located in the passenger or luggage compartment, where ambient temperatures are more moderate. Temperature effects are discussed in detail. The consequences of high heat impact into the lead-acid battery may vary for different battery technologies: While grid corrosion is often a dominant factor for flooded lead-acid batteries, water loss may be an additional influence factor for valve-regulated lead-acid batteries. A model was set up that considers external and internal parameters to estimate the water loss of AGM batteries. Even under hot climate conditions, AGM batteries were found to be highly durable and superior to flooded batteries in many cases. Considering the real battery temperature for adjustment of charging voltage, negative effects can be reduced. Especially in micro-hybrid applications, AGM batteries cope with additional requirements much better than flooded batteries, and show less sensitivity to high temperatures than suspected sometimes.

  9. Electrochemical State Models of Lead-Acid Batteries.


    original incentive toward the development of an electrochemical source of current was the " galvanic cell " which was based on Galvani’s "frog leg...BATTERY USAGE Since the earliest " galvanic cell ", the lead-acid storage battery has been in demand for numerous purposes. Marine uses alone are diverse

  10. Research on thin grid materials of lead-acid batteries

    WANG Erdong; SHI Pengfei; GAO Jun


    A detailed investigation on Pb-Ca-Sn alloys was made in order to choose suitable grid alloys materials for thin plate lead-acid batteries. The electrochemical performances of alloys were investigated by electrochemical corrosion experiment, scanning electron microscope (SEM), and cyclic voltammetry (CV) test. The results indicate that Pb-Ca-Sn-Bi-Cu alloys can be used to make the grids used for thin grid lead-acid batteries, the content of bismuth has primaryeffects on the corrosion resistance of grid alloys, the composition of alloys plays an important role on batteries performance, and appropriate scale of elements can be choosed to obtain optimal electrochemical performance. The lead-acid batteries using this kind of grid show good performance by cycle life test.

  11. High-power lead-acid batteries for different applications

    Wagner, Rainer

    High-power lead-acid batteries have been used for a rather long time in various applications, especially for uninterruptible power supplies (UPSs) and starting of automobiles. Future automotive service requires, in addition to cold-cranking performance, the combination of high-power capability, a very good charge-acceptance, and an excellent cycle-life. Such applications include stop-start, regenerative braking, and soft, mild and full hybrid vehicles. For UPS, there has been a clear tendency to shorter discharge times and higher discharge rates. During the past decades, the specific power of lead-acid batteries has been raised steadily and there is still, room for further improvement. This paper gives an overview of the progress made in the development of high-power lead-acid batteries and focuses on stationary and automotive applications.

  12. Lead/acid batteries in systems to improve power quality

    Taylor, P.; Butler, P.; Nerbun, W.

    Increasing dependence on computer technology is driving needs for extremely high-quality power to prevent loss of information, material, and workers' time that represent billions of dollars annually. This cost has motivated commercial and Federal research and development of energy storage systems that detect and respond to power-quality failures in milliseconds. Electrochemical batteries are among the storage media under investigation for these systems. Battery energy storage systems that employ either flooded lead/acid or valve-regulated lead/acid battery technologies are becoming commercially available to capture a share of this emerging market. Cooperative research and development between the US Department of Energy and private industry have led to installations of lead/acid-based battery energy storage systems to improve power quality at utility and industrial sites and commercial development of fully integrated, modular battery energy storage system products for power quality. One such system by AC Battery Corporation, called the PQ2000, is installed at a test site at Pacific Gas and Electric Company (San Ramon, CA, USA) and at a customer site at Oglethorpe Power Corporation (Tucker, GA, USA). The PQ2000 employs off-the-shelf power electronics in an integrated methodology to control the factors that affect the performance and service life of production-model, low-maintenance, flooded lead/acid batteries. This system, and other members of this first generation of lead/acid-based energy storage systems, will need to compete vigorously for a share of an expanding, yet very aggressive, power quality market.

  13. Prospects for lead-acid batteries in the new millenium

    Razelli, Eugenio

    The European lead-acid battery industry has been adversely affected by the collapse of the telecommunications and information technology expansion of the last several years and by general economic conditions in other sectors. This has had a substantial effect on the industrial battery market, particularly standby batteries, but the automotive business has been less affected. The industry has reacted to these continuing changes by consolidation and specialisation within the different sectors but this alone is insufficient to ensure future success. The industry faces significant challenges to improve efficiencies through better manufacturing systems, but the development of new products for both existing and future applications is the greater priority. Advanced automotive batteries for Powernet applications and for hybrid electric vehicles, new types of standby and traction batteries and improvements to automotive batteries can all be achieved with lead-acid technology. This is a system with enormous potential for further improvement building on current strengths. This is a challenge to which the industry must respond in order to underpin the lead-acid battery as the most important electrical energy storage system.

  14. Lead-acid battery recycling and the new Isasmelt process

    Ramus, K. (Britannia Refined Metals Ltd., Northfleet (United Kingdom)); Hawkins, P. (Britannia Refined Metals Ltd., Northfleet (United Kingdom))


    The recovery of lead/acid batteries has long been practised for economic reasons. More recently, battery recovery has also been influenced by environmental concerns, both in the general community and within the recycling plants. These influences will probably increase in the future. With these factors in mind, Britannia Refined Metals Ltd. introduced new technology for battery recycling at its Northfleet, UK operations in 1991. A process description of the Britannia Refined Metals Secondary Lead Operation, the reasons for selecting an Engitec CX battery breaking plant in combination with an Isasmelt Paste Smelting Furnace, and commissioning and current operation of the plant are discussed. (orig.)

  15. Closed loop recycling of lead/acid batteries

    Bied-Charreton, B.

    The traditional lead/acid battery is a recycleable product, irrespective whether it is of an automotive, traction or standby design. The product benefits from the traditional lead metallurgy that has been developed for both primary (mines) and secondary (recycling) smelting. Secondary smelting accounts for 60% of total lead production in Europe, and this market lead the most effectively metal. In secondary smelters, scrapped batteries are crushed and smelted. The polypropylene from the boxes is recycled to produce secondary plastic for battery, automotive, or other miscellaneous uses. The lead metal is refined to be re-used in the battery industry. The acid is retreated. Recycling requires a collection network. The lead/acid battery benefits from the traditional collection network that has been established for scrap-iron and non-ferrous metal scrap. In Western Europe, the recycling rate for scrapped batteries is estimated to be 80 to 90%. All participants in the battery recycling loop agree that the process must be a clean cycle for it to be credible. The collection organization is improving the quality of storage and transportation, especially with regard to the acid that can only be neutralized in correctly-controlled facilities, generally located at the smelters. The smelters themselves tend, through local regulations, to run at the optimum level of protection of the environment.

  16. Developments in lead-acid batteries: a lead producer's perspective

    Frost, P. C.

    Rapid progress is being made in many aspects of materials, design and construction for lead-acid batteries. Much of this work has taken place under the auspices of the Advanced Lead-Acid Battery Consortium (ALABC). From the general tone of the literature, it seems likely that several of these developments will be adopted in commercial products, and that there will be cross-fertilization between the emerging electric vehicle (EV) battery technology and the starting, lighting and ignition (SLI) battery. Given the impetus for improvement from several different factors, the development process appears to be accelerating. To those not intimately involved in the battery design and specification process, it is not clear which of the possible developments will make it from the laboratory to general commercial adoption. Some of the possible changes in materials, design and construction could have an impact on the recovery, recycling, smelting and refining of lead-acid batteries. Some of the possible developments are outlined and their possible impact is discussed. It is likely that negative effects may be minimized if battery developments are considered from other perspectives, largely based on the overall life-cycle, as early in the design phase of new products as possible. Three strategies for minimizing undesirable effects are advocated: first, improved communication between car manufacturers, battery manufacturers and lead producers second, use of life-cycle analysis (LCA) to identify and optimize all attributes of the product throughout its life-cycle third, concerted and coordinated action to deal with issues important to the industry once trends are identified.

  17. Lead exposure among lead-acid battery workers in Jamaica.

    Matte, T D; Figueroa, J P; Burr, G; Flesch, J P; Keenlyside, R A; Baker, E L


    To assess lead exposure in the Jamaican lead-acid battery industry, we surveyed three battery manufacturers (including 46 production workers) and 10 battery repair shops (including 23 battery repair workers). Engineering controls and respiratory protection were judged to be inadequate at battery manufacturers and battery repair shops. At manufacturers, 38 of 42 air samples for lead exceeded a work-shift time-weighted average concentration of 0.050 mg/m3 (range 0.030-5.3 mg/m3), and nine samples exceeded 0.50 mg/m3. Only one of seven air samples at repair shops exceeded 0.050 mg/m3 (range 0.003-0.066 mg/m3). Repair shop workers, however, had higher blood lead levels than manufacturing workers (65% vs. 28% with blood lead levels above 60 micrograms/dl, respectively). Manufacturing workers had a higher prevalence of safe hygienic practices and a recent interval of minimal production had occurred at one of the battery manufacturers. Workers with blood lead levels above 60 micrograms/dl tended to have higher prevalences of most symptoms of lead toxicity than did workers with lower blood lead levels, but this finding was not consistent or statistically significant. The relationship between zinc protoporphyrin concentrations and increasing blood lead concentrations was consistent with that described among workers in developed countries. The high risk of lead toxicity among Jamaican battery workers is consistent with studies of battery workers in other developing countries.

  18. Sealed lead/acid battery for motorcycle use

    Isoi, T.; Nakayama, Y.; Nakao, S.; Furukawa, H.

    Since the first dry-charged sealed lead/acid (SLA) battery was mounted on a motorcycle in 1983, millions of such units have been produced and sold for this application. Since that time, many efforts have been made to insure customer satisfaction and to improve the quality of the products by analyzing the batteries returned from customers. Simultaneously, the quality and productivity of the manufacturing process has been enhanced by the development of automatic welding equipment suited to PbCa alloys. This latter advance has also given rise to a flexible manufacturing system.


    Bambang Sri Kaloko


    Full Text Available Successful commercialization of electric vehicles will require a confluence of technology, market, economic, and political factors that transform EVs into an attractive choice for consumers. The characteristics of the traction battery will play a critical role in this transformation. The relationship between battery characteristics such as power, capacity and efficiency, and EV customer satisfaction are discussed based on real world experience. A general problem, however, is that electrical energy can hardly be stored. In general, the storage of electrical energy requires its conversion into another form of energy. Electrical energy is typically obtained through conversion of chemical energy stored in devices such as batteries. In batteries the energy of chemical compounds acts as storage medium, and during discharge, a chemical process occurs that generates energy which can be drawn from the battery in form of an electric current at a certain voltage. A computer simulation is developed to examine overall battery design with the MATLAB/Simulink. Battery modelling with this program have error level less than 5%.   Keywords: Electrochemistry, lead acid battery, stored energy

  20. Processing of wastes from lead/acid battery production

    Polivianny, I. R.; Rusin, A. I.; Lata, V. A.; Khegay, L. D.; Nourjigitov, S. T.

    Experience in the recovery of scrap and wastes from lead/acid battery production suggests that an electrothermal method has good prospects. This process is characterized by a high degree of lead and antimony (approx 98%) extraction, by effective gas cleaning and dust collection, and by full dust returning to the furnace. The electrothermal method is also distinguished by the high reliability of electric furnaces, the useability of any type of secondary lead battery scrap and wastes, and the possibility of process mechanization and control. In this paper, a description is given of the main technical and economical factors of soda-reduction smelting in an electric furnace, a technological scheme for wastes recovery, and the charge composition and features of the process.

  1. Manufacturing and operational issues with lead-acid batteries

    Rand, D. A. J.; Boden, D. P.; Lakshmi, C. S.; Nelson, R. F.; Prengaman, R. D.

    An expert panel replies to questions on lead-acid technology and performance asked by delegates to the Ninth Asian Battery Conference. The subjects are as follows. Grid alloys: effects of calcium and tin levels on microstructure, corrosion, mechanical and electrochemical properties; effect of alloy-fabrication process on mechanical strength and corrosion resistance; low dross-make during casting of lead-calcium-tin alloys; future of book-mould casting; effect of increasing levels of silver; stability of continuously processed grids at high temperature. Negative-plate expanders: function of lignosulfonates and barium sulfate; benefits of pre-blended expanders; optimum expander formulations. Valve-regulated batteries: effect of oxygen cycle; optimum methods for float charging; charging and deep-cycle lifetimes; reliability testing.

  2. Aging mechanisms and service life of lead-acid batteries

    Ruetschi, Paul

    In lead-acid batteries, major aging processes, leading to gradual loss of performance, and eventually to the end of service life, are: Anodic corrosion (of grids, plate-lugs, straps or posts). Positive active mass degradation and loss of adherence to the grid (shedding, sludging). Irreversible formation of lead sulfate in the active mass (crystallization, sulfation). Short-circuits. Loss of water. Aging mechanisms are often inter-dependent. For example, corrosion of the grids will lead to increased resistance to current flow, which will in turn impede proper charge of certain parts of the active mass, resulting in sulfation. Active mass degradation may lead to short-circuits. Sulfation may be the result of a loss of water, and so forth. The rates of the different aging processes strongly depend on the type of use (or misuse) of the battery. Over-charge will lead to accelerated corrosion and also to accelerated loss of water. With increasing depth-of-discharge during cycling, positive active mass degradation is accelerated. Some aging mechanisms are occurring only upon misuse. Short-circuits across the separators, due to the formation of metallic lead dendrites, for example, are usually formed only after (excessively) deep discharge. Stationary batteries, operated under float-charge conditions, will age typically by corrosion of the positive grids. On the other hand, service life of batteries subject to cycling regimes, will typically age by degradation of the structure of the positive active mass. Starter batteries are usually aging by grid corrosion, for instance in normal passenger car use. However, starter batteries of city buses, making frequent stops, may age (prematurely) by positive active mass degradation, because the batteries are subject to numerous shallow discharge cycles. Valve-regulated batteries often fail as a result of negative active mass sulfation, or water loss. For each battery design, and type of use, there is usually a characteristic

  3. Analysis of lead-acid battery accelerated testing data

    Clifford, J. E.; Thomas, R. E.


    Battelle conducted an independent review and analysis of the accelerated test procedures and test data obtained by Exide in the 3 year Phase 1 program to develop advanced lead acid batteries for utility load leveling. Of special importance is the extensive data obtained in deep discharge cycling tests on 60 cells at elevated temperatures over a 2-1/2 year period. The principal uncertainty in estimating cell life relates to projecting cycle life data at elevated temperature to the lower operating temperatures. The accelerated positive grid corrosion test involving continuous overcharge at 500C provided some indication of the degree of grid corrosion that might be tolerable before failure. The accelerated positive material shedding test was not examined in any detail. Recommendations are made for additional studies.

  4. A low-cost lead-acid battery with high specific-energy

    S K Martha; B Hariprakash; S A Gaffoor; D C Trivedi; A K Shukla


    Lightweight grids for lead-acid battery grids have been prepared from acrylonitrile butadiene styrene (ABS) copolymer followed by coating with lead. Subsequently, the grids have been electrochemically coated with a conductive and corrosion-resistant layer of polyaniline. These grids are about 75% lighter than those employed in conventional lead-acid batteries. Commercial-grade 6V/3.5Ah (C20-rate) lead-acid batteries have been assembled and characterized employing positive and negative plates constituting these grids. The specific energy of such a lead-acid battery is about 50 Wh/kg. The batteries can withstand fast charge-discharge duty cycles.

  5. Modeling of the charge acceptance of lead-acid batteries

    Thele, M.; Schiffer, J.; Karden, E.; Surewaard, E.; Sauer, D. U.

    This paper presents a model for flooded and VRLA batteries that is parameterized by impedance spectroscopy and includes the overcharging effects to allow charge-acceptance simulations (e.g. for regenerative-braking drive-cycle profiles). The full dynamic behavior and the short-term charge/discharge history is taken into account. This is achieved by a detailed modeling of the sulfate crystal growth and modeling of the internal gas recombination cycle. The model is applicable in the full realistic temperature and current range of automotive applications. For model validation, several load profiles (covering the dynamics and the current range appearing in electrically assisted or hybrid cars) are examined and the charge-acceptance limiting effects are elaborately discussed. The validation measurements have been performed for different types of lead-acid batteries (flooded and VRLA). The model is therefore an important tool for the development of automotive power nets, but it also allows to analyze different charging strategies and energy gains which can be achieved during regenerative-braking.

  6. An averaging battery model for a lead-acid battery operating in an electric car

    Bozek, J. M.


    A battery model is developed based on time averaging the current or power, and is shown to be an effective means of predicting the performance of a lead acid battery. The effectiveness of this battery model was tested on battery discharge profiles expected during the operation of an electric vehicle following the various SAE J227a driving schedules. The averaging model predicts the performance of a battery that is periodically charged (regenerated) if the regeneration energy is assumed to be converted to retrievable electrochemical energy on a one-to-one basis.

  7. Research results from the advanced lead-acid battery consortium point the way to longer life and higher specific energy for lead/acid electric-vehicle batteries

    Moseley, P.T. [The International Lead Zinc Research Organization, Research Triangle Park, NC (United States)


    Amidst the welter of publicity devoted to the newer battery chemistries, the remarkable progress made by lead/acid battery technologists in response to the needs of the emerging electric-vehicle market has tended to be overlooked. The flooded design of battery, launched by Gaston Plante around 1860, has given way to a valve-regulated variant which has a history dating only from the 1970s. The key parameters of this `maintenance free` battery have been improved markedly during the course of the development programme of the advanced lead-acid battery consortium (ALABC), and it is likely that lead/acid will continue to feature strongly in motive-power applications as a result of its cost advantage and of its enhanced effectiveness. (orig.)

  8. Results of electric-vehicle propulsion system performance on three lead-acid battery systems

    Ewashinka, J. G.


    Three types of state of the art 6 V lead acid batteries were tested. The cycle life of lead acid batteries as a function of the electric vehicle propulsion system design was determined. Cycle life, degradation rate and failure modes with different battery types (baseline versus state of the art tubular and thin plate batteries were compared. The effects of testing strings of three versus six series connected batteries on overall performance were investigated. All three types do not seem to have an economically feasible battery system for the propulsion systems. The tubular plate batteries on the load leveled profile attained 235 cycles with no signs of degradation and minimal capacity loss.

  9. Abolition Of The Lead-Acid Battery Consumption Tax Is Suggested


    Zhang Tianren,an NPC representative and chairman of Tianneng Group suggests cessation or deferment in the collection or differentiated collection of lead-acid battery consumption taxes.Lead-acid batteries play a fundamental role in China’s transport,communications,power generation and wind energy storage,smart grid

  10. The development of a new sealed bipolar lead-acid battery

    Attia, A. I.; Rowlette, J. J.


    New light weight composite bipolar plates which can withstand the corrosive environment of the lead acid battery have made possible the construction of a sealed bipolar lead acid battery that promises to achieve very high specific power levels and substantially higher energy densities than conventional lead acid batteries. Performance projections based on preliminary experimental results show that the peak specific power of the battery can be as high as 90 kW/kg, and that a specific power of 5 kW/kg can be sustained over several thousand pulses.

  11. Effect of polysulfone concentration on the performance of membrane-assisted lead acid battery

    Ahmad Fauzi Ismail; Wan Ahmad Hafiz


    The application of lead acid battery in tropical countries normally faces the problem of water decomposition. This phenomenon is due to the factor of charge-discharge reaction in the battery and heat accumulation caused by hot tropical climate and heat generated from engine compartment. The objective of this study is to analyze the effect of polysulfone concentration on the performance of membrane-assisted lead-acid battery. Gas separation membranes, prepared through wet-dry phase inversion m...

  12. Monitoring sealed automotive lead-acid batteries by sparse-impedance spectroscopy

    B Hariprakash; S K Martha; A K Shukla


    A reliable diagnostics of lead-acid batteries would become mandatory with the induction of an improved power net and the increase of electrically assisted features in future automobiles. Sparse-impedance spectroscopic technique described in this paper estimates the internal resistance of sealed automotive lead-acid batteries in the frequency range 10 Hz-10 kHz, usually produced by the alternators fitted in the automobiles. The state-of-health of the battery could be monitored from its internal resistance.

  13. Recycling and management of waste lead-acid batteries: A mini-review.

    Li, Malan; Liu, Junsheng; Han, Wei


    As a result of the wide application of lead-acid batteries to be the power supplies for vehicles, their demand has rapidly increased owing to their low cost and high availability. Accordingly, the amount of waste lead-acid batteries has increased to new levels; therefore, the pollution caused by the waste lead-acid batteries has also significantly increased. Because lead is toxic to the environment and to humans, recycling and management of waste lead-acid batteries has become a significant challenge and is capturing much public attention. Various innovations have been recently proposed to recycle lead and lead-containing compounds from waste lead-acid batteries. In this mini-review article, different recycling techniques for waste lead-acid batteries are highlighted. The present state of such recycling and its future perspectives are also discussed. We hope that this mini-review can provide useful information on recovery and recycling of lead from waste lead-acid batteries in the field of solid waste treatment.

  14. Experiments Study on Charge Technology of Lead-Acid Electric Vehicle Batteries

    LI Wen; ZHANG Cheng-ning


    The basic theory of the fast charge and several charge methods are introduced. In order to heighten charge efficiency of valve-regulated lead-acid battery and shorten the charge time, five charge methods are investigated with experiments done on the Digatron BNT 400-050 test bench. Battery current, terminal voltage, capacity, energy and terminal pole temperature during battery experiment were recorded, and corresponding curves were depicted. Battery capacity-time ratio, energy efficiency and energy-temperature ratio are put forward to be the appraising criteria of lead-acid battery on electric vehicle (EV). According to the appraising criteria and the battery curves, multistage-current/negative-pulse charge method is recommended to charge lead-acid EV battery.

  15. The performance of Ebonex ® electrodes in bipolar lead-acid batteries

    Ellis, Keith; Hill, Andrew; Hill, John; Loyns, Andrew; Partington, Tom

    Recent work by Atraverda on the production of an Ebonex ® material that can be cheaply formulated and manufactured to form bipolar substrate plates for bipolar lead-acid batteries is described. In addition, data obtained by Atraverda from laboratory lead-acid batteries is presented indicating that weight savings of around 40% for a bipolar 36 V design (20 Ah capacity, 5 h rate, 9 kW) are potentially achievable in comparison to more conventional designs containing monopolar lead grids. Results indicate that their use as bipolar substrate materials will provide light-weight, long-lasting lead-acid batteries suitable for automotive, standby and power tool applications.

  16. Equipment for testing automotive lead/acid batteries under SAE J240a conditions

    Hamilton, J. A.; Rand, D. A. J.

    Battery cycling equipment has been designed and constructed to test lead/acid batteries according to the American Society of Automotive Engineers' (SAE) J240a Standard. This life test simulates automotive service where the battery operates in a voltage-regulated charging system. The CSIRO design uses a master/slave concept to reduce both construction time and cost.

  17. The lead and lead-acid battery industries during 2002 and 2007 in China

    Chen, H. Y.; Li, A. J.; Finlow, D. E.

    In the past 15 years, the center of the international lead market has shifted to China. China has become the largest producer of raw and refined lead, plus the largest consumer. This paper reviews the status of the lead and lead-acid battery industries in China, including lead mining, lead refining, secondary lead production, the lead-acid battery industry, new opportunities for lead-acid batteries, and the environmental problems associated with lead and lead-acid batteries. The output of raw and refined lead has increased annually in China, and now accounts for more than 30% of the world total. As a result of a change in the Chinese government's policy regarding the export of lead, plus an increase in the price of lead, the profits of Chinese lead manufacturers were significantly reduced, the trade deficit of the Chinese lead industry increased, the operating rates of lead smelter enterprises greatly reduced, and some small enterprises were forced to shut down. At the present time, an increasing number of enterprises have begun to produce secondary lead, and the scale of production has expanded from tens of tons to tens of thousands of tons. In 2006, the output of secondary lead in China reached 700,000 tons, but outdated technology and equipment limited development of the secondary lead industry. Because of serious pollution problems, raw material shortages, and fierce price competition in the battery market, changes in the development of the lead-acid battery industry have been dramatic; approximately one thousand medium-sized and small lead-acid battery producers have been closed in the past 3 years. The output of large lead-acid battery enterprises has not been reduced, however, as a result of their manufacturing technology and equipment being comparable to those in other advanced industrial countries. In China, the flourishing development of electric bicycles, electric tricycles, and photovoltaic energy systems should provide ongoing opportunities for the

  18. Nanostructured Lead Compounds in Electrode Materials of a Lead-Acid Battery

    A.P. Kuzmenko


    Full Text Available The nanostructure and phase composition of the electrode material of lead-acid batteries, formed by chemical transformations with involvement of sulfuric acid solutions of various concentrations, water and carbon dioxide have been studied.

  19. Mass Lead Intoxication from Informal Used Lead-Acid Battery Recycling in Dakar, Senegal

    Pascal Haefliger; Monique Mathieu-Nolf; Stephanie Lociciro; Cheikh Ndiaye; Malang Coly; Amadou Diouf; Absa Lam Faye; Aminata Sow; Joanna Tempowski; Jenny Pronczuk; Antonio Pedro Filipe Junior; Roberto Bertollini; Maria Neira


    Background and Objectives: Between November 2007 and March 2008, 18 children died from a rapidly progressive central nervous system disease of unexplained origin in a community involved in the recycling of used lead-acid batteries (ULAB...

  20. Manufacture and application of valve-regulated lead/acid batteries in China

    Wang, Z. [Battery Consultants China, Univ. of Science and Technology Beijing, Beijing, BJ (China)


    This paper introduces the manufacture and application of valve-regulated lead/acid batteries in China. The contents cover the following topics: (i) background development; (ii) materials; (iii) manufacturing technology and equipment; (iv) application and market prospects. (orig.)

  1. Managing Used Lead Acid Batteries in India: Evaluation of EPR-DRS Approaches

    Yamini Gupt; Samraj Sahay


    ...) for recycling used lead acid batteries (ULABs). However, the presence of an informal sector and lack of monitoring have resulted in an ineffective system of recycling mainly driven by the interests of the informal sector. Objectives...

  2. 78 FR 15753 - Maintenance, Testing, and Replacement of Vented Lead-Acid Storage Batteries for Nuclear Power Plants


    ... COMMISSION Maintenance, Testing, and Replacement of Vented Lead-Acid Storage Batteries for Nuclear Power..., DG-1269 ``Maintenance, Testing, and Replacement of Vented Lead-Acid Storage Batteries for Nuclear... lead-acid storage batteries in nuclear power plants. DATES: Submit comments by May 13, 2013....

  3. 78 FR 58574 - Maintenance, Testing, and Replacement of Vented Lead-Acid Storage Batteries for Nuclear Power Plants


    ... COMMISSION Maintenance, Testing, and Replacement of Vented Lead-Acid Storage Batteries for Nuclear Power..., Testing, and Replacement of Vented Lead-Acid Storage Batteries for Nuclear Power Plants.'' The guide... with regard to the maintenance, testing, and replacement of vented lead-acid storage batteries...

  4. Influence of measurement procedure on quality of impedance spectra on lead-acid batteries

    Budde-Meiwes, Heide; Kowal, Julia; Sauer, Dirk Uwe; Karden, Eckhard

    Many battery simulation models, but also electrochemical interpretations are based on impedance spectroscopy. However, the impedance of a battery is influenced by various factors, e.g. in the case of a lead-acid battery: state of charge (SOC), charging or discharging, superimposed dc current, short-term history or homogeneity of the electrolyte. This paper analyses the impact of those factors on impedance spectra of lead-acid batteries. The results show that very detailed information about the conditions during the measurement is crucial for the correct interpretation of a spectrum.

  5. Lead-acid batteries in micro-hybrid vehicles

    Albers, Joern; Meissner, Eberhard; Shirazi, Sepehr

    More and more vehicles hit the European automotive market, which comprise some type of micro-hybrid functionality to improve fuel efficiency and reduce emissions. Most carmakers already offer at least one of their vehicles with an optional engine start/stop system, while some other models are sold with micro-hybrid functions implemented by default. But these car concepts show a wide variety in detail-the term "micro-hybrid" may mean a completely different functionality in one vehicle model compared to another. Accordingly, also the battery technologies are not the same. There is a wide variety of batteries from standard flooded and enhanced flooded to AGM which all are claimed to be "best choice" for micro-hybrid applications. A technical comparison of micro-hybrid cars available on the European market has been performed. Different classes of cars with different characteristics have been identified. Depending on the scope and characteristics of micro-hybrid functions, as well as on operational strategies implemented by the vehicle makers, the battery operating duties differ significantly between these classes of vehicles. Additional laboratory investigations have been carried out to develop an understanding of effects observed in batteries operated in micro-hybrid vehicles pursuing different strategies, to identify limitations for applications of different battery technologies.

  6. A fractional order model for lead-acid battery crankability estimation

    Sabatier, J.; Cugnet, M.; Laruelle, S.; Grugeon, S.; Sahut, B.; Oustaloup, A.; Tarascon, J. M.


    With EV and HEV developments, battery monitoring systems have to meet the new requirements of car industry. This paper deals with one of them, the battery ability to start a vehicle, also called battery crankability. A fractional order model obtained by system identification is used to estimate the crankability of lead-acid batteries. Fractional order modelling permits an accurate simulation of the battery electrical behaviour with a low number of parameters. It is demonstrated that battery available power is correlated to the battery crankability and its resistance. Moreover, the high-frequency gain of the fractional model can be used to evaluate the battery resistance. Then, a battery crankability estimator using the battery resistance is proposed. Finally, this technique is validated with various battery experimental data measured on test rigs and vehicles.

  7. A Comparative Study of Lithium Ion to Lead Acid Batteries for use in UPS Applications

    Stan, Ana-Irina; Swierczynski, Maciej Jozef; Stroe, Daniel Ioan


    ion batteries are getting more and more attention for their use in the back-up power systems and UPSs, because of their superior characteristics, which include increased safety and higher gravimetric and volumetric energy densities. This fact allows them to be smaller in size and weight less than VRLA......Uninterruptible power supply (UPS) systems have incorporated in their structure an electrochemical battery which allows for smooth power supply when a power failure occurs. In general, UPS systems are based on lead acid batteries; mainly a valve regulated lead acid (VRLA) battery. Recently, lithium...... batteries, which are currently used in UPS applications. The main purpose of this paper is to analyze how Li-ion batteries can become a useful alternative to present VRLA. In this study, three different electrochemical battery technologies were investigated; two of the most appealing Li-ion chemistries...

  8. Cost and design study for electric vehicle lead--acid batteries


    A design and cost study for electric-vehicle lead--acid batteries is presented; a research and development program leading to demonstration and testing of 20- to 30-kWh batteries is proposed. Both flat pasted and tubular positive electrodes are included. Detailed testing programs are set forth. 110 figures, 8 tables (RWR)

  9. Characterization of nano-lead-doped active carbon and its application in lead-acid battery

    Hong, Bo; Jiang, Liangxing; Xue, Haitao; Liu, Fangyang; Jia, Ming; Li, Jie; Liu, Yexiang


    In this paper, nano-lead-doped active carbon (nano-Pb/AC) composite with low hydrogen evolution current for lead-acid battery was prepared by ultrasonic-absorption and chemical-precipitate method. The nano-Pb/AC composite was characterized by SEM, EDS and TEM. The electrochemical characterizations are performed by linear sweep voltammetry (LSV), electrochemical impedance spectroscopy (EIS) and cyclic voltammetry (CV) in a three-electrode system. Since intermediate adsorption is the rate-determining step, the hydrogen evolution reaction (HER) is markedly inhibited as the intermediate adsorption impedance of nano-Pb/AC increased. Meanwhile, the working potential of nano-Pb/AC is widened to the whole potential region of Pb negative plate (from -1.36 V to -0.86 V vs. Hg/HgSO4) in lead-acid battery. In addition, nano-Pb can improve the interfacial compatibility between AC and Pb paste, accordingly relieve the symptoms of carbon floatation. Finally, 2.0 V single-cell flooded lead-acid batteries with 1.0 wt.% nano-Pb/AC or 1.0 wt.% AC addition in negative active materials are assembled. The cell performances test results show that the 3 h rate capacity, quick charging performance, high current discharging performance and cycling performance of nano-Pb/AC modified battery are all improved compared with regular lead-acid battery and AC modified lead-acid battery.

  10. Review of cast-on-strap joints and strap alloys for lead-acid batteries

    Lakshmi, C.S. [Pasminco, Boolaroo, NSW (Australia)


    This review examines the influence of the various parameters involved in the cast-on-strap (COS) process on the quality of the resulting lug-strap joints. In addition, it provides the findings of an investigation on the macroscopic and microscopic features of COS joints in commercial lead-acid batteries. Some examples of the most common defects that can affect the performance and life of batteries are presented. The nature of the fusion at the lug-strap interface for the various lugs and strap alloy compositions used in conventional, hybrid and valve-regulated lead-acid batteries are also discussed. (orig.)

  11. Economic assessment of the utilization of lead-acid batteries in electric utility systems. Final report

    Johnson, A.C.; Hynds, J.A.; Nevius, D.R.; Nunan, G.A.; Sweetman, N.


    Specific applications in which lead--acid batteries might be economically competitive on an electric utility system are identified. Particular attention is given to searching the Public Service Electric and Gas Company (PSE and G) system for installations of batteries which could defer or cancel costly transmission and/or distribution projects. Although the transmission and distribution data are based on specific applications on the PSE and G system, the generation data are based on a national reference system. The report analyzes and summarizes all costs and savings attributable to lead--acid batteries. 40 figures, 78 tables. (RWR)

  12. Determination of an ageing factor for lead/acid batteries. 1. Kinetic aspects

    Armenta-Deu, C.; Donaire, T.

    The capacity of lead/acid batteries decreases with the number of cycles. This process is known as ageing. The reduction of capacity affects not only the operation time but also the performance of the accumulator and of the system attached to the battery. One of the main procedures affected by the battery ageing is the determination of the state-of-charge. In this paper, a parameter called 'ageing factor', fa, which represents the reduction of the available energy in lead/acid batteries, is introduced. A method to calculate this factory and its incidence on battery performance has also been developed. The method is intended to predict 'ageing' effects on lead/acid batteries as a non-destructive method, as well as on-line battery operation. The method is based on the effective reduction in electrolyte specific gravity in a fully charged lead/acid battery computed from the change of the slope of the electrolyte density during charge with the number of cycles, and the subsequent reduction in discharge time. A correlation process between the reduction of the energy delivered by the electrochemical cell, the reduction of the discharge time, and the apparent change of the slope of electrolyte density has been developed, resulting in an analytical expression that may be used to compute the effective reduction in available energy in lead/acid batteries. The results of the experiments have proven the merit of the proposed system: the predicted values are in good agreement with experimental data, the associated error in the a estimation being lower than 9%, a result which has been considered acceptable to validate the proposed method.

  13. Effect of polysulfone concentration on the performance of membrane-assisted lead acid battery

    Ahmad Fauzi Ismail


    Full Text Available The application of lead acid battery in tropical countries normally faces the problem of water decomposition. This phenomenon is due to the factor of charge-discharge reaction in the battery and heat accumulation caused by hot tropical climate and heat generated from engine compartment. The objective of this study is to analyze the effect of polysulfone concentration on the performance of membrane-assisted lead-acid battery. Gas separation membranes, prepared through wet-dry phase inversion method and using various polysulfone concentrated formulations, were applied on the battery vent holes, for the purpose of preventing electrolyte from evaporating to the atmosphere. The best membrane, which retains the most electrolyte, will be chosen to be applied on the soon-to-be-developed “membrane-assisted maintenance- free battery”. This maintenance-free battery will need no topping up of deionized water every time the electrolyte level goes low.

  14. Performance characteristics of a gelled-electrolyte valve-regulated lead-acid battery

    S K Martha; B Hariprakash; S A Gaffoor; A K Shukla


    12 V/25 AH gelled-electrolyte valve-regulated lead-acid batteries have been assembled in-house and their performance studied in relation to the absorptive glass-microfibre valve-regulated and flooded-electrolyte counterparts at various discharge rates and temperatures between –40°C and 40°C. Although the performance of the gelled-electrolyte valve-regulated battery is similar to both the absorptive glass-microfibre valve-regulated and flooded-electrolyte lead-acid batteries at temperatures above 0°C, it is superior to both the flooded-electrolyte and absorptive glass-microfibre valve-regulated lead-acid batteries at temperatures between 0°C and -40°C. The latter characteristic is attractive for expanding the application regime of valve-regulated lead-acid batteries. The corrosion rate for the positive grids in the gelled-electrolyte is also lower than both the flooded-electrolyte and absorptive glass-microfibre configurations.

  15. Failure mechanisms of lead/acid automotive batteries in service in the U.S.A.

    Hoover, John H.; Boden, David P.

    Discarded lead/acid batteries were selected at random without regard to brand or condition and these were inspected and tested to determine the causes of failure. Samples were limited to 12-V automotive passenger-car batteries. Their age was determined from the manufacturing code and shipping date. In addition to the cause of failure, information on battery components and construction was also noted. Data are presented showing the principal modes of failure, the effect of geographical location, and the influence of grid alloy on life. In particular, the differences observed between those batteries utilizing calcium alloy for the positive grids and those using antimony alloy are discussed.

  16. Optical State-of-Change Monitor for Lead-Acid Batteries

    Weiss, Jonathan D.


    A method and apparatus for determining the instantaneous state-of-charge of a battery in which change in composition with discharge manifests itself as a change in optical absorption. In a lead-acid battery, the sensor comprises a fiber optic system with an absorption cdl or, alternatively, an optical fiber woven into an absorbed-glass-mat battery. In a lithium-ion battery, the sensor comprises fiber optics for introducing light into the anode to monitor absorption when lithium ions are introduced.

  17. Research, development and demonstration of lead-acid batteries for electric vehicle propulsion. Annual report, 1979


    This report describes work performed from October 1, 1978 to September 30, 1979. The approach for development of both the Improved State-of-the-Art (ISOA) and Advanced lead-acid batteries is three pronged. This approach concentrates on simultaneous optimization of battery design, materials, and manufacturing processing. The 1979 fiscal year saw the achievement of significant progress in the program. Some of the major accomplishments of the year are outlined. 33 figures, 13 tables. (RWR)

  18. Electric and hybrid vehicles charge efficiency tests of ESB EV-106 lead-acid batteries

    Rowlette, J.J.


    Charge efficiencies were determined for ESB EV-106 lead-acid batteries by measurements made under widely differing conditions of temperature, charge procedure, and battery age. The measurements were used to optimize charge procedures and to evaluate the concept of a modified, coulometric state-of-charge indicator. Charge efficiency determinations were made by measuring gassing rates and oxygen fractions. A novel, positive displacement gas flow meter which proved to be both simple and highly accurate is described and illustrated.

  19. Investigations of the factors causing performance losses of lead/acid traction batteries

    Kronberger, H.; Fabjan, Ch.; Gofas, N.

    A failure analysis is carried out with a lead/acid traction battery after a two-years' test run in an electric passenger car. A survey of the operational data, in combination with laboratory tests and chemical and physical analyses, reveals the main causes of battery damage and performance loss: insufficiencies of the charging procedure, inadequate maintainance (water-refilling system), antimony-contamination and loss of the active material due to grid corrosion and shedding of PbO 2.

  20. Development of Lead Acid Battery in Submarine%潜艇用铅酸蓄电池综述



    This paper introduces the states of lead-acid battery. It points out the problems of lead-acid batteries in submarine. The development of lead-acid batteries in submarine is reviewed from the progress of lead-acid battery.%本文简要介绍了潜艇用铅酸蓄电池现状。指出了潜艇用铅酸蓄电池存在的问题,针对铅酸蓄电池的发展状况,展望了潜艇用铅酸蓄电池的发展方向。

  1. Automation benefits in the formation process of lead-acid batteries

    Márcio Duarte Zanconato


    Full Text Available In this work, the automated formation process of lead-acid battery and its industrial positive impact on the battery efficiency are evaluated toward the manual process. The problems in the lead-acid batteries formation are related to the α-PbO2 and β-PbO2 production during the first electric charge. The lead-acid battery formation problems frequently occur when electrical current sources with manual control are used. The main drawback of the manual method is addressed to the electric current interruptions between the plates during the battery charging. Thus, the lead oxides phases in the plates were used as parameter to correlate the chemical composition to the failure on the batteries formation process. X-ray powder diffraction technique was used to identify the lead phases. The results showed that the use of automated electric power supply has higher efficiency than the manual one. The benefits of automation include the increased productivity, reduction on the production costs, and lower consumption of natural resources.

  2. Using Diagnostic Assessment to Help Teachers Understand the Chemistry of the Lead-Acid Battery

    Cheung, Derek


    Nineteen pre-service and in-service teachers taking a chemistry teaching methods course at a university in Hong Kong were asked to take a diagnostic assessment. It consisted of seven multiple-choice questions about the chemistry of the lead-acid battery. Analysis of the teachers' responses to the questions indicated that they had difficulty in…

  3. Development and testing of a bipolar lead-acid battery for hybrid electric vehicles

    Saakes, M.; Kluiters, E.; Schmal, D.; Mourad, S.; Have, P.T.J.H. ten


    An 80 V bipolar lead-acid battery was constructed and tested using hybrid electric vehicle (HEV) drive cycles. Drive cycles with a peak power of 6.7 kW, equal to 1/5 of the total power profile required for the HEV studied, were run successfully. Model calculations showed that the 80 V module constru

  4. Development and testing of a bipolar lead-acid battery for hybrid electric vehicles

    Saakes, M.; Kluiters, E.; Schmal, D.; Mourad, S.; Have, P.T.J.H. ten


    An 80 V bipolar lead-acid battery was constructed and tested using hybrid electric vehicle (HEV) drive cycles. Drive cycles with a peak power of 6.7 kW, equal to 1/5 of the total power profile required for the HEV studied, were run successfully. Model calculations showed that the 80 V module constru

  5. Designing lead-acid batteries to meet energy and power requirements of future automobiles

    Moseley, Patrick T.; Rand, David A. J.; Monahov, Boris


    A review is given of the factors that mitigate against the successful use of lead-acid batteries in the high-rate partial-state-of-charge (HRPSoC) duties experienced in hybrid electric vehicles, together with a consideration of successful remedies for those factors.

  6. Development and testing of a bipolar lead-acid battery for hybrid electric vehicles

    Mourad, S.; Saakes, M.; Kluiters, C.E.; Schmal, D.; Have, P. ten


    A 80V bipolar lead-acid battery was constructed and tested using Hybrid Electric Vehicle (HEV) drive cycles. Drive cycles with a peak power of 6.7kW, equal to 1/5 of the total power profile required for the HEV studied, were run succesfully. Model calculations showed that the constructed 80V module,

  7. Development and testing of a bipolar lead-acid battery for hybrid electric vehicles

    Saakes, M.; Kluiters, E.; Schmal, D.; Mourad, S.; Have, P.T.J.H. ten


    An 80 V bipolar lead-acid battery was constructed and tested using hybrid electric vehicle (HEV) drive cycles. Drive cycles with a peak power of 6.7 kW, equal to 1/5 of the total power profile required for the HEV studied, were run successfully. Model calculations showed that the 80 V module

  8. Using Diagnostic Assessment to Help Teachers Understand the Chemistry of the Lead-Acid Battery

    Cheung, Derek


    Nineteen pre-service and in-service teachers taking a chemistry teaching methods course at a university in Hong Kong were asked to take a diagnostic assessment. It consisted of seven multiple-choice questions about the chemistry of the lead-acid battery. Analysis of the teachers' responses to the questions indicated that they had difficulty in…

  9. Lead-acid batteries for micro- and mild-hybrid applications

    Valenciano, J.; Fernández, M.; Trinidad, F.; Sanz, L.

    Car manufactures have announced the launch in coming months of vehicles with reduced emissions due to the introduction of new functions like stop-start and regenerative braking. Initial performance request of automotive lead-acid batteries are becoming more and more demanding and, in addition to this, cycle life with new accelerated ageing profiles are being proposed in order to determine the influence of the new functions on the expected battery life. This paper will show how different lead-acid battery technologies comply with these new demands, from an improved version of the conventional flooded SLI battery to the high performance of spiral wound valve-regulated lead-acid (VRLA) battery. Different approaches have been studied for improving conventional flooded batteries, i.e., either by the addition of new additives for reducing electrolyte stratification or by optimisation of the battery design to extend cycling life in partial state of charge conditions. With respect to VRLA technology, two different battery designs have been compared. Spiral wound design combines excellent power capability and cycle life under different depth of discharge (DoD) cycling conditions, but flat plate design outperform the latter in energy density due to better utilization of the space available in a prismatic enclosure. This latter design is more adequate for high end class vehicles with high electrical energy demand, whereas spiral wound is better suited for high power/long life demand of commercial vehicle. High temperature behaviour (75 °C) is rather poor for both designs due to water loss, and then VRLA batteries should preferably be located out of the engine compartment.

  10. A new lead-acid battery for high pulse power applications

    Rowlette, J. J.; Attia, A. I.


    The development of new electronically conductive materials which can withstand the environment of the positive plates has made possible the construction of a high pulse power sealed bipolar lead-acid battery. The new battery is described and its advantages over other electrochemical systems are outlined. Performance projections show that the peak specific power of the battery can be as high as 90 kW/kg, and that a specific power of 5 kW/kg can be sustained over several thousand pulses.

  11. Lead-acid traction batteries for electric road vehicle propulsion Directions for research and development

    Rand, D. A. J.


    Little information exists on the behavior of lead-acid batteries operating under the duty cycles normal to electric road vehicle service. Important battery requirements for the propulsion of traffic-compatible electric vehicles include a deep-discharge capability at high efficiencies of active material utilization, and a long cycle life. In order to optimize power-source characteristics to meet these criteria, especially for passenger cars, it is necessary to gain full knowledge of the influence of actual vehicle service on the performance of traction batteries. This article defines areas in which both fundamental and applied work are required to achieve this aim based on the current performance of the lead-acid system.

  12. Discrete carbon nanotubes increase lead acid battery charge acceptance and performance

    Swogger, Steven W.; Everill, Paul; Dubey, D. P.; Sugumaran, Nanjan


    Performance demands placed upon lead acid batteries have outgrown the technology's ability to deliver. These demands, typically leading to Negative Active Material (NAM) failure, include: short, high-current surges; prolonged, minimal, overvoltage charging; repeated, Ah deficit charging; and frequent deep discharges. Research shows these failure mechanisms are attenuated by inclusion of carbon allotropes into the NAM. Addition of significant quantities of carbon, however, produces detrimental changes in paste rheology, leading to lowered industrial throughput. Additionally, capacity, cold-cranking performance, and other battery metrics are negatively affected at high carbon loads. Presented here is Molecular Rebar® Lead Negative, a new battery additive comprising discrete carbon nanotubes (dCNT) which uniformly disperse within battery pastes during mixing. NS40ZL batteries containing dCNT show enhanced charge acceptance, reserve capacity, and cold-cranking performance, decreased risk of polarization, and no detrimental changes to paste properties, when compared to dCNT-free controls. This work focuses on the dCNT as NAM additives only, but early-stage research is underway to test their functionality as a PAM additive. Batteries infused with Molecular Rebar® Lead Negative address the needs of modern lead acid battery applications, produce none of the detrimental side effects associated with carbon additives, and require no change to existing production lines.

  13. Analysis of lead-acid battery deep-cycle accelerated testing data

    Clifford, J. E.; Thomas, R. E.


    Battelle conducted a detailed analysis of the deep cycle, acclerated test data (at a nominal 70 C) obtained by Exide in the three-year, Phase 1 program to develop advanced lead-acid batteries for utility load leveling. Cycle life results for 60 lead-acid cells in three fractional factorial experiments were analyzed to develop quantitative relationships for real-time cycles to failure as a function of cell design variables. Important factors affecting cycle life were depth of discharge with respect to plate active material and acid within the plate stack, acid specific gravity, separator system design, and additives in the active material.

  14. Structural and morphological study of damage in lead/acid batteries during cycling and floating tests

    Brissaud, C.; Reumont, G.; Smaha, J. P.; Foct, J.

    Premature capacity loss is a severe problem observed in lead/acid batteries; it has been localised at the grid/positive active material interface (PAM) and in the PAM. In order to understand these phenomena, cycled batteries with Pb-Sb-Sn and Pb-Ca-Sn positive grid alloys were studied and compared with floated batteries with Pb-Ca-Sn positive grid alloys. The evolution of the crystallographic and morphological structure of the PAM and of the grid/PAM interface during the tests were investigated. Formation of isolated agglomerates of PAM by the phenomena assimilated to sintering was found to be the reason of the failure of cycled batteries, whereas the intergranular corrosion of the grid initiated the floated batteries' end of life. The results and mechanisms of these phenomena are presented.

  15. Low-maintenance, valve-regulated, lead/acid batteries in utility applications

    Cook, G. M.; Spindler, W. C.

    Electric power utility companies have various needs for lead/acid batteries, and also are beginning to promote customer-side-of-the meter applications for mutual benefits. Increasing use of lead/acid batteries in the future will depend heavily on improving performance and reliability of sealed, recombination designs, and on their versatility for many applications. Classifying various utility uses could be by cycling requirements, depth-of-discharge, power or energy (ratio of watts to hours), or by site (utility or customer). Deep-cycling examples are energy storage, peak-shaving and electric vehicles. Shallow-cycling examples are frequency regulation and reactive power control. Infrequent discharge examples are stationary service and spinning reserve. (Float service for telecommunications and uninterruptible power sources (UPS) applications are not addressed.) Some present and planned installations of valve-regulated lead/acid batteries are surveyed. Performance characteristics will be discussed, including recent results of testing both gel and absorptive glass mat (AGM) types of deep-cycling batteries. Recommendations for future research and development of valve-regulated cell technology are outlined, based on a recent conference organized by the United States Department of Energy (USDOE) and the Electric Power Research Institute (EPRI).

  16. Data-Driven Lead-Acid Battery Prognostics Using Random Survival Forests


    Data-Driven Lead-Acid Battery Prognostics Using Random Survival Forests Erik Frisk1, Mattias Krysander2, and Emil Larsson3 1,2,3 Department of...driven approach using random survival forests is proposed where the prognostic algorithm has access to fleet manage- ment data including 291 variables...but it is also used to, for example, power auxiliary units such as heating and kitchen Erik Frisk et al. This is an open-access article distributed

  17. State of available capacity estimation for lead-acid batteries in electric vehicles using neural network

    Shen, W.X. [School of Engineering, Monash University Malaysia, 2 Jalan Kolej, Bandar Sunway, 46150 Petaling Jaya, Selangor Darul Ehsan (Malaysia)


    This paper reviews recent definitions of the state of charge (SOC) that are often used to estimate the battery residual available capacity (BRAC) for lead-acid batteries in electric vehicles (EVs) and identifies their shortcomings. Then, the state of available capacity (SOAC), instead of the SOC, is defined to denote the BRAC in EVs, which refers to the percentage of the battery available capacity (BAC) of the discharge current profile for the EV battery at the fully charged state. Based on the experimentation of different discharge current profiles, including theoretical current profiles and practical current profiles under EV driving cycles, the discharged and regenerative capacity distribution is proposed to describe discharge current profiles for the SOAC estimation. Because of the complexity and nonlinearity of the relationship between the SOAC and the capacity distribution at different temperatures, a neural network (NN) is applied to this SOAC estimation. Comparisons between the estimated SOACs by the NN and the calculated SOACs from the experimental data are used for verification. The results confirm that the proposed approach can provide an accurate and effective estimation of the BRAC for lead-acid batteries in EVs. (author)

  18. A multifunctional energy-storage system with high-power lead-acid batteries

    Wagner, R.; Schroeder, M.; Stephanblome, T.; Handschin, E.

    A multifunctional energy storage system is presented which is used to improve the utilization of renewable energy supplies. This system includes three different functions: (i) uninterruptible power supply (UPS); (ii) improvement of power quality; (iii) peak-load shaving. The UPS application has a long tradition and is used whenever a reliable power supply is needed. Additionally, nowadays, there is a growing demand for high quality power arising from an increase of system perturbation of electric grids. Peak-load shaving means in this case the use of renewable energy stored in a battery for high peak-load periods. For such a multifunctional application large lead-acid batteries with high power and good charge acceptance, as well as good cycle life are needed. OCSM batteries as with positive tubular plates and negative copper grids have been used successfully for a multitude of utility applications. This paper gives two examples where multifunctional energy storage systems have started operation recently in Germany. One system was installed in combination with a 1 MW solar plant in Herne and another one was installed in combination with a 2 MW wind farm in Bocholt. At each place, a 1.2 MW h (1 h-rate) lead-acid battery has been installed. The batteries consist of OCSM cells with the standard design but modified according to the special demand of a multifunctional application.

  19. Effect of lead foam grid on performance of lead-acid battery

    DAI Chang-song; WANG Dian-long; HU Xin-guo; JIANG Zhao-hua; YAN Zhi-gang


    In order to increase the specific energy and specific power of a lead-acid battery, lead foam grid was prepared by electrodepositing Pb-Sn alloy on a copper foam substrate and used as negative current collector for a lead acid battery whose capacity was limited by the negative plate. Comparing the effect of the cast grid, under the same conditions, the mass of lead foam grid decreases by 35% , and the area of lead foam contacted with active material increases by about 20 times. Under 2 h rate discharge condition, with a high current (3.0 I2 ) e and low-temperature ( - 10 ℃, I2 ) discharge system, the lead foam grid markedly boosts the discharge performance of lead acid battery. It increases not only the negative electrode mass specific capacity by 27% ,37%and 29% ,but also the utilization efficiency of the negative active material by 5%. Compared with the negative electrode of cast grid, XRD and SEM results show that after 20 cycles at the state of charge, the sponge lead in the negative lead foam electrode has smaller crystals and less PbSO4 on its surface. Meanwhile, at the state of full discharge, the PbSO4 crystals are smaller and occur less on the surface of lead foam electrode. This indicates its active material reacts more uniformly.

  20. Lead identification in soil surrounding a used lead acid battery smelter area in Banten, Indonesia

    Adventini, N.; Santoso, M.; Lestiani, D. D.; Syahfitri, W. Y. N.; Rixson, L.


    A used lead acid battery smelter generates particulates containing lead that can contaminate the surrounding environment area. Lead is a heavy metal which is harmful to health if it enters the human body through soil, air, or water. An identification of lead in soil samples surrounding formal and informal used lead acid battery smelters area in Banten, Indonesia using EDXRF has been carried out. The EDXRF accuracy and precision evaluated from marine sediment IAEA 457 gave a good agreement to the certified value. A number of 16 soil samples from formal and informal areas and 2 soil samples from control area were taken from surface and subsurface soils. The highest lead concentrations from both lead smelter were approximately 9 folds and 11 folds higher than the reference and control samples. The assessment of lead contamination in soils described in Cf index was in category: moderately and strongly polluted by lead for formal and informal lead smelter. Daily lead intake of children in this study from all sites had exceeded the recommended dietary allowance. The HI values for adults and children living near both lead smelter areas were greater than the value of safety threshold 1. This study finding confirmed that there is a potential health risk for inhabitants surrounding the used lead acid battery smelter areas in Banten, Indonesia.

  1. SUNRAYCE 93: Working safely with lead-acid batteries and photovoltaic power systems

    DePhillips, M.P.; Moskowitz, P.D.; Fthenakis, V.M.


    The US Department of Energy (DOE) is sponsoring SUNRAYCE 93 to advance tile technology and use of photovoltaics and electric vehicles. Participants will use cars powered by photovoltaic modules and lead-acid storage batteries. This brochure, prepared for students and faculty participating in this race, outlines the health hazards presented by these electrical systems, and gives guidance on strategies for their safe usage. At the outset, it should be noted that working with photovoltaic systems and batteries requires electric vehicle drivers and technicians to have {open_quotes}hands-on{close_quotes} contact with the car on a daily basis. It is important that no one work near a photovoltaic energy system or battery, either in a vehicle or on the bench, unless they familiarize themselves with the components in use, and know and observe safe work practices including the safety precautions described in the manuals provided by the various equipment vendors and this document.

  2. Performance characteristics of lead oxides in pasted lead/acid battery electrodes

    Afifi, S.E. (Electrometallurgy Lab., Central Metallurgical Research and Development Inst., Cairo (Egypt)); Saba, A.E. (Electrometallurgy Lab., Central Metallurgical Research and Development Inst., Cairo (Egypt)); Shenouda, A.Y. (Electrometallurgy Lab., Central Metallurgical Research and Development Inst., Cairo (Egypt))


    The performance characteristics of lead oxides used for the pasted type of lead/acid battery plate have been investigated. The [alpha]- and [beta]-PbO polymorphs have been prepared carefully and used for pasting model electrodes. The factors that may affect the electrical capacity of such electrodes have been studied. These are: the type of oxide; percentage of free lead; additives such as carboxymethyl cellulose, zeolite and graphite. Lead hydroxide has also been studied with special attention. Photomicrographs have been taken to examine the crystal forms that develop on the electrode surface. Finally, some industrial samples have been investigated. (orig.)

  3. Reliability of valve-regulated lead-acid batteries for stationary applications.

    De Anda, Mindi Farber (Energetics Inc., Washington, DC); Butler, Paul Charles; Miller, Jennifer L (Energetics Inc., Washington, DC); Moseley, Patrick T. (International Lead Zinc Research Organization, Research Triangle Park, NC)


    A survey has been carried out to quantify the performance and life of over 700,000 valve-regulated lead-acid (VRLA) cells, which have been or are being used in stationary applications across the United States. The findings derived from this study have not identified any fundamental flaws of VRLA battery technology. There is evidence that some cell designs are more successful in float duty than others. A significant number of the VRLA cells covered by the survey were found to have provided satisfactory performance.

  4. Resolution in QCM Sensors for the Viscosity and Density of Liquids: Application to Lead Acid Batteries

    Jorge Marcos-Acevedo


    Full Text Available In battery applications, particularly in automobiles, submarines and remote communications, the state of charge (SoC is needed in order to manage batteries efficiently. The most widely used physical parameter for this is electrolyte density. However, there is greater dependency between electrolyte viscosity and SoC than that seen for density and SoC. This paper presents a Quartz Crystal Microbalance (QCM sensor for electrolyte density-viscosity product measurements in lead acid batteries. The sensor is calibrated in H2SO4 solutions in the battery electrolyte range to obtain sensitivity, noise and resolution. Also, real-time tests of charge and discharge are conducted placing the quartz crystal inside the battery. At the same time, the present theoretical “resolution limit” to measure the square root of the density-viscosity product ( of a liquid medium or best resolution achievable with a QCM oscillator is determined. Findings show that the resolution limit only depends on the characteristics of the liquid to be studied and not on frequency. The QCM resolution limit for  measurements worsens when the density-viscosity product of the liquid is increased, but it cannot be improved by elevating the work frequency.

  5. Spent lead-acid battery recycling in China - A review and sustainable analyses on mass flow of lead.

    Sun, Zhi; Cao, Hongbin; Zhang, Xihua; Lin, Xiao; Zheng, Wenwen; Cao, Guoqing; Sun, Yong; Zhang, Yi


    Lead is classified to be one of the top heavy metal pollutants in China. The corresponding environmental issues especially during the management of spent lead-acid battery have already caused significant public awareness and concern. This research gives a brief overview on the recycling situation based on an investigation of the lead industry in China and also the development of technologies for spent lead-acid batteries. The main principles and research focuses of different technologies including pyrometallurgy, hydrometallurgy and greener technologies are summarized and compared. Subsequently, the circulability of lead based on the entire life cycle analyses of lead-acid battery is calculated. By considering different recycling schemes, the recycling situation of spent lead-acid battery in China can be understood semi-quantitatively. According to this research, 30% of the primary lead production can be shut down that the lead production can still ensure consecutive life cycle operation of lead-acid battery, if proper management of the spent lead-acid battery is implemented according to current lead industry situation in China. This research provides a methodology on the view of lead circulability in the whole life cycle of a specific product and is aiming to contribute more quantitative guidelines for efficient organization of lead industry in China. Copyright © 2017 Elsevier Ltd. All rights reserved.

  6. The Brite-EuRam lead-acid electric-vehicle battery project-progress report

    Cooper, A. [Lead Development Association, London (United Kingdom)


    As part of its first programme, the advanced lead-acid battery consortium has a US$4.4 million project assisted by European community funding. This was initiated by the European members of the consortium under the Brite-EuRam programme. At the Sixth Asian Battery Conference, an interim report was given on progress on eight of the ten tasks and, now that the project is in its final year, most of these have been completed. The principal objective of the project was to incorporate the findings of this work into demonstration batteries. These would then be tested under the Eucar ECE-15 test regime and this part of the project is now well under way. This paper discusses the results of the research leading up to the design of the battery variants built for evaluation. It also attempts to identify the lessons which have been learnt from this complex programme involving 14 research partners as well as five additional financial sponsors. (orig.)

  7. The behaviour of the coup de fouet of valve-regulated lead-acid batteries

    Pascoe, Phillip E.; Anbuky, Adnan H.

    This paper presents the results of an investigation into the initial stage of the discharge voltage response of valve-regulated lead-acid (VRLA) batteries. This region is dominated by the phenomenon known as the coup de fouet which manifests itself as a voltage dip followed by a recovery. The research focuses on two parameters found within the coup de fouet region, namely, the trough and the plateau voltage. It is found that these parameters are influenced by the operating conditions and the sate-state-of health (SoH) of the battery. The operating conditions considered are discharge rate, ambient temperature, depth of previous discharge, charge duration, and float voltage. The coup de fouet parameters corresponding to high rate discharges, as well as discharges conducted at low temperatures, have reduced magnitudes compared with those conducted at lower rates or higher temperatures. This behaviour mirrors the availability of capacity when the battery is discharged under the same operating conditions. The float voltage is found to have a direct relationship with the trough and plateau voltages, whereas an indirect relationship between charge duration and the trough and plateau voltages is observed. The influence of variations in discharge depth on the coup de fouet is more complex. For consecutive discharge depths below approximately 10% of rated capacity, the coup de fouet becomes distorted and exhibits a second voltage dip. For consecutive discharges of greater depth, this does not occur. The influence of the degradation in battery SoH due to accelerated thermal ageing, water replenishment post-accelerated thermal ageing, and field ageing is investigated. The coup de fouet parameters associated with the discharge of batteries with low SoH have a reduced magnitude compared with those associated with the discharge of batteries with a high SoH.

  8. Research on the fiber reflecting sensor for detecting the residual capacity of the lead-acid battery

    Zhao, Mingfu; Zhong, Nianbing; Chen, Yan; Luo, Yuwei


    According to the Lambert-Bee law, we can see that the photic absorption coefficient is related to the matter's concentration, the distance of the light through the absorption medium and the transmitted light intensity. The paper just according to the physical phenomena and the theory make the reflex energy relate to the concentration testing of the electrolyte, at the same time the electrolyte's concentration is related to the capacity of lead-acid battery on a corresponding function relation, so we can know the capacity state of the lead-acid battery according to the measurement on the electrolyte's concentration. According to the experiment and research the author deeply discussed how the temperature change affects the capacity of lead-acid battery and the concentration's changing relation, according to the analyses of the thermo-optic effect, we made a new reflecting fiber sensor based on the comparative temperature testing theory and absorption which can eliminate the temperature effect on the tested signal namely the output signal just related to the concentration, so really reflects the change of the capacity of the lead-acid battery when it is in the charge and discharge process. The results of the experiment and theory analyses show that this method is easy to realize the online testing of the capacity of lead-acid battery. This sensor has many merits such as precise measurement, sensitive reaction, long-life use etc. It can be widely used in the electric capacity testing of the automobile lead-acid battery, the electric capacity testing of the industry lead-acid battery, liquor's concentration testing and salinity testing of the sea and have a bright future.

  9. Battery energy-storage systems — an emerging market for lead/acid batteries

    Cole, J. F.

    Although the concept of using batteries for lead levelling and peak shaving has been known for decades, only recently have these systems become commercially viable. Changes in the structure of the electric power supply industry have required these companies to seek more cost-effective ways of meeting the needs of their customers. Through experience gained, primarily in the USA, batteries have been shown to provide multiple benefits to electric utilities. Also, lower maintenance batteries, more reliable electrical systems, and the availability of methods to predict costs and benefits have made battery energy-storage systems more attractive. Technology-transfer efforts in the USA have resulted in a willingness of electric utilities to install a number of these systems for a variety of tasks, including load levelling, peak shaving, frequency regulation and spinning reserve. Additional systems are being planned for several additional locations for similar applications, plus transmission and distribution deferral and enhanced power quality. In the absence of US champions such as the US Department of Energy and the Electric Power Research Institute, ILZRO is attempting to mount a technology-transfer programme to bring the benefits of battery energy-storage to European power suppliers. As a result of these efforts, a study group on battery energy-storage systems has been established with membership primarily in Germany and Austria. Also, a two-day workshop, prepared by the Electric Power Research Institute was held in Dublin. Participants included representatives of several European power suppliers. As a result, ESB National Grid of Ireland has embarked upon a detailed analysis of the costs and benefits of a battery energy-storage system in their network. Plans for the future include continuation of this technology-transfer effort, assistance in the Irish effort, and a possible approach to the European Commission for funding.

  10. Application of ionic liquids as an electrolyte additive on the electrochemical behavior of lead acid battery

    Rezaei, Behzad; Mallakpour, Shadpour; Taki, Mahmood [Department of Chemistry, Isfahan University of Technology, Isfahan 84156-83111 (Iran)


    Ionic liquids (ILs) belong to new branch of salts with unique properties which their applications have been increasing in electrochemical systems especially lithium-ion batteries. In the present work, for the first time, the effects of four ionic liquids as an electrolyte additive in battery's electrolyte were studied on the hydrogen and oxygen evolution overpotential and anodic layer formation on lead-antimony-tin grid alloy of lead acid battery. Cyclic and linear sweep voltammetric methods were used for this study in aqueous sulfuric acid solution. The morphology of grid surface after cyclic redox reaction was studied using scanning electron microscopy. The results show that most of added ionic liquids increase hydrogen overpotential and whereas they have no significant effect on oxygen overpotential. Furthermore ionic liquids increase antimony dissolution that might be related to interaction between Sb{sup 3+} and ionic liquids. Crystalline structure of PbSO{sub 4} layer changed with presence of ionic liquids and larger PbSO{sub 4} crystals were formed with some of them. These additives decrease the porosity of PbSO{sub 4} perm selective membrane layer at the surface of electrode. Also cyclic voltammogram on carbon-PbO paste electrode shows that with the presence of ionic liquids, oxidation and reduction peak current intensively increased. (author)

  11. New lead acid batteries for heavy duty trucks - more robust and maintenance free; Neue, robustere und wartungsfreie Bleibatterien fuer Nutzfahrzeuge

    Geiger, Michael; Sarrau, Jean-Francois [Exide Technologies SAS, Gennevilliers (France)


    Today's truck industry is moving inevitably towards cleaner emission standards and limits. That way new requirements followed. For example: High vibration resistent batteries. The reason is, that the Adblue tank is now integrated in the former space of the starter battery, which has to be positioned in rough environment at the back of a truck. Therefore Exide developed special lead acid batteries with a high vibration standard. (orig.)

  12. Comparative study for "36 V" vehicle applications: advantages of lead-acid batteries

    Lailler, Patrick; Sarrau, Jean-François; Sarrazin, Christian

    From thermal engine equipped vehicles to completely electric ones, evolution of light weight vehicles in the future will take several steps in so far as there is no adequate battery or fuel cell presently available to power these vehicles for "on the road" driving. On the other hand, for city driving, vehicles can be improved a lot in terms of fuel efficiency as well as air pollution, if partly or totally electric propulsion can be developed, manufactured and marketed for appropriate applications. The 36-42 V battery is part of this orientation towards improving the efficiency of thermal vehicles in city driving, while keeping adequate autonomy on the roads. Actually, in city traffic, thermal engines are idle most of the time and stop periods represent a large part of the time spent "driving", using up fuel and polluting air for no use at all. The idea of stopping the engine during these periods, if appropriately managed, might potentially lead to a large improvement in fuel economy as well as air pollution reduction. The association of a higher voltage battery to an alternator-starter device in thermal vehicles, seems to be an interesting way towards that end. In this paper, we are presenting our results of a study we have just completed in relationship with RENAULT & VALEO, supported by the French Ministry of Industry, concerning a comparative evaluation of different automobile energy storage systems, and the definition of specifications as the final step of this study. The main conclusion is that lead-acid will still remain dominant in this role, since its operational cost versus efficiency is by far the lowest of every battery presently considered, more particularly in the less expensive car segments.

  13. Influence of substituted benzaldehydes and their derivatives as inhibitors for hydrogen evolution in lead/acid batteries

    Dietz, H. [Technische Univ. Dresden, Inst. fuer Physikalische Chemie und Elektrochemie (Germany); Hoogestraat, G. [DETA-Akkumulatorenwerk GmbH, Bad Lauterberg (Germany); Laibach, S. [Kurt-Schwabe-Inst. fuer Mess- und Sensortechnik e.V., Meinsberg (Germany); Borstel, D. von [DETA-Akkumulatorenwerk GmbH, Bad Lauterberg (Germany); Wiesener, K. [Kurt-Schwabe-Inst. fuer Mess- und Sensortechnik e.V., Meinsberg (Germany)


    The influence of substituted benzaldehydes and their derivatives (e.g. vanillin) as inhibitors for hydrogen evolution on smooth and porous negative electrodes of the lead/acid system is investigated by cyclic voltammetric measurements. The experiments have been carried out with and without the presence of antimony. The effect of the inhibitors can be distinguished by a moderate and a strong inhibiting action. Use of these inhibitors in flooded lead/acid batteries can reduce water loss during cycling by 50%. (orig.)

  14. Accelerated cycle-life testing of small sealed lead/acid batteries

    Kim, I.; Oh, S. H.; Kang, H. Y.

    An attempt has been made to devise methods for reducing the cycle-testing time of long-life sealed lead/acid batteries. In order for the accelerated test results to equate to the actual field operations, it is assumed that the failure modes under both normal and accelerated conditions must be the same. As a first step in the search for a reliable accelerated test, observations of the battery ageing process have been made under different daily duty cycles, viz., 1 (normal), 8 and 16 cycles/day at ambient temperature and 80% depth-of-discharge. It has been found that the main cause of failure is different for a given duty cycle. This complicates the task of applying accelerated test results to field operations. For the 8 cycles/day schedule, the main cause of failure is degradation of the positive active material. Positive grid corrosion is the main factor in the 16 cycles/day case. Under normal conditions, both grid corrosion and PbO 2 degradation appear to be equally significant.

  15. Novel polymer-graphite composite grid as a negative current collector for lead-acid batteries

    Zhang, Shukai; Zhang, Hao; Cheng, Jie; Zhang, Wenfeng; Cao, Gaoping; Zhao, Hailei; Yang, Yusheng


    We design a novel polymer-graphite composite grid as the negative current collector for lead-acid batteries. With this novel grid, the negative active material (NAM) can deliver a specific capacity of 170 mAh g-1 at a discharge rate of 0.1 C. After that, we conduct structural optimization and surface treatment on the grid to improve its performance. Through the structural optimization, additional lead pastes can be loaded and the cycle stability of the battery is enhanced. By using the optimized grid, the weight of the negative current collector can be remarkably reduced by more than 50%. To handle the serious hydrogen evolution on the graphite surface and the unfavorable adhesion between graphite and NAM, fine PbSO4 particles are coated onto the surface of the graphite grids by chemical deposition. The cells employing the PbSO4-deposition grids exhibit excellent cycling stability as well as low polarization and then high Coulombic efficiency. We present here a possible mechanism that how PbSO4 deposits effectively enhance the performance of negative plates based on the testing results.

  16. Leaching of spent lead acid battery paste components by sodium citrate and acetic acid.

    Zhu, Xinfeng; He, Xiong; Yang, Jiakuan; Gao, Linxia; Liu, Jianwen; Yang, Danni; Sun, Xiaojuan; Zhang, Wei; Wang, Qin; Kumar, R Vasant


    A sustainable method, with minimal pollution and low energy cost in comparison with the conventional smelting methods, is proposed for treating components of spent lead-acid battery pastes in aqueous organic acid(s). In this study, PbO, PbO2, and PbSO4, the three major components in a spent lead paste, were individually reacted with a mixture of aqueous sodium citrate and acetic acid solution. Pure lead citrate precursor of Pb3(C6H5O7)2 · 3H2O is the only product crystallized in each leaching experiment. Conditions were optimized for individual lead compounds which were then used as the basis for leaching real industrial spent paste. In this work, efficient leaching process is achieved and raw material cost is reduced by using aqueous sodium citrate and acetic acid, instead of aqueous sodium citrate and citric acid as reported in a pioneering hydrometallurgical method earlier. Acetic acid is not only cheaper than citric acid but is also more effective in aiding dissolution of the lead compounds thus speeding up the leaching process in comparison with citric acid. Lead citrate is readily crystallized from the aqueous solution due to its low solubility and can be combusted to directly produce leady oxide as a precursor for making new battery pastes.

  17. Performance and use of composite-substrate-based bipolar lead/acid batteries for pulsed-power applications

    Saakes, Michel; Schellevis, Dion; van Trier, Dieter; Wollersheim, Maurice

    A new type of composite substrate is proposed for constructing fast discharge bipolar lead/acid batteries.This newly developed substrate, used for constructing 4 V bipolar lead/acid batteries, displays no corrosion and a very low catalytic effectfor both hydrogen and oxygen evolution. The specific resistance is 1.2 Ω cm while the areal resistance is 0.04 Ω cm 2. The activelayers are formed by the Planté formation method, both in situ and ex situ. For pulsed-power applications, where energy is quickly transferredto an inductor, a model calculation is given for deriving the required ratio of the specific power and the specific energy.

  18. Assessment of high power HEV lead-acid battery advancements by comparative benchmarking with a European test procedure

    Conte, Mario; Pede, Giovanni; Sglavo, Vincenzo; Macerata, Diego

    The technical and practical suitability of lead-acid batteries for applications in vehicles with electrical drivetrains (battery-powered or hybrid electric) has been experimentally investigated in a variety of testing programmes. Under the direction and funding support of the Commission of the European Community, since early 1990s, the R&D Organisation EUCAR, a collaborative partnership of most European car manufacturers, has been conducting battery technological assessment projects, through bench tests carried out by different independent laboratories throughout Europe, using agreed test procedures. In this framework, ENEA acted as independent testing institute and tested, among others, three high power lead-acid batteries of various technologies (flat plate electrodes and spiral wound) for EV and HEV applications. In addition, different battery sizes and operating conditions have been tested at ENEA in a separate collaboration with ALTRA-IRISBUS. This paper intends to trace technological and performance improvements of high power lead-acid battery technology through the analysis of experimental data during parameter and life cycle tests, including the effects of battery sizes, charge/discharge profiles and testing procedures, with special emphasis on the reduction of the internal resistance and the variation of peak power and cycle life.

  19. A Multi-Point Sensor Based on Optical Fiber for the Measurement of Electrolyte Density in Lead-Acid Batteries

    Cao-Paz, Ana M.; Marcos-Acevedo, Jorge; del Río-Vázquez, Alfredo; Martínez-Peñalver, Carlos; Lago-Ferreiro, Alfonso; Nogueiras-Meléndez, Andrés A.; Doval-Gandoy, Jesús


    This article describes a multi-point optical fiber-based sensor for the measurement of electrolyte density in lead-acid batteries. It is known that the battery charging process creates stratification, due to the different densities of sulphuric acid and water. In order to study this process, density measurements should be obtained at different depths. The sensor we describe in this paper, unlike traditional sensors, consists of several measurement points, allowing density measurements at different depths inside the battery. The obtained set of measurements helps in determining the charge (SoC) and state of health (SoH) of the battery. PMID:22319262

  20. The effect of tin on the performance of positive plates in lead/acid batteries

    Culpin, B.; Hollenkamp, A. F.; Rand, D. A. J.

    There are many reports that the use of non- or low-antimonial grids in lead/acid batteries can give rise to the development of a high-impedance 'passivation' layer at the grid/active-material interface. It is generally agreed that the layer has a duplex structure that comprises α-PbO deposited directly on the grid surface beneath a compact covering of PbSO 4; basic sulfates and α-PbO 2 may also be present. The development of this structure hinders recovery from prolonged deep discharge or self-discharge. Similar phenomena can be observed with dry-charged positive plates. Passivation can also occur during cycling and float operations but, in these duties, the formation of a non-conductive layer of PbSO 4 is thought to be the prime cause of the degradation in plate performance. The incorporation of tin in the positive grid (either in the alloy itself or as a surface layer) is found to reduce the level of α-PbO and greatly alleviate passivation problems relating to charge acceptance. Various mechanisms have been proposed for this tin effect and range from a semiconductor-type doping of α-PbO to changes in the porosity of the PbSO 4 layer and/or the reactivity of α-PbO towards oxidation. The benefits of tin in cycling and float duties are less obvious and it is probable that other features of cell design are more important determinants of battery performance. The action of tin when incorporated in the positive active material requires further exploration.

  1. Quality Control of Lead-Acid Battery according to Its Condition Test for UPS Supplier and Manufacturers

    Tsung-Chih Hsiao


    Full Text Available The risk of insufficient petroleum resources has forced human beings to emphasize the acquisition and storage of energy. To avoid such situation, this study tends to explore the effective management of lead-acid batteries for effective utilization conforming to the industrial requirements.

  2. 49 CFR 229.43 - Exhaust and battery gases.


    ... 49 Transportation 4 2010-10-01 2010-10-01 false Exhaust and battery gases. 229.43 Section 229.43... § 229.43 Exhaust and battery gases. (a) Products of combustion shall be released entirely outside the... conditions. (b) Battery containers shall be vented and batteries kept from gassing excessively. ...

  3. Blood Lead Levels and Health Problems of Lead Acid Battery Workers in Bangladesh

    Sk. Akhtar Ahmad


    Full Text Available Introduction. Use of lead acid battery (LAB in Bangladesh has risen with sharp rise of motor vehicles. As result, manufacture of LAB is increasing. Most of the lead used by these industries comes from recycling of LAB. Workers in LAB industry are at risk of exposure lead and thus development of lead toxicity. Objective. The objective of this study was to measure the blood lead concentration and to assess the magnitude of health problems attributable to lead toxicity among the LAB manufacturing workers. Methods. A cross-sectional study was conducted among the workers of LAB manufacturing industries located in Dhaka city. Result. Mean blood lead level (BLL among the workers was found to be high. They were found to be suffering from a number of illnesses attributable to lead toxicity. The common illnesses were frequent headache, numbness of the limbs, colic pain, nausea, tremor, and lead line on the gum. High BLL was also found to be related to hypertension and anemia of the workers. Conclusion. High BLL and illnesses attributable to lead toxicity were prevalent amongst workers of the LAB manufacturing industries, and this requires attention especially in terms of occupational hygiene and safety.

  4. Estimator for Charge Acceptance of Lead Acid Batteries Estimateur d’acceptance de charge des batteries Pb-acide

    Christen U.


    Full Text Available A phenomenological model of lead acid batteries is developed that is then used to construct an estimator for short term charge acceptance. Conceptually, the model is based on a partial differential equation that is discretized for tractability. With observers for the battery current and state of charge, the prediction of the internal states is improved. Since the model is essentially linear, the short term prediction can be implemented in closed form, thus without the need for computationally intensive prediction simulations at each sampling instant. The only nonlinearity, the dependence on temperature, can be incorporated in a linear parameter-varying model. Un modèle phénoménologique des batteries plomb-acide est développé et utilisé pour réaliser un estimateur d’acceptance de charge à court terme. Conceptuellement, le modèle est basé sur une équation différentielle partielle qui est discrétisée pour simplifier. La prédiction des états du modèle est améliorée par l’utilisation d’observateurs du courant et de la charge de la batterie. Comme le modèle est essentiellement linéaire, la prédiction à court terme peut être formulée en forme close. Il n’est donc plus nécessaire d’avoir recours à des simulations complexes à chaque instant d’échantillonnage. La seule dépendance non-linéaire, celle à la température, peut être incorporée dans un modèle linéaire à paramètre variable.

  5. Characterisation of charge voltage of lead-acid batteries: application to the charge control strategy in photovoltaic systems

    Vela, N. [CIEMAT-DER, Madrid (Spain). Laboratorio de Energia Solar Fotovoltaica; Aguilera, J. [Universidad de Jaen (Spain). Escuela Politecnica Superior


    In stand-alone photovoltaic (PV) systems, charge controllers prevent excessive battery overcharge by interrupting or limiting the current flow from the PV array to the battery when the battery becomes fully charged. Charge regulation is most often accomplished by limiting the battery voltage to a predetermined value or cut-off voltage, higher than the gassing voltage. These regulation voltages are dependent on the temperature and battery charge current. An adequate selection of overcharge cut-off voltage for each battery type and operating conditions would maintain the highest battery state of charge without causing significant overcharge thus improving battery performance and reliability. To perform this work, a sample of nine different lead-acid batteries, typically used in stand-alone PV systems including vented and sealed batteries with 2 V cells and monoblock configurations have been selected. This paper presents simple mathematical expressions fitting two charge characteristic voltages: the gassing voltage (V{sub g}) and the end-of charge voltage (V{sub fc}) as function of charge current and temperature for the tested batteries. With these expressions, we have calculated V{sub g} and V{sub fc} at different current rates. An analysis of the different values obtained is presented here focusing in the implication in control strategies of batteries in stand-alone PV systems. (author)

  6. Health hazards of China's lead-acid battery industry: a review of its market drivers, production processes, and health impacts.

    van der Kuijp, Tsering Jan; Huang, Lei; Cherry, Christopher R


    Despite China's leaded gasoline phase out in 2000, the continued high rates of lead poisoning found in children's blood lead levels reflect the need for identifying and controlling other sources of lead pollution. From 2001 to 2007, 24% of children in China studied (N = 94,778) were lead poisoned with levels exceeding 100 μg/L. These levels stand well above the global average of 16%. These trends reveal that China still faces significant public health challenges, with millions of children currently at risk of lead poisoning. The unprecedented growth of China's lead-acid battery industry from the electric bike, automotive, and photovoltaic industries may explain these persistently high levels, as China remains the world's leading producer, refiner, and consumer of both lead and lead-acid batteries.This review assesses the role of China's rising lead-acid battery industry on lead pollution and exposure. It starts with a synthesis of biological mechanisms of lead exposure followed by an analysis of the key technologies driving the rapid growth of this industry. It then details the four main stages of lead battery production, explaining how each stage results in significant lead loss and pollution. A province-level accounting of each of these industrial operations is also included. Next, reviews of the literature describe how this industry may have contributed to mass lead poisonings throughout China. Finally, the paper closes with a discussion of new policies that address the lead-acid battery industry and identifies policy frameworks to mitigate exposure.This paper is the first to integrate the market factors, production processes, and health impacts of China's growing lead-acid battery industry to illustrate its vast public health consequences. The implications of this review are two-fold: it validates calls for a nationwide assessment of lead exposure pathways and levels in China as well as for a more comprehensive investigation into the health impacts of the lead-acid

  7. Lead-acid battery with improved cycle life and increased efficiency for lead leveling application and electric road vehicles

    Winsel, A.; Schulz, J.; Guetlich, K. F.


    Lifetime and efficiency of lead acid batteries are discussed. A gas lift pump was used to prevent acid stratification and to reduce the charging factor (down to 1.03 to 1.05). A re-expansion method was applied and an expander depot and a compound separation were built in. Cycle life is increased from 700 cycles to 1690 cycles. Efficiency is increased by energy and time saving due to the reduced charging factor and by the use of a recombination stopper and a charge indicator with remote control. It is suggested that the lead acid system is still one of the best possibilities for electric road vehicle applications.


    Z.M. Zou; X.M. Cao; C. Tian; J.S. Zhang


    The possibility of using Pb-electroplated reticulated SiC as the positive current collector for lead-acid batteries was investigated. Reticulated SiC with two aperture sizes (3 and 2mm) were tested as the substrate of positive electrode. It was found that the reticulated SiC has an excellent corrosion resistance in H2SO4 solution, and the Pb layer electroplated on reticulated SiC showed analogous electrochemical behavior to metal Ph. Preliminary test of the battery performance indicated that the utilization efficiency of the positive active mass of new designed batteries are improved compared with the conventional batteries. The improvement could be ascribed to the high specific surface area of the reticulated structured positive current collector, which was further supported by the even better performance of the battery made from a smaller aperture size (2mm) reticulated SiC as the substrate of the positive electrode.

  9. Small-capacity valve-regulated lead/acid battery with long life at high ambient temperature

    Hatanaka, T.; Maeda, M.; Iwata, M. [Battery Development Center, Japan Storage Battery, Kyoto (Japan)


    Valve-regulated lead/acid (VRLA) batteries are widely used as back-up power sources for telecommunications and UPS. These applications require high-reliability under severe environmental conditions. To meet this demand, the authors` company have developed small capacity (12 V, 15-65 A h at C{sub 20}/20 rate), long-life VRLA batteries which can endure high ambient temperature. These batteries make use of a new alloy and grid design which has improved resistance to corrosion at the positive plate, while at the same time reduce float current at high temperature. As a result, these batteries have a life expectancy of 13 years at 25 C, and inhibited thermal runaway even under ambient temperatures up to 75 C. The batteries can be installed in outdoor and underground environments. (orig.)

  10. Lead-acid and lithium-ion batteries for the Chinese electric bike market and implications on future technology advancement

    Weinert, Jonathan X.; Burke, Andrew F.; Wei, Xuezhe

    China has been experiencing a rapid increase in battery-powered personal transportation since the late 1990s due to the strong growth of the electric bike and scooter (i.e. e-bike) market. Annual sales in China reached 17 million bikes year -1 in 2006. E-bike growth has been in part due to improvements in rechargeable valve-regulated lead-acid (VRLA) battery technology, the primary battery type for e-bikes. Further improvements in technology and a transition from VRLA to lithium-ion (Li-ion) batteries will impact the future market growth of this transportation mode in China and abroad. Battery performance and cost for these two types are compared to assess the feasibility of a shift from VRLA to Li-ion battery e-bikes. The requirements for batteries used in e-bikes are assessed. A widespread shift from VRLA to Li-ion batteries seems improbable in the near future for the mass market given the cost premium relative to the performance advantages of Li-ion batteries. As both battery technologies gain more real-world use in e-bike applications, both will improve. Cell variability is a key problematic area to be addressed with VRLA technology. For Li-ion technology, safety and cost are the key problem areas which are being addressed through the use of new cathode materials.

  11. Performance and use of composite-substrate-based bipolar lead/acid batteries for pulsed-power applications

    Saakes, M.; Schellevis, D.; Trier, D. van [TNO-Environment, Energy and Process Innovation, Delft (Netherlands); Wollersheim, M. [TNO PML-Pulse Physics Lab. Rijswijk (Netherlands)


    A new type of composite substrate is proposed for constructing fast discharge bipolar lead/acid batteries. This newly developed substrate, used for constructing 4 V bipolar lead/acid batteries, displays no corrosion and a very low catalytic effect for both hydrogen and oxygen evolution. The specific resistance is 1.2 {Omega} cm while the areal resistance is 0.04 {Omega} cm{sup 2}. The active layers are formed by the Plante formation method, both in situ and ex situ. For pulsed-power applications, where energy is quickly transferred to an inductor, a model calculation is given for driving the required ratio of the specific power and the specific energy. (orig.)

  12. Premature capacity loss in lead/acid batteries: a discussion of the antimony-free effect and related phenomena

    Hollenkamp, A. F.

    Instances of severe capacity loss in apparently healthy lead/acid batteries have been reported over a period of many years, and are still common today. In most cases, these phenomena are linked to the use of antimony-free positive grids and are invoked by repetitive deep-discharge duties. This situation represents probably the greatest barrier to the expansion of markets for lead/acid batteries. To date, research has focused on several possible explanations for capacity loss; notably, degradation of the positive active mass (e.g., relaxable insufficient mass utilization) and the development of electrical barriers around the grid. Although much of the evidence gathered is circumstantial, it does point to the key issues that must be addressed in future work.

  13. SUNRAYCE 95: Working safely with lead-acid batteries and photovoltaic power systems

    DePhillips, M.P.; Moskowitz, P.D.; Fthenakis, V.M. [Brookhaven National Lab., Upton, NY (United States). Biomedical and Environmental Assessment Group


    This document is a power system and battery safety handbook for participants in the SUNRAYCE 95 solar powered electric vehicle program. The topics of the handbook include batteries, photovoltaic modules, safety equipment needed for working with sulfuric acid electrolyte and batteries, battery transport, accident response, battery recharging and ventilation, electrical risks on-board vehicle, external electrical risks, electrical risk management strategies, and general maintenance including troubleshooting, hydrometer check and voltmeter check.

  14. Obtaining of barium sulfate from solution formed after desulfation of the active mass of scrap lead-acid batteries

    O. A. Kalko


    Full Text Available Analyses of literature data about processes for solution utilization formed after desulfation of the active mass of scrap lead-acid batteries is performed. Optimal conditions for obtaining of barium sulfate sediment from ammonium sulfate solute and chemically pure Ba(OH2×8H2O и BaCl2×2H2O were found experimentally. In laboratory the commercial barium sulfate from sulfate solutions, that are waste of recycling process of battery scrap, with application of chloride and barium hydroxide was production. The possibility of using this product were discussed.

  15. Preparing ultrafine PbS powders from the scrap lead-acid battery by sulfurization and inert gas condensation

    Xia, Huipeng; Zhan, Lu; Xie, Bing


    A novel method for preparing ultrafine PbS powders involving sulfurization combined with inert gas condensation is developed in this paper, which is applicable to recycle Pb from lead paste of spent lead-acid batteries. Initially, the effects of the evaporation and condensation temperature, the inert gas pressure, the condensation distance and substrate on the morphology of as-obtained PbS ultrafine particles are intensively investigated using sulfur powders and lead particles as reagents. Highly dispersed and homogeneous PbS nanoparticles can be prepared under the optimized conditions which are 1223 K heating temperature, 573 K condensation temperature, 100 Pa inert gas pressure and 60 cm condensation distance. Furthermore, this method is successfully applied to recycle Pb from the lead paste of spent lead acid battery to prepare PbS ultrafine powders. This work does not only provide the theoretical fundamental for PbS preparation, but also provides a novel and efficient method for recycling spent lead-acid battery with high added-value products.

  16. System dynamic model and charging control of lead-acid battery for stand-alone solar PV system

    Huang, B.J.


    The lead-acid battery which is widely used in stand-alone solar system is easily damaged by a poor charging control which causes overcharging. The battery charging control is thus usually designed to stop charging after the overcharge point. This will reduce the storage energy capacity and reduce the service time in electricity supply. The design of charging control system however requires a good understanding of the system dynamic behaviour of the battery first. In the present study, a first-order system dynamics model of lead-acid battery at different operating points near the overcharge voltage was derived experimentally, from which a charging control system based on PI algorithm was developed using PWM charging technique. The feedback control system for battery charging after the overcharge point (14 V) was designed to compromise between the set-point response and the disturbance rejection. The experimental results show that the control system can suppress the battery voltage overshoot within 0.1 V when the solar irradiation is suddenly changed from 337 to 843 W/m2. A long-term outdoor test for a solar LED lighting system shows that the battery voltage never exceeded 14.1 V for the set point 14 V and the control system can prevent the battery from overcharging. The test result also indicates that the control system is able to increase the charged energy by 78%, as compared to the case that the charging stops after the overcharge point (14 V). © 2010 Elsevier Ltd. All rights reserved.

  17. Maintenance-free lead acid battery for inertial navigation systems aircraft

    Johnson, William R.; Vutetakis, David G.


    Historically, Aircraft Inertial Navigation System (INS) Batteries have utilized vented nickel-cadmium batteries for emergency DC power. The United States Navy and Air Force developed separate systems during their respective INS developments. The Navy contracted with Litton Industries to produce the LTN-72 and Air Force contracted with Delco to produce the Carousel IV INS for the large cargo and specialty aircraft applications. Over the years, a total of eight different battery national stock numbers (NSNs) have entered the stock system along with 75 battery spare part NSNs. The Standard Hardware Acquisition and Reliability Program is working with the Aircraft Battery Group at Naval Surface Warfare Center Crane Division, Naval Air Systems Command (AIR 536), Wright Laboratory, Battelle Memorial Institute, and Concorde Battery Corporation to produce a standard INS battery. This paper discusses the approach taken to determine whether the battery should be replaced and to select the replacement chemistry. The paper also discusses the battery requirements, aircraft that the battery is compatible with, and status of Navy flight evaluation. Projected savings in avoided maintenance in Navy and Air Force INS Systems is projected to be $14.7 million per year with a manpower reduction of 153 maintenance personnel. The new INS battery is compatible with commercially sold INS systems which represents 66 percent of the systems sold.

  18. Research, development, and demonstration of lead-acid batteries for electric vehicle propulsion. Annual report for 1980


    Work performed during Oct. 1, 1979 to Sept. 30, 1980 for the development of lead-acid batteries for electric vehicle propulsion is described. During this report period many of the results frpm Globe Battery's design, materials and process development programs became evident in the achievement of the ISOA (Improved State of Art) specific energy, specific power, and energy efficiency goals while testing in progress also indicates that the cycle life goal can be met. These programs led to the establishment of a working pilot assembly line which produced the first twelve volt ISOA modules. Five of these modules were delivered to the National Battery Test Laboratory during the year for capacity, power and life testing, and assembly is in progress of three full battery systems for installation in vehicles. In the battery subsystem area, design of the acid circulation system for a ninety-six volt ISOA battery pack was completed and assembly of the first such system was initiated. Charger development has been slowed by problems encountered with reliability of some circuits but a prototype unit is being prepared which will meet the charging requirements of our ninety-six volt pack. This charger will be available during the 1981 fiscal year.

  19. Research, development, and demonstration of lead-acid batteries for electric-vehicle propulsion. Annual report, 1980


    The first development effort in improving lead-acid batteries fore electric vehicles was the improvement of electric vehicle batteries using flat pasted positive plates and the second was for a tubular long life positive plate. The investigation of 32 component variables based on a flat pasted positive plate configuration is described. The experiment tested 96 - six volt batteries for characterization at 0, 25, and 40/sup 0/C and for cycle life capability at the 3 hour discharge rate with a one cycle, to 80% DOD, per day regime. Four positive paste formulations were selected. Two commercially available microporous separators were used in conjunction with a layer of 0.076 mm thick glass mat. Two concentrations of battery grade sulfuric acid were included in the test to determine if an increase in concentration would improve the battery capacity sufficient to offset the added weight of the more concentrated solution. Two construction variations, 23 plate elements with outside negative plates and 23 plate elements with outside positive plates, were included. The second development effort was an experiment designed to study the relationship of 32 component variables based on a tubular positive plate configuration. 96-six volt batteries were tested at various discharge rates at 0, 25, and 40/sup 0/C along with cycle life testing at 80% DOD of the 3 hour rate. 75 batteries remain on cycle life testing with 17 batteries having in excess of 365 life cycles. Preliminary conclusions indicate: the tubular positive plate is far more capable of withstanding deep cycles than is the flat pasted plate; as presently designed 40 Whr/kg can not be achieved, since 37.7 Whr/kg was the best tubular data obtained; electrolyte circulation is impaired due to the tight element fit in the container; and a redesign is required to reduce the battery weight which will improve the Whr/kg value. This redesign is complete and new molds have been ordered.

  20. Research, development, and demonstration of lead-acid batteries for electric vehicle propulsion. Annual report, 1980


    The progress and status of Eltra's Electric Vehicle Battery Program during FY-80 are presented under five divisional headings: Research on Components and Processes; Development of Cells and Modules for Electric Vehicle Propulsion; Sub-Systems; Pilot Line Production of Electric Vehicle Battery Prototypes; and Program Management.

  1. Development of lead/acid batteries for domestic remote-area power supplies

    Rand, D. A. J.; Baldsing, W. G. A.

    In recent times, there has been a growing recognition of the need for more reliable RAPS systems, both in Australia and in other parts of the world. From the battery point of view, development has, in some instances, been encouraged by a "market push", and in others by a "technology pull". Some manufacturers are seeking to supply customers with batteries that are merely re-labelled motive-power types, others are offering new technologies. In either case, the suitability of the products is unclear because of the poor comprehension of the actual service requirements imposed on batteries in RAPS operations. In order to overcome this deficiency, CSIRO has set in motion a detailed schedule of laboratory and field studies aimed at gaining a greater understanding of battery performance under RAPS duties. It is hoped that the resulting information will lead to specific design criteria for such batteries.

  2. Research, development, and demonstration of lead-acid batteries for electric vehicle propulsion. Annual report, 1979


    The initial phase of work comprises three factorial experiments to evaluate a variety of component combinations. Goals to be met by these batteries include the following: capacity at 3 h discharge, 20 to 30 kWh; specific energy, 40 Wh/kg; specific power, 1000 W/kg for 15 s; cycle life, 800 cycles to 80% depth; price, $50/kWh. The status of the factorial experiments is reviewed. The second phase of work, design of an advanced battery, has the following goals: 30 to 40 kWh; 60 Wh/kg; 150 W/kg for 15 s; 1000 cycles to 80% depth; $40/kWh. It is not yet possible to say whether these goals can be met. Numerous approaches are under study to increase the utilization of battery chemicals. A battery design with no live electrical connection above the battery is being developed. 52 figures, 52 tables. (RWR)

  3. Renewable rural electrification: Prediction of sustainability in South Africa. Case study: Wind and solar photo-voltaic with lead acid battery storage

    Rogers, DEC


    Full Text Available A case study methodology and assessment of renewable energy technology and sustainable development is applied to a DME rural village project. Wind, solar and lead acid battery energy storage technologies were used for off-grid electrification...

  4. Determination of regression functions for the charging and discharging processes of valve regulated lead-acid batteries

    Vukić Vladimir Đ.


    Full Text Available Following a deep discharge of AGM SVT 300 valve-regulated lead-acid batteries using the ten-hour discharge current, the batteries were charged using variable current. In accordance with the obtained results, exponential and polynomial functions for the approximation of the specified processes were analyzed. The main evaluation instrument for the quality of the implemented approximations was the adjusted coefficient of determination R-2. It was perceived that the battery discharge process might be successfully approximated with both an exponential and the second order polynomial function. On all the occasions analyzed, values of the adjusted coefficient of determination were greater than 0.995. The charging process of the deeply discharged batteries was successfully approximated with the exponential function; the measured values of the adjusted coefficient of determination being nearly 0.95. Apart from the high measured values of the adjusted coefficient of determination, polynomial approximations of the second and third order did not provide satisfactory results regarding the interpolation of the battery charging characteristics. A possibility for a practical implementation of the procured regression functions in uninterruptible power supply systems was described.

  5. Stannous sulfate as an electrolyte additive for lead acid battery made from a novel ultrafine leady oxide

    Wang, Qin; Liu, Jianwen; Yang, Danni; Yuan, Xiqing; Li, Lei; Zhu, Xinfeng; Zhang, Wei; Hu, Yucheng; Sun, Xiaojuan; Liang, Sha; Hu, Jingping; Kumar, R. Vasant; Yang, Jiakuan


    The effects of SnSO4 as an electrolyte additive on the microstructure of positive plate and electrochemical performance of lead acid battery made from a novel leady oxide are investigated. The novel leady oxide is synthesized through leaching of spent lead paste in citric acid solution. The novel leady oxides are used to prepare working electrode (WE) subjected to electrochemical cyclic voltammetry (CV) tests. Moreover, the novel leady oxides are used as active materials of positive plate assembled as a testing battery of 1.85 A h capacity. In CV tests, SEM/EDX results show that the major crystalline phase of the paste in WE after CV cycles is PbSO4. The larger column-shaped PbSO4 crystals easily generate in the paste of WE without an electrolyte additive of SnSO4. However, PbSO4 crystals significantly become smaller with the addition of SnSO4 in the electrolyte. In batteries testing, SEM results show that an electrolyte additive of SnSO4 could effectively decrease PbO2 particle size in the positive active materials of the teardown battery at the end of charging procedure. It is indicated that an electrolyte additive of SnSO4 could have a positive influence on restraining larger particles of irreversible sulfation in charge/discharge cycles of battery testing.

  6. fractionation of lead-acid battery soil amended with biochar 36


    Biochar has a high surface area, highly porous, variable – charge organic material that has the potential to ... Keywords: Biochar, Lead–acid Battery, Fractionation and Heavy metals. ... the various cations was reported as action exchange.

  7. Charging operation with high energy efficiency for electric vehicle valve-regulated lead-acid battery system

    Ikeya, Tomohiko; Mita, Yuichi; Ishihara, Kaoru [Central Research Inst. of Electric Power Industry (CRIEPI), Komae Res. Lab., Lithium Battery Project, Tokyo (Japan); Sawada, Nobuyuki [Hokkaido Electric Power Co., Sapporo (Japan); Takagi, Sakae; Murakami, Jun-ichi [Tohoku Electric Power Co. Inc., Sendai (Japan); Kobayashi, Kazuyuki [Tokyo Electric Power Co., Yokohama (Japan); Sakabe, Tetsuya [Chubu Electric Power Co., Nagoya (Japan); Kousaka, Eiichi [Hokuriku Electric Power Co., Toyama (Japan); Yoshioka, Haruki [The Kansai Electric Power Co., Osaka (Japan); Kato, Satoru [The Chugoku Electric Power Co., Hiroshima (Japan); Yamashita, Masanori [Shikoku Research Inst. Inc., Takamatsu (Japan); Narisoko, Hayato [The Okinawa Electric Power Co., Naha (Japan); Nishiyama, Kazuo [The Central Electric Power Council, Tokyo (Japan); Adachi, Kazuyuki [Kyushu Electric Power Co., Fukuoka (Japan)


    A new, high-energy-efficiency charging operation with as little amount of overcharge as possible is proposed to improve the energy efficiency and the cycle life for an EV valve-regulated lead-acid battery. Under this operation, the EV battery system is charged with 105% of amount of the preceding discharge five out of six times and once with 115% in order that it is fully charged. The cycle lives were estimated using a valve-regulated lead-acid battery system of 12 modules connected in series, by SFUDS79 pattern discharging and measurement of the amount of discharge every 50 cycles. Three-step constant current charging with 115% of amount of the preceding discharge required more than 5 h with the final charging step of more than 210 min, with coulomb efficiency of only 87% and energy efficiency of 74%. On the other hand, under the high-energy-efficiency charging operation, three-step charging with 105% shortens the final charging time to 132 min. It was completed in less than 4 h with coulomb and energy efficiency of 95% and 84%, respectively. This operation increased the energy efficiency from 74% to 83% on average in six charging, and extended the cycle life by about 30% to more than 400 cycles. Decreasing the amount of charge by as much as possible suppressed the corrosion of the grids in the positive plate and the heat evolution in batteries due to shortening of the final charging step. Although the high-energy-efficiency charging operation led to the accumulation of inactive PbSO{sub 4} at the upper part of the negative plate, possibly due to the decreasing amount of overcharge, this operation could prolong the cycle life. Full charging once every six times is though to be effective in suppressing degradation caused by the accumulation of inactive PbSO{sub 4} in the negative plate due to the shortage of charge. (orig.)

  8. Frequency and Temperature Characteristics of an Ultrasonic Method for Measuring the Specific Gravity of Lead-Acid Battery Electrolyte

    Liu, Jiaxin; Li, Guofeng


    In this paper, we present an ultrasonic method for measuring the specific gravity of lead-acid battery electrolyte and study its frequency and temperature characteristics. This method uses an improved frequency scanning ultrasonic pulse echo reflectometer with a two-transducer configuration. The velocity and attenuation coefficient (1 to 30 MHz) of electrolytes with different specific gravities (1.05 to 1.30) are obtained at 25 °C. It has been shown that the ultrasonic velocity changes little with frequency, and there is low attenuation at approximately 5 MHz. The velocities of several electrolytes with different specific gravities are measured in the temperature range from 10 to 50 °C. The thermal transient of the measurement cell is analyzed, showing 0.1% accuracy in specific gravity measurement for a steady temperature and 0.5% accuracy under thermal gradient conditions after temperature compensation. This method is suitable for the on-line, rapid, and accurate measurement of the specific gravity of a lead-acid battery electrolyte.

  9. Distribution and integrated assessment of lead in an abandoned lead-acid battery site in Southwest China before redevelopment.

    Wang, Mei; Zhang, Chao; Zhang, Zhuo; Li, Fasheng; Guo, Guanlin


    Lead-acid battery sites have contributed enormous amounts of lead to the environment, significantly affecting its global biogeochemical cycle and leaving the potential risks to human health. An abandoned lead-acid battery site prepared for redevelopment was selected in order to study the distribution of lead in soils, plants, rhizosphere soils and soil solutions. In total, 197 samples from 77 boreholes were collected and analyzed. Single extractions by acetic acid (HOAc) were conducted to assess the bioavailability and speciation of lead in soils for comparison with the parts of the plants that are aboveground. Health risks for future residential development were evaluated by the integrated exposure uptake biokinetic (IEUBK) model. The results indicated that lead concentrations in 83% of the soil samples exceeded the Chinese Environmental Quality Standard for soil (350 mg/kg for Pb) and mainly occurred at depths between 0 and 1.5 m while accumulating at the surface of demolished construction waste and miscellaneous fill. Lead concentrations in soil solutions and HOAc extraction leachates were linked closely to the contents of aboveground Broussonetia papyrifera and Artemisia annua, two main types of local plants that were found at the site. The probability density of lead in blood (PbB) in excess of 10 µg/dL could overtake the 99% mark in the residential scenario. The findings provided a relatively integrated method to illustrate the onsite investigations and assessment for similar sites before remediation and future development from more comprehensive aspects.

  10. A study on lead toxicity among the workers in an unorganized sector of lead-acid battery industry

    Partha Sarathy Naidana


    Full Text Available Aims of the study: (1-To study various manifestations of lead toxicity at different levels of exposure among the Lead-Acid battery workers and (2-To study various factors contributing to the toxicity of lead among the workers. Results: High amounts of lead were detected in the blood samples of the workers. The commonest lead related symptoms observed among the workers were malaise (32.1%, fatigue (25.9%, arthralgia (20.9%, abdominal colic (16% and headache (13.6%. Smoking found to be an important contributory factor in the lead related manifestations. An inverse association of practice of hygiene with mean blood lead value was observed among heavily exposed workers. A statistically significant difference was observed between heavily exposed and moderately exposed to lead regarding presence of pallor, malaise symptom, presence of one or more lead related symptoms, blood lead levels, haemoglobin values, etc. Conclusion: A majority of Lead-Acid battery workers (64.19% were highly exposed to lead by their nature of work. The prevalence of toxicity was more among the heavily exposed than the moderately exposed. Minimizing the exposure during the work is very important factor to protect the health of the workers.

  11. Effect of hydrogen and oxygen on stability of expanders and performance of lead/acid batteries

    Pavlov, D.; Gancheva, S.; Andreev, P.


    Expanders are organic additives to the negative active mass that increase plate capacity, especially at low temperatures. They operate under constant hydrogen and oxygen attack at strongly negative potentials as a result of which they undergo degradation. This leads to changes in plate capacity, which may limit the life of the battery. The influence of Velex, Mimosa, Quebraco, Syntan NK (SNK), and EZE-Skitan on the electrochemical characteristics and the life of negative battery plates has been investigated. It is established that structural groups of the pyrocatechin type have effective expander action.

  12. Effect of plate preparation on active-material utilization and cycleability of positive plates in automotive lead/acid batteries

    Ozgun, H.; Lam, L. T.; Rand, D. A. J.; Bhargava, S. K.

    The power demands from automotive lead/acid batteries are rising steadily with the increasing number of electronic accessories that are being fitted to modern vehicles. In order to meet new levels of performance, automotive batteries have been redesigned to use low-ohmic microporous separators, as well as thinner plates (to increase the number of plates per cell) that are made with a low paste density. This approach, however, has led to a separate problem, namely, an appreciable reduction in battery service life. To redress this situation, a research programme has been implemented in our laboratories to examine, in detail, the effect of plate preparation on the active-material utilization and cycleability of automotive positive plates with grids made from low-antimony alloy. The cycleability is evaluated in terms of repetitive reserve-capacity. The results suggest that a paste formula with a combination of high density and low acid-to-oxide ratio is the most appropriate technology for the production of the thin positive plates that are required in advanced designs of automotive batteries.

  13. Model prediction for ranking lead-acid batteries according to expected lifetime in renewable energy systems and autonomous power-supply systems

    Schiffer, J.; Sauer, D.U.; Bindner, Henrik W.


    system sizing and different battery technologies on battery lifetime. It is a tool for system designers and system operators to select appropriate batteries, to do a proper system design (sizing of the battery, power generators and loads), and to implement an optimized operation strategy (end......Predicting the lifetime of lead-acid batteries in applications with irregular operating conditions such as partial state-of-charge cycling, varying depth-of-discharge and different times between full charging is known as a difficult task. Experimental investigations in the laboratory are difficult...... into account are based on a detailed analysis and understanding of ageing processes in lead-acid batteries. The ' normal ' user can adapt the model to different battery types simply from the data sheet information on cycle lifetime and float lifetime. (C) 2006 Elsevier B.V. All rights reserved....

  14. Influence of residual elements in lead on oxygen- and hydrogen-gassing rates of lead-acid batteries

    Lam, L. T.; Ceylan, H.; Haigh, N. P.; Lwin, T.; Rand, D. A. J.

    Raw lead materials contain many residual elements. With respect to setting 'safe' levels for these elements, each country has its own standard, but the majority of the present specifications for the lead used to prepare battery oxide apply to flooded batteries that employ antimonial grids. In these batteries, the antimony in the positive and negative grids dominates gassing characteristics so that the influence of residual elements is of little importance. This is, however, not the case for valve-regulated lead-acid (VRLA) batteries, which use antimony-free grids and less sulfuric acid solution. Thus, it is necessary to specify 'acceptable' levels of residual elements for the production of VRLA batteries. In this study, 17 elements are examined, namely: antimony, arsenic, bismuth, cadmium, chromium, cobalt, copper, germanium, iron, manganese, nickel, selenium, silver, tellurium, thallium, tin, and zinc. The following strategy has been formulated to determine the acceptable levels: (i) selection of a control oxide; (ii) determination of critical float, hydrogen and oxygen currents; (iii) establishment of a screening plan for the elements; (iv) development of a statistical method for analysis of the experimental results. The critical values of the float, hydrogen and oxygen currents are calculated from a field survey of battery failure data. The values serve as a base-line for comparison with the corresponding measured currents from cells using positive and negative plates produced either from the control oxide or from oxide doped with different levels of the 17 elements in combination. The latter levels are determined by means of a screening plan which is based on the Plackett-Burman experimental design. Following this systematic and thorough exercise, two specifications are proposed for the purity of the lead to be used in oxide production for VRLA technology.

  15. Study of transport of oxygen and water vapour between cells in valve regulated lead-acid batteries

    Culpin, Barry; Peters, Ken

    Valve-regulated lead-acid batteries are maintenance free, safer, office compatible, and have higher volume efficiency than conventional designs. They are universally used in telecommunications and uninterruptible power supply systems. With the electrolyte immobilized in the separator or as a gel, it is feasible for a monobloc battery to have cells that are not fully sealed from one another, that is to have a common gas space, with certain attendant benefits. This study demonstrates that small differences in the saturation level, acid strength or operating temperature of the cells in such designs can initiate a cycle that may subsequently result in failure if the movement of oxygen and water vapour between cells is unrestricted. Cells that are initially out-of-balance will go further out-of-balance at an ever-increasing rate. This situation can also arise in monobloc designs with sealed cells if the intercell seal is inadequate or incomplete. Battery failure is associated with a re-distribution of water between the cells with some drying out and having high impedance. The preferential oxygen absorption in those cells produces heavily sulfated negative plates. Results on batteries tested under a range of overcharge conditions and temperatures are presented to illustrate these effects. The rate at which the cycle occurs depends on the initial relative density of the acid, the temperature or saturation imbalance between the cells, and the size of the interconnecting gas space. Batteries operating under a continuous cycling regime, particularly those with high overcharge currents and voltages that generate large volumes of oxygen, are more prone to this type of failure mode than batteries operating under low overcharge, intermittent cycling, or float conditions.

  16. Electric and hybrid vehicles charge efficiency tests of ESB EV-106 lead acid batteries

    Rowlette, J. J.


    Charge efficiencies were determined by measurements made under widely differing conditions of temperature, charge procedure, and battery age. The measurements were used to optimize charge procedures and to evaluate the concept of a modified, coulometric state of charge indicator. Charge efficiency determinations were made by measuring gassing rates and oxygen fractions. A novel, positive displacement gas flow meter which proved to be both simple and highly accurate is described and illustrated.

  17. Effect of hydrogen and oxygen on stability of expanders and performance of lead/acid batteries

    Pavlov, D. (Bulgarian Academy of Sciences, Sofia (Bulgaria). Central Lab. of Electrochemical Power Sources); Gancheva, S. (Bulgarian Academy of Sciences, Sofia (Bulgaria). Central Lab. of Electrochemical Power Sources); Andreev, P. (Bulgarian Academy of Sciences, Sofia (Bulgaria). Central Lab. of Electrochemical Power Sources)


    Expanders are organic additives to the negative active mass that increase plate capacity, especially at low temperatures. They operate under constant hydrogen and oxygen attack at strongly negative potentials as a result of which they undergo degradation. This leads to changes in plate capacity, which may limit the life of the battery. The aims of the present work are: (i) to suggest a method for determining the effect of hydrogen, oxygen and the potential on the stability of expanders; (ii) to identify some of the structural groups in organic compounds that exert an efficient expander action. The influence of Velex, Mimosa, Quebraco, Syntan NK (SNK) and EZE-Skitan on the electrochemical characteristics and the life of negative battery plates has been investigated. It is established that structural groups of the pyrocatechin type (Quebraco and EZE-Skitan) have effective expander action. Quebraco increases the plate capacity during the first cycles. EZE-Skitan increases the capacity of the plates after 50 to 60 charge/discharge cycles, when disintegration of its structure, probably to pyrocatechin groups, proceeds. By applying a new method for determining the expander stability, it is found that expanders containing pyrocatechin structural groups are more easily oxidized than hydrogenated. It is concluded that the most effective expander should be a combination of several compounds with different stabilities to oxidation and reduction. Appropriate expanders should be selected for each type of battery. (orig.)

  18. The addition of red lead to flat plate and tubular valve regulated miners cap lamp lead-acid batteries

    Ferg, E.E.; Loyson, P. [Department of Chemistry, Nelson Mandela Metropolitan University, P.O. Box 77000, Port Elizabeth 6031 (South Africa); Poorun, A. [Willard Batteries, P.O. Box 1844, Port Elizabeth 6000 (South Africa)


    The study looked at the use of red lead in the manufacturing of valve regulated lead acid (VRLA) miners cap lamp (MCL) batteries that were made with either flat plate or tubular positive electrodes. A problem with using only grey oxide in the manufacture of thick flat plate or tubular electrodes is the poor conversion of the active material to the desired lead dioxide. The addition of red lead to the initial starting material improves the formation efficiency but is considerably more expensive thereby increasing the cost of manufacturing. The study showed that by carefully controlling the formation conditions in terms of the voltage and temperature of a battery, good capacity performance can be achieved for cells made with flat plate electrodes that contain up to 25% red lead. The small amount of red lead in the active cured material reduces the effect of electrode surface sulphate formation and allows the battery to achieve its rated capacity within the first few cycles. Batteries made with flat plate positive electrodes that contained more that 50% red lead showed good initial capacity but had poor structural active material bonding. The study showed that MCL batteries made with tubular positive electrodes that contained less than 75% red lead resulted in a poorly formed electrode with limited capacity utilization. Pickling and soaking times of the tubular electrodes should be kept at a minimum thereby allowing higher active material utilization during subsequent capacity cycling. The study further showed that it is beneficial to use higher formation rates in order to reduce manufacturing time and to improve the active material characteristics. (author)

  19. Amplification of electrolyte uptake in the absorptive glass mat (AGM) separator for valve regulated lead acid (VRLA) batteries

    Kumar, Vijay; Kameswara Rao, P. V.; Rawal, Amit


    Absorptive glass mat (AGM) separators are widely used for valve regulated lead acid (VRLA) batteries due to their remarkable fiber and structural characteristics. Discharge performance and recharge effectiveness of VRLA batteries essentially rely on the distribution and saturation levels of the electrolyte within the AGM separator. Herein, we report an analytical model for predicting the wicking characteristics of AGM battery separators under unconfined and confined states. The model of wicking behavior of AGM is based upon Fries and Dreyer's approach that included the effect of gravity component which was neglected in classic Lucas-Washburn's model. In addition, the predictive model of wicking accounted for realistic structural characteristics of AGM via orientation averaging approach. For wicking under confined state, the structural parameters have been updated under defined level of compressive stresses based upon the constitutive equation derived for a planar network of fibers in AGM under transverse loading conditions. A comparison has been made between the theoretical models and experimental results of wicking behavior under unconfined and confined states. Most importantly, the presented work has highlighted the questionable validity of classic Lucas-Washburn model for predicting the wicking characteristics of AGM separator over longer time duration.

  20. Development and application of an improved equivalent circuit model of a lead acid battery

    Valvo, M.; Wicks, F.E.; Robertson, D.; Rudin, S. [Union Coll., Schenectady, NY (United States)


    Over the past several years, there has been increasing pressure put on automobile manufacturers to limit their vehicle`s emissions. In fact, California has passed a measure requiring an increasing fraction of new vehicles to have zero emissions starting 1997. Many other states have been following their example. The only known way to have no emissions is with an electric powered vehicle. Much research has been spent in determining the behavior of an electric powered vehicle`s battery when subjected to normal conditions.

  1. The importance of observation of structural changes of lead acid battery active mass in special applications in the mining industry

    Jana Zimáková


    Full Text Available To be able to use lead acid batteries in particularly difficult conditions in the mining industry, it is very important to understand the events that occur during traction operation of mining carts, or auxiliary lighting. Failure of lead accumulators in the hazardous environments, where it is desired non-explosive embodiment, may have fatal consequences. The paper describes the possibility of observing changes in active materials at the microscopic level. The process of charging and discharging lead-acid accumulator has been described in many publications. The aim of this article is to supplement known information about a series of images and analysis that will accurately show progressive changes in the structure of the negative electrode. Negative electrodes are, at each cycle, charged and discharged under the same conditions, scanned with a scanning electron microscope, the elemental analysis (EDS is performed, and the size of the individual sulfate crystals is measured. Previously measured results indicate that during the charging the conversion of PbSO4 crystals into a charged form of the active mass is not complete, and there is a rapid increase in the size of lead sulfate crystals on the negative electrode. This article compares changes in electrode surface composition after two cycles. There is a clear loss of lead and, on the other hand, the visible growth of sulfur. This indicates progressive surface sulfation.

  2. The relationship between blood lead levels and morbidities among workers employed in a factory manufacturing lead-acid storage battery.

    Kalahasthi, Ravi Babu; Barman, Tapu; Rajmohan, H R


    The present study was carried out to find the relationship between blood lead levels (BLLs) and morbidities among 391 male workers employed in a factory manufacturing lead-acid storage batteries. A predesigned questionnaire was used to collect information on subjective health complaints and clinical observation made during a clinical examination. In addition to monitoring of BLL, other laboratory parameters investigated included hematological and urine-δ-aminolevulinic acid levels. Logistic regression method was used to evaluate the relationship between BLL and morbidities. The BLL among workers was associated with an odd ratio of respiratory, gastrointestinal (GI), and musculoskeletal (MSD) morbidities. Mean corpuscular hemoglobin and packed cell volume variables were associated with respiratory problems. The variables of alcohol consumption and hematological parameters were associated with GI complaints. Systolic blood pressure was related to MSD in workers exposed to Pb during the manufacturing process.

  3. Influences and trends in lead/acid battery demand, lead supply and prices

    Hawkes, N.

    This study examines: (i) the historical trends and influences in Western World lead demand, paying particular attention to the battery sector; (ii) the historical trends in Western World lead production in both the primary and secondary sectors, highlighting key influences; (iii) the long-term relationship between consumption and both primary and secondary lead production, and (iv) the lead price and stock history, before summarizing the current situation in the lead market. Finally suggestions are given for a few points to watch for in the future. Most of the paper refers separately to 'Western World' and 'Eastern Bloc' countries. The definition of Western World includes all countries except the following: PR China, all CIS republics (the former USSR), Mongolia, North Korea, Cuba, Cambodia, Laos, Vietnam, and the Eastern European countries of Poland, Bulgaria, Romania, Czech and Slovak Republics, Hungary and Albania. These countries are collectively referred to as 'Eastern Bloc'.

  4. Electrochemical Investigation of Carbon as Additive to the Negative Electrode of Lead-Acid Battery

    Fernandez Matthew M.


    Full Text Available The increasing demand of cycle life performance of Pb-acid batteries requires the improvement of the negative Pb electrode’s charge capacity. Electrochemical investigations were performed on Pb electrode and Pb+Carbon (Carbon black and Graphite electrodes to evaluate the ability of the additives to enhance the electrochemical faradaic reactions that occur during the cycle of Pb-acid battery negative electrode. The electrodes were characterized through Cyclic Voltammetry (CV, Potentiodynamic Polarization (PP, and Electrochemical Impedance Spectroscopy (EIS. CV revealed that the addition of carbon on the Pb electrode increased anodic and cathodicreactions by tenfold. The kinetics of PbSO4 passivation measured through PPrevealed that the addition of Carbon on the Pb electrode accelerated the oxide formation by tenfold magnitude. The Nyquist plot measured through EIS suggest that the electrochemical mechanism and reaction kinetics is under charge-transfer. From the equivalent circuit and physical model, Pb+CB1 electrode has the lowest EIS parameters while Pb+G has the highest which is attributed to faster faradaic reaction.The Nyquist plot of the passivated Pb+CB1 electrode showed double semicircular shape. The first layer represents to the bulk passive PbSO4 layer and the second layer represents the Carbon+PbSO4 layer. The enhancements upon addition of carbon on the Pb electrode were attributed to the additive’s electrical conductivity and total surface area. The electrochemical active sites for the PbSO4 to nucleate and spread increases upon addition of electrical conductive and high surface area carbon additives.

  5. Behaviour and reliability of lead-acid batteries in stand-alone photovoltaic systems; Comportamiento y durabilidad de baterias de plomo-acido en sistemas fotovoltaicos autonomos

    Vela Barrionuevo, N.


    Vented stationary lead-acid batteries are currently the most commonly used type of accumulator in stand-alone PV systems. The state-of the art of the technology suggests that lead-acid batteries will maintain a predominant position in the PV market for the next years. Additionally to the specific operating requirements of batteries in PV systems, there are other questions not completely solved related to battery characterisation and testing methods for this type of application. The objective of this work is to contribute to the operational optimisation and reliability improvement of lead-acid batteries operating in stand-alone PV systems. This objective has been approached by means of eminently experimental works. These works are focused firstly on functional characterisation of batteries, with special emphasis on capacity and characteristic voltages study and secondly on degradation analysis of these batteries taking into account the specific working conditions of stand-alone PV systems which main characteristic is its wide variability of operational conditions (current rates, temperature and state of charge). In relation with battery characterisation, a procedure for the determination of the usable capacity of lead-acid batteries has been established and applied to a set of commercial batteries at different current rate and temperature conditions. From each battery experimental data and using a model equation describing the battery capacity as function of current rate and temperature, the corresponding parameters for each battery have been obtained. A comparative analysis of the model application to experimental data and data supplied by the manufacturer is included. Also, initial gassing voltage and end-of-charge voltage values have been measured at different current rate and temperature conditions for the whole set of batteries. Experimental values of voltage from each battery have been fitted with high degree of accuracy to simple mathematical expressions for

  6. Recent improvements in PbO2 nanowire electrodes for lead-acid battery

    Moncada, Alessandra; Piazza, Salvatore; Sunseri, Carmelo; Inguanta, Rosalinda


    Lead oxide nanowires are an attractive alternative to conventional pasted electrodes, owing to their high surface area leading to high specific energy batteries. Here, we report the performance of template electrodeposited PbO2 nanowires used as positive electrodes. Nanostructured electrodes were tested at constant charge/discharge rate from 2 C to 10 C, with a cut-off potential of 1.2 V and discharge depth up to 90% of the gravimetric charge. These new type of electrodes are able to work at very high C-rate without fading, reaching an efficiency of about 90% with a very good cycling stability. In particular, after an initial stabilization, a specific capacity of about 200 mAh g-1, very close to the theoretical one of 224 mAh g-1, was drained for more than 1000 cycles at a C-rate higher than 1 C with an efficiency close to 90%. This behaviour significantly distinguishes PbO2 nanostructured electrodes from the conventional ones with pasted active material. In addition, discharge at a quasi-constant voltage of about 2.1 V, without reaching the cut-off potential also at high C-rate, occurs. This implies a quasi-constant energy supply during fast discharge. According to these findings, innovative applications as hybrid or electrical mobility or buffer in renewable energy plants can be envisaged.

  7. Application of valve-regulated lead-acid batteries for storage of solar electricity in stand-alone photovoltaic systems in the northwest areas of China

    Hua, Shounan; Zhou, Qingshen; Kong, Delong; Ma, Jianping

    Photovoltaic (PV) installations for solar electric power generation are being established rapidly in the northwest areas of China, and it is increasingly important for these power systems to have reliable and cost effective energy storage. The lead-acid battery is the more commonly used storage technology for PV systems due to its low cost and its wide availability. However, analysis shows that it is the weakest component of PV power systems. Because the batteries can be over discharged, or operated under partial state of charge (PSOC), their service life in PV systems is shorter than could be expected. The working conditions of batteries in remote area installations are worse than those in situations where technical support is readily available. Capacity-loss in lead-acid batteries operated in remote locations often occurs through sulfation of electrodes and stratification of electrolyte. In northwest China, Shandong Sacred Sun Power Sources Industry Co. Ltd. type GFMU valve-regulated lead-acid (VRLA) batteries are being used in PV power stations. These batteries have an advanced grid structure, superior leady paste, and are manufactured using improved plate formation methods. Their characteristics, and their performance in PV systems, are discussed in this paper. The testing results of GFMU VRLA batteries in the laboratory have shown that the batteries could satisfy the demands of the International Electrotechnical Commission (IEC) standards for PV systems.

  8. A simple and robust fiber optics system for measuring the lead-acid battery state-of-charge

    Cortazar, O.D.; Feliu, V. [Escuela Tecnica Superior de Ingenieros Industriales, Universidad de Castilla-La Mancha - Campus Universitario de Ciudad Real, Ciudad Real 13071 (Spain)


    A simple, robust and low-cost fiber optics system for monitoring the state-of-charge (SOC) in a lead-acid battery is presented. The device is based on measuring light ray trajectory variations produced by the electrolyte media when its density changes. The changes in the electrolyte refraction index are produced due to changes in density, and the system measures such changes by means of an optical sensor coupled with a fiber optics bundle. SOC is indirectly measured on the base of such optical specific gravity measuring. A set of equations based on a paraxial ray model perform the optical sensor design, describing its behavior for different design parameters thereby allowing for the optimization of signal response. The system is applied to an SLI battery discharge-charge cycle obtaining excellent agreement with direct measuring of electrolyte density and estimation of SOC by integration of current. Simplicity, low cost, robustness and the unnecessary use of any signal processing are the main improvements with respect to previous works. (author)

  9. 双极性铅酸蓄电池的研究及进展概述%Updated research and progress of bipolar lead-acid battery

    石沫; 朱溢慧; 章小琴; 吴亮; 柯娃; 吴秋菊; 戴贵平


    Compared to conventional lead-acid batteries, bipolar lead-acid batteries have many advantages, such as lower ohmic resistance, higher speciifc capacity, higher speciifc power, and longer cycle life. In this paper, the development history and latest research progresses of bipolar lead-acid batteries are introduced, and the differences of structure characteristic and performance between bipolar lead-acid and common lead-acid battery have also been discussed.%双极性铅酸蓄电池与传统的铅酸电池相比,具有低欧姆电阻、高比容量、高比功率与长循环寿命等优点。本文概述了双极性铅酸电池的发展历史和研究现状,并简单介绍了双极性铅酸蓄电池的结构特点、与普通铅酸蓄电池性能的差异等。

  10. Energy balance of the closed oxygen cycle and processes causing thermal runaway in valve-regulated lead/acid batteries

    Pavlov, D.

    A model for the reactions involved in the closed oxygen cycle in valve-regulated lead/acid batteries and the associated energy transformations is proposed. When electric current flows through the closed oxygen cycle, a certain amount of electric energy is converted via electrochemical processes into chemical energy, i.e. the products obtained may interact spontaneously as a result of which the system returns to its initial state. During these spontaneous reactions, the chemical energy is converted into heat. Depending on the type of the reactions involved in oxygen reduction on the negative plate, the closed oxygen cycle may proceed in two different electrochemical systems: (i) oxygen is reduced through electrochemical reactions yielding the electrochemical system PbO 2//H 2OO/O 2///O 2//H 2OO/Pb, and (ii) oxygen is reduced through chemical reactions forming the electrochemical system PbO 2//H 2OO/O 2///PbSO 4//Pb. The energy introduced into the system for activation of the closed oxygen cycle is different for the two electrochemical systems. The quantity of this energy is calculated in the present work using thermodynamic data. During the closed oxygen cycle the electric energy is transformed into chemical energy which, in turn, is converted into heat. Part of this heat causes the cell temperature to increase and another part dissipates into the surrounding air. The amount of the former heat depends on the heat capacity of the battery and is influenced most strongly by the quantity of the electrolyte. It has been established that the rate of oxygen evolution on the positive plate depends strongly on the temperature. When the heat exchange between the battery and the surrounding medium is poor, the reactions of the closed oxygen cycle may enter (through the heat and oxygen flows between the positive and the negative plates) into self-accelerating interrelations, which may lead to thermal runaway. To avoid this, an adequate heat exchange should be maintained between

  11. Determination of the lead-acid battery's dynamic response using Butler-Volmer equation for advanced battery management systems in automotive applications

    Piłatowicz, Grzegorz; Budde-Meiwes, Heide; Kowal, Julia; Sarfert, Christel; Schoch, Eberhard; Königsmann, Martin; Sauer, Dirk Uwe


    Micro-hybrid vehicles (μH) are currently starting to dominate the European market and seize constantly growing share of other leading markets in the world. On the one hand, the additional functionality of μH reduces the CO2 emissions and improves the fuel economy, but, on the other hand, the additional stress imposed on the lead-acid battery reduces significantly its expected service life in comparison to conventional vehicles. Because of that μH require highly accurate battery state detection solutions. They are necessary to ensure the vehicle reliability requirements, prolong service life and reduce warranty costs. This paper presents an electrical model based on Butler-Volmer equation. The main novelty of the presented approach is its ability to predict accurately dynamic response of a battery considering a wide range of discharge current rates, state-of-charges and temperatures. Presented approach is fully implementable and adaptable in state-of-the-art low-cost platforms. Additionally, shown results indicate that it is applicable as a supporting tool for state-of-charge and state-of-health estimation and scalable for the different battery technologies and sizes. Validation using both static pulses and dynamic driving profile resulted in average absolute error of 124 mV regarding cranking current rate of 800 A respectively.

  12. The Effect of Oil and Filer Contents on the Porosity of Lead Acid Battery Separators Produced From Polyethylene

    Zyad Rafa'a Zair


    Full Text Available In this investigation a high density polyethylene (HDPE was used as a substitute to polyvinylchloride in the production of lead acid battery separators. This has been achieved by preparing mixtures of different percentages of the feed materials which include a high density polyethylene (HDPE locally produced, filler materials such as silica and oils such as dioctylphthalate (DOP or paraffin which were added to the mixture to improve the final properties of the separator. The materials were compounded by two roll-mills under the same conditions. The following parameters are involved: 1- Studying the use of a high density polyethylene as a binder to film components with (15-30 wt.%. 2- Studying the use of finely divided silica sand with (25-45 wt.% as a medium to oil adsorption.- Studying the use of two type plasticizers (Paraffin or DOP with (35-55 wt. %. as a creative medium to films porosity.The best results of the feed materials in the mixture were selected so as to give the highest porosity using 15 wt. % PE, 30 wt. % filler, and 55 wt. % oil. It has been found that the films with DOP oil give higher porosity.

  13. Study on the structure and property of lead tellurium alloy as the positive grid of lead-acid batteries

    Guo, W.X. [School of Chemistry and Environment, Key Lab of Technology on Electrochemical Energy Storage and Power Generation in Guangdong Universities, South China Normal University, Guangzhou, Guangdong 510006 (China); Shu, D. [School of Chemistry and Environment, Key Lab of Technology on Electrochemical Energy Storage and Power Generation in Guangdong Universities, South China Normal University, Guangzhou, Guangdong 510006 (China)], E-mail:; Chen, H.Y.; Li, A.J. [School of Chemistry and Environment, Key Lab of Technology on Electrochemical Energy Storage and Power Generation in Guangdong Universities, South China Normal University, Guangzhou, Guangdong 510006 (China); Wang, H.; Xiao, G.M.; Dou, C.L.; Peng, S.G.; Wei, W.W.; Zhang, W.; Zhou, H.W.; Chen, S. [Zhuzhou Smelter Group Co., Ltd., Zhuzhou Hunan 412004 (China)


    A series of novel Pb-Te binary alloys with different contents of tellurium (0.01-1.0 wt.%) were investigated as the positive grid of a lead acid battery. The microstructure of Pb-Te alloys was observed using a polarizing microscope. The morphology of the corrosion layers and corroded surfaces of Pb and Pb-Te alloy electrodes were analyzed by scanning electron microscopy (SEM) following the corrosion test. The electrochemical properties of Pb-Te alloys and Pb-Te-Sn alloy in sulfuric acid solution were investigated by cyclic voltammetry (CV), open circuit potential (OCP), electrochemical impedance spectroscopy (EIS), alternating current voltammetry (ACV), and linear sweeping voltammetry (LSV). The results indicate that the introduction of tellurium results in grain refinement, increased corrosion resistance, and an accelerated oxygen evolution reaction for the Pb-Te binary alloys. The passive films formed on Pb-Te-Sn alloy shows improved performances in comparison to those on Pb-Ca-Sn alloy.

  14. Temporal and spatial characteristics of lead emissions from the lead-acid battery manufacturing industry in China.

    Liu, Wei; Tian, Jinping; Chen, Lujun; Guo, Yang


    An inventory of lead emissions was established for the lead-acid battery (LAB) manufacturing industry in China from 2000 to 2014. The lead emissions from the LAB manufacturing industry increased from 133 t in 2000 to a peak at 281 t in 2010 with the rapid development of LAB industry. Since 2011, a mandatory national clean action on LAB industry and a series of retrofitting measures have been implemented in China. As a result, more than 80% of small and low-efficient LAB manufacturers were closed, and technical-environmental performance of the industry has been improved significantly. Thus the lead emissions from the industry declined to 113 t in 2014. Geographically, lead emissions were attributed to several provinces with intensive LAB manufacturers, including Zhejiang, Guangdong, Jiangsu, Shandong, and Hebei Province. Spatial transfer of the LAB manufacturing industry from developed areas to developing areas in China was manifest due to strict environmental regulation, posing potential environmental risks to the areas undertaking the industry transfer. In light of the effectiveness of the national clean action, the LAB manufacturing industry will reduce lead emissions further by implementing the entry criteria strictly, adopting policy of total lead emissions control, and establishing a long-term regulatory mechanism for LAB manufacturers. The local authorities in some developing areas should improve abilities of environmental supervision and environmental risk prevention to deal with the spillover of lead emissions. Copyright © 2016 Elsevier Ltd. All rights reserved.

  15. 磷酸铁锂电池与铅酸蓄电池混合系统研究%Studies of Hybrid Energy System of Lithium Iron Phosphate Battery and Lead-acid Battery

    袁好; 衣守忠; 王先友


    By utilizing the differences of the charging and discharging characteristics between lithium iron phosphate batteries and lead-acid batteries,a new parallel hybrid power battery system with lithium iron phosphate batteries and lead-acid batteries and new charge/discharge system are developed.When charging, the lead-acid batteries attain the priority,so that lead-acid batteries can avoid to be charged less.When dis-charging,lithium iron phosphate batteries discharge with priority,while the lead-acid batteries are on the contrary,so lead-acid batteries can work in a state of shallow cycle,which can prolong the service life of the lead-acid batteries in the hybrid system.The hybrid battery system can effectively combine the advantages of both lithium iron phosphate batteries and lead-acid batteries,such as excellent discharge rate perform-ance,long cycle life and low cost et al,which make the system suitable for the application in the field of power batteries.%利用磷酸铁锂电池与铅酸蓄电池不同的充放电特点,开发了基于磷酸铁锂电池与铅酸蓄电池并联的混合动力电源系统,并设计了新型充放电制度。充电时铅酸蓄电池优先充电,使其免于欠充电;放电时磷酸铁锂电池电优先放电,铅酸蓄电池后放电,使铅酸蓄电池处于浅循环。这种充放电制度可以明显延长混合系统中铅酸蓄电池使用寿命,并且混合动力电源系统同时具有磷酸铁锂电池倍率性能优、循环寿命长及铅酸蓄电池价格低廉等特点,在动力电池领域有巨大的应用前景。

  16. Testing of the Eagle-Picher nickel-iron, the Globe ISOA lead-acid, and the Westinghouse nickel-iron battery subsystems in an electric-vehicle environment

    Hewitt, R.; Bryant, J.


    Three full size developmental batteries were tested with electric vehicles; two nickel-iron batteries and a lead-acid battery. Constant speed and driving schedule tests were done on a chassis dynamometer. Several aspects of battery performance were evaluated for capacity, recharge efficiency, voltage response, and self discharge. Each of these three batteries exhibited some strengths and some weaknesses.

  17. On the use and maintenance of automotive lead acid batteries%浅谈汽车铅蓄电池的使用与维护

    李霞霞; 徐增祥


    for a long time, both diesel car or automobile gasoline power are used in lead-acid battery. This is due to the relative to other types of batteries battery low prices, large capacity, and safe and reliable use of so much of the vast number of users of all ages. However, if the lead battery using same and improper maintenance endanger people's safety, but also is easy to cause early damage. For the vast number of users, and can correct use and maintenance of lead-acid battery, this paper is only a lead-acid battery performance characteristics, and use and maintenance should pay attention to the problem talks about a few view. To illustrate the problem conveniently, this paper only with 6QW60 lead acid battery for example.%长期以来,无论是柴油汽车或是汽油汽车的电源均采用铅酸蓄电池。这是由于这种蓄电池相对其它种类电池价格低、容量大,加之使用安全可靠所以倍受广大用户的青睐。然而,如果铅蓄电池使用与维护不当同样危及人的安全,同时也极容易造成早期损坏。为使广大用户了,且能正确使用与维护车用铅蓄电池,本文仅就车用铅蓄电池的工作特性,及使用与维护中应注意的问题谈几点看法。为了说明问题方便,本文仅以6QW60铅蓄电池为例进行说明。

  18. Health hazards of China’s lead-acid battery industry: a review of its market drivers, production processes, and health impacts


    Despite China’s leaded gasoline phase out in 2000, the continued high rates of lead poisoning found in children’s blood lead levels reflect the need for identifying and controlling other sources of lead pollution. From 2001 to 2007, 24% of children in China studied (N = 94,778) were lead poisoned with levels exceeding 100 μg/L. These levels stand well above the global average of 16%. These trends reveal that China still faces significant public health challenges, with millions of children currently at risk of lead poisoning. The unprecedented growth of China’s lead-acid battery industry from the electric bike, automotive, and photovoltaic industries may explain these persistently high levels, as China remains the world’s leading producer, refiner, and consumer of both lead and lead-acid batteries. This review assesses the role of China’s rising lead-acid battery industry on lead pollution and exposure. It starts with a synthesis of biological mechanisms of lead exposure followed by an analysis of the key technologies driving the rapid growth of this industry. It then details the four main stages of lead battery production, explaining how each stage results in significant lead loss and pollution. A province-level accounting of each of these industrial operations is also included. Next, reviews of the literature describe how this industry may have contributed to mass lead poisonings throughout China. Finally, the paper closes with a discussion of new policies that address the lead-acid battery industry and identifies policy frameworks to mitigate exposure. This paper is the first to integrate the market factors, production processes, and health impacts of China’s growing lead-acid battery industry to illustrate its vast public health consequences. The implications of this review are two-fold: it validates calls for a nationwide assessment of lead exposure pathways and levels in China as well as for a more comprehensive investigation into the health

  19. A new valve-regulated lead/acid automotive battery for use in original equipment and supply to the replacement market

    Fouache, S.; Douady, J. P.; Fossati, G.; Pascon, C.

    Valve-regulated lead/acid (VRLA) batteries have been available since the beginning of the 1970s for stationary applications. Nevertheless, the development and the commercialization of VRLA starter batteries have been very slow and mainlyrestricted to certain niche markets. This is due to the difficulty in designing products that comply with the technical specificationsrequired by the operating conditions of modern cars, and that have both a high level of reliability and a cost in accordance with the needs ofthe automotive market. The STR (sealed technology with gas recombination) battery has been developed in order to place on the automotiveoriginal equipment and replacement markets a battery with the benefits of the VRLA technology, namely: absolutely no maintenance; cleanand safe; good open-circuit storage; good cycling ability; performance comparable with that of flooded batteries (i.e., cranking powerand reserve capacity, charge acceptance, rechargeability, and life). Due to the technical choices made for the components and forthe manufacturing process, the STR battery is today manufactured on a production line very similar to that for a flooded battery, with agood level of productivity and the same reliability as the best flooded batteries. For all these reasons, the STR battery is producedat a cost that is acceptable for automotive applications.

  20. Serum Neuron-Specific Enolase, Biogenic Amino-Acids and Neurobehavioral Function in Lead-Exposed Workers from Lead-Acid Battery Manufacturing Process

    K Ravibabu


    Full Text Available Background: The interaction between serum neuron-specific enolase (NSE, biogenic amino-acids and neurobehavioral function with blood lead levels in workers exposed to lead form lead-acid battery manufacturing process was not studied. Objective: To evaluate serum NSE and biogenic amino-acids (dopamine and serotonin levels, and neurobehavioral performance among workers exposed to lead from lead-acid storage battery plant, and its relation with blood lead levels (BLLs. Methods: In a cross-sectional study, we performed biochemical and neurobehavioral function tests on 146 workers exposed to lead from lead-acid battery manufacturing process. BLLs were assessed by an atomic absorption spectrophotometer. Serum NSE, dopamine and serotonin were measured by ELISA. Neurobehavioral functions were assessed by CDC-recommended tests—simple reaction time (SRT, symbol digit substitution test (SDST, and serial digit learning test (SDLT. Results: There was a significant correlation (r 0.199, p<0.05 between SDST and BLL. SDLT and SRT had also a significant positive correlation (r 0.238, p<0.01. NSE had a negative correlation (r –0.194, p<0.05 with serotonin level. Multiple linear regression analysis revealed that both SRT and SDST had positive significant associations with BLL. SRT also had a positive significant association with age. Conclusion: Serum NSE cannot be used as a marker for BLL. The only domain of neurobehavioral function tests that is affected by increased BLL in workers of lead-acid battery manufacturing process is that of the “attention and perception” (SDST.

  1. On the reaction in the lead-acid battery (as the special review-article by the 2005' Gaston Planté Medal recipient)

    Takehara, Zen-ichiro

    It is my great pleasure to be awarded with the 2005' Gaston Planté Medal for significant contribution to the development of lead-acid battery science and technology. I would like to thank most heartily to Prof. D. Pavlov of Chairman, and all members of the Organic Committee of LABAT'2005 for the best treatment to select me as a 2005' Gaston Planté Medallist.

  2. A Study on Electric Power Smoothing System for Lead-Acid Battery of Stand-Alone Natural Energy Power System Using EDLC

    Jia, Yan; Shibata, Ryosuke; Yamamura, Naoki; Ishida, Muneaki

    To resolve energy shortage and global warming problem, renewable natural resource and its power system has been gradually generalizing. However, the power fluctuation suppressing in short period and the balance control of consumption and supply in long period are two of main problems that need to be resolved urgently in natural energy power system. In Stand-alone Natural Energy Power System (SNEPS) with power energy storage devices, power fluctuation in short period is one of the main reasons that recharge cycle times increase and lead-acid battery early failure. Hence, to prolong the service life of lead-acid battery and improve power quality through suppressing the power fluctuation, we proposed a method of electric power smoothing for lead-acid battery of SNEPS using bi-directional Buck/Boost converter and Electric Double Layer Capacitor (EDLC) in this paper. According to the test data of existing SNEPS, a power fluctuation condition is selected and as an example to analyze the validity of the proposed method. The analysis of frequency characteristics indicates the power fluctuation is suppressed a desired range in the target frequency region. The experimental results of confirmed the feasibility of the proposed system and the results well satisfy the requirement of system design.

  3. Novel lead-graphene and lead-graphite metallic composite materials for possible applications as positive electrode grid in lead-acid battery

    Yolshina, L. A.; Yolshina, V. A.; Yolshin, A. N.; Plaksin, S. V.


    Novel lead-graphene and lead-graphite metallic composites which melt at temperature of the melting point of lead were investigated as possible positive current collectors for lead acid batteries in sulfuric acid solution. Scanning electron microscopy, Raman spectroscopy, difference scanning calorimetry, cyclic voltammetry and prolonged corrosion tests were employed to characterize the effect of the newly proposed lead-carbon metallic composites on the structure and electrochemical properties of positive grid material. Both lead-graphene and lead-graphite metallic composite materials show the similar electrochemical characteristics to metallic lead in the voltage range where the positive electrodes of lead acid batteries operate. It has been shown that carbon both as graphene and graphite does not participate in the electrochemical process but improve corrosion and electrochemical characteristics of both metallic composite materials. No products of interaction of lead with sulfuric acid were formed on the surface of graphene and graphite so as it was not found additional peaks of carbon discharge on voltammograms which could be attributed to the carbon. Graphene inclusions in lead prevent formation of leady oxide nanocrystals which deteriorate discharge characteristics of positive electrode of LAB. Both lead-graphene alloy and lead-graphite metallic composite proved excellent electrochemical and corrosion behavior and can be used as positive grids in lead acid batteries of new generation.

  4. The inlfuence of solid expanders on performances of lead-acid batteries%固体膨胀剂对铅蓄电池性能的影响

    张丽芳; 张慧; 王斌


    This paper presents the effects of additives ( sodium lignosulfonate and humic acid) as solid expanders added in the negative active material of lead-acid batteries. By using cyclic voltametry and AC impedance, discharge capacity test, water loss during cycling process, charge retention and capacity recovery, and type test of ifnished lead-acid batteries, the inlfuence of sodium lignosulfonate and humic acid on the properties of lead-acid batteries were studied.%本文在电池中加入固体膨胀剂木素磺酸钠与腐殖酸,通过测试循环伏安(CV)、交流阻抗(E I S)、放电容量及循环过程失水量、荷电保持和容量恢复能力,及进行成品电池型式试验,研究木素磺酸钠与腐殖酸对电池性能的影响。

  5. Micro-hybrid electric vehicle application of valve-regulated lead-acid batteries in absorbent glass mat technology: Testing a partial-state-of-charge operation strategy

    Schaeck, S.; Stoermer, A. O.; Hockgeiger, E.

    The BMW Group has launched two micro-hybrid functions in high volume models in order to contribute to reduction of fuel consumption in modern passenger cars. Both the brake energy regeneration (BER) and the auto-start-stop function (ASSF) are based on the conventional 14 V vehicle electrical system and current series components with only little modifications. An intelligent control algorithm of the alternator enables recuperative charging in braking and coasting phases, known as BER. By switching off the internal combustion engine at a vehicle standstill the idling fuel consumption is effectively reduced by ASSF. By reason of economy and package a lead-acid battery is used as electrochemical energy storage device. The BMW Group assembles valve-regulated lead-acid (VRLA) batteries in absorbent glass mat (AGM) technology in the micro-hybrid electrical power system since special challenges arise for the batteries. By field data analysis a lower average state-of-charge (SOC) due to partial state-of-charge (PSOC) operation and a higher cycling rate due to BER and ASSF are confirmed in this article. Similar to a design of experiment (DOE) like method we present a long-term lab investigation. Two types of 90 Ah VRLA AGM batteries are operated with a test bench profile that simulates the micro-hybrid vehicle electrical system under varying conditions. The main attention of this lab testing is focused on capacity loss and charge acceptance over cycle life. These effects are put into context with periodically refresh charging the batteries in order to prevent accelerated battery aging due to hard sulfation. We demonstrate the positive effect of refresh chargings concerning preservation of battery charge acceptance. Furthermore, we observe moderate capacity loss over 90 full cycles both at 25 °C and at 3 °C battery temperature.

  6. Modeling of the capacity loss of a 12 V automotive lead-acid battery due to ageing and comparison with measurement data

    Kim, Ui Seong; Shin, Chee Burm; Chung, Seung Myun; Kim, Sung Tae; Cho, Byung Won

    One-dimensional modeling was carried-out to predict the capacity loss of a 12 V automotive lead-acid battery due to ageing. The model not only accounted for electrochemical kinetics and ionic mass transfer in a battery cell, but also considered the anodic corrosion of lead in sulfuric acid. In order to validate the modeling, modeling results were compared with the measurement data of the cycling behaviors of the lead-acid batteries having nominal capacity of 68 Ah that are mounted on the automobiles manufactured by Hyundai Motor Company. The cycling was performed under the protocol of the constant-current discharge and the constant-voltage charge. The discharge rate of C/3 was used. The range of state of charge was between 1 and 0.85. The voltage was kept constant at the gassing voltage until the charge current tapered to 10 mA. The retention capacity of the battery was measured with C/3 discharge rate before the beginning of cycling and after every 40 cycles of cycling. The modeling results were in good agreement with the measurement data.

  7. Study of the manufacturing costs of lead--acid batteries for peaking power. Final report for the period ending Oct. 1976



    A detailed study was made of a postulated 1000-MWh per year lead--acid battery business dedicated to supplying a single design of 40-MWh peaking power batteries to electric utilities. State-of-the-art industrial technology is assumed, but the manufacturing facility and business organization is tailored to the one product. Analysis of the product costs and business expenses associated with such an operation indicates that substantially lower selling prices can be realized as compared with normal industrial battery pricing. Under the low-risk conditions assumed, the selling price would be $36.90/kWh at the 4-h rate. Advanced technology would reduce the cost to $31.62/kWh. 21 figures, 31 tables. (RWR)

  8. Improving the cycle life of lead-acid batteries using three-dimensional reduced graphene oxide under the high-rate partial-state-of-charge condition

    Long, Qunying; Ma, Guozheng; Xu, Qiqin; Ma, Cheng; Nan, Junmin; Li, Aiju; Chen, Hongyu


    A three-dimensional reduced graphene oxide (3D-RGO) material has been successfully prepared by a facile hydrothermal method and is employed as the negative additive to curb the sulfation of lead-acid battery. When added with 1.0 wt% 3D-RGO, the initial discharge capacity (0.05 C, 185.36 mAh g-1) delivered by the battery is 14.46% higher than that of the control cell (161.94 mAh g-1); and the cycle life under the high-rate partial-state-of-charge (HRPSoC) condition is significantly improved by more than 224% from 8142 to 26,425 cycles. In comparison to the conventional carbon additions like the activated carbon and acetylene black, the 3D-RGO also exhibits the highest initial discharge capacity, the best rate capabilities and the longest HRPSoC cycling life. Finally, we propose a possible mechanism for 3D-RGO to suppress lead-acid battery sulfation, where the abundant pore structure and excellent conductivity of 3D-RGO may have a synergistic effect on facilitating the charge and discharge process of negative plate.

  9. [Comparison and application of two risk assessment methods for occupational lead exposure risk classification in a lead-acid battery enterprise].

    Chen, H F; Yao, Z H; Yan, X H; Zhao, L; Wang, S; Lin, J; Huang, H L


    Objective: To apply and compare two risk assessment methods for occupational lead exposure risk classification in a lead-acid battery enterprise. Methods: In April 2013, an occupational health survey was carried out in a lead-acid battery enterprise. Lead smoke and lead dust were tested in the workplace. The risk assessment index system for occupational chemical hazards that was established and optimized by the research group (referred to as "optimized index system" ) , as well as the Singapore semi-quantitative risk assessment model, was used for occupational lead exposure risk classification in the lead-acid battery enterprise. The two risk classification results were analyzed and compared. Results: In the lead smoke risk classification results, the optimized index system classified the raw material group and foundry group workshops as Class I hazardous and the assembling group workshop as Class II hazardous. The Singapore semi-quantitative risk assessment model classified the raw material group workshop as high risk and foundry group and assembling group workshops as extremely high risk. In the lead dust risk classification results, the optimized index system classified the raw material group workshop as Class I hazardous, while the plate painting group, plate cutting group, and assembling group workshops were classified as Class II hazardous. The Singapore semi-quantitative risk assessment model classified the raw material group workshop as medium risk, the plate painting group and plate cutting group workshops as high risk, and the assembling group workshop as extremely high risk. Conclusion: There are some differences in risk assessment of occupational lead exposure between the two risk assessment methods. The optimized index system is comparably more reasonable and feasible, and is highly operable.

  10. Comparison of Starting Performance Between LYP Battery and Lead -acid Battery%稀土锂钇蓄电池与铅酸蓄电池的起动性能比较研究

    朱诗顺; 闫世良; 朱道伟; 程建伟; 胡继锡


    依据我国现行汽车起动用铅酸蓄电池国家标准,对一种新型稀土锂钇蓄电池和传统铅酸蓄电池进行实验,主要包括充放电性能、电池储备容量、比能量、低温放电、-18℃起动放电、充电接受能力和自放电等性能的实验比较研究以及实车起动实验研究。结果表明,该型稀土锂钇蓄电池在用作起动电池时较传统的铅酸蓄电池具有明显的优势,适合作汽车起动用蓄电池。%Based on current national standards of lead - acid battery for starting, some experiments on a new type of LYP ( rare - earth - lithium - yttrium power) battery and the traditional lead - acid battery were done. The charge - discharge performance, battery reserve capacity, specific energy, low - temperature discharge capacity, starter discharge capacity un- der - 18 ℃, charge acceptance ability, self- discharge capacity, and starting test were studied. The results show that the LYP battery has the advantage over the traditional lead - acid battery when used as the starter battery, and is more suitable to be used as the car starter battery.

  11. Structures of battery- and energy management systems using lead-acid batteries and ultracaps; Strukturen von Batterie- und Energiemanagementsystemen mit Bleibatterien und Ultracaps

    Heinemann, D.


    The publication presents methods of damage-free operation of lead batteries in electric road vehicles. The original charging method used in the citySTROMer car was based on the total voltage, causing permanent overload and fast ageing of modules. The charge state of the vehicle is defined on the basis of the residual charge state, a charge balance, and an evaluation of the temperature-compensated minimum module voltage. The time when current limiting is necessary is recognized reliably, and the charge state indicator works reliably soon after starting. The vehicle has an integrated power-assist store. Ultracap modules of various capacities were characterized in the laboratory. A variant was constructed in which the battery is discharged permanently with average driving current while the ultracap is used for making up the difference to the load at a given moment. The load cases for power-assist were identified on the basis of real driving cycles. The system can be described as an onboard dual-voltage system. The higher voltage of the ultracap provides higher power for acceleration. The availability of the ultracap is ensured in 90 percent of all accelerations. The first battery set installed in the car is now in its fourth winter, with a mileage of nearly 7000 km. In March 2006, 63 Ah were recorded in battery driving cycle in urban traffic at temperatures below freezing point. After commissioning in May 2002, 71 Ah were recorded. [German] Die vorliegende Arbeit entwickelt Verfahren zum schaedigungsfreien Betrieb von Bleibatterien in elektrischen Strassenfahrzeugen. Das urspruenglich im untersuchten citySTROMer eingesetzte Ladeverfahren war an der Gesamtspannung orientiert und hat Module hoeherer Spannungslage ueberladen. Die permanente Ueberladung fuehrt zu einem sehr schnellen Alterungsprozess. Die Ladezustandsbestimmung im Fahrzeug erfolgt ueber die Bestimmung des Restladegrades, eine Ladungsbilanzierung und die Auswertung der temperaturkompensierten

  12. Research and development of 6-DZMJ-12 gelled lead-acid battery%6-DZMJ-12全胶体铅酸蓄电池的研发

    李桂发; 郭志刚; 刘玉; 邓成智; 周文渭


    本文围绕电动自行车用全胶体铅酸蓄电池的研发,从电池内部结构设计、生极板预处理工艺、胶体配方和分散方式及充电化成工艺四个方面进行了研究。实验结果表明:全胶体电池可以满足电动自行车的使用需求,能够很大程度上解决酸分层等问题,进而延长电池的循环使用寿命。%The 6-DZMJ-12 gelled lead-acid batteries for E-bikes were studied from the aspects of internal structure design, plate pretreatment process, gel formula, dispersion, and charging of the formation process. Experimental results showed that the gelled batteries could fully meet the demands of electric bicycle power batteries, because stratiifcation of sulfuric acid electrolyte and other problems were solved largely to extend the life of battery.

  13. Lead-acid batteries online monitoring automation and its implementation%铅酸蓄电池在线监测自动化及其实现



    The application of lead-acid battery is the longest, most productive, most widely used batteries with high voltage, high-current discharge in a short time, a wide temperature range, low cost, reliable operation advantages, the defects are shorter cycle life, low speciifc energy, mainly used in all types of internal combustion engine vehicles and the tractors. Currently, maintenance-free lead-acid battery is the main direction of development, but in terms of the mode of production should be improved. Thus, the article studies automation of production, has a certain theoretical and practical signiifcance.%铅酸蓄电池是我国应用时间最长、产量最多、应用范围最广的一种蓄电池,有着工作电压高、短时间内大电流放电、使用温度范围宽、成本低、运行可靠的优势,缺陷在于循环寿命较短,比能量低,主要应用在各类汽车、拖拉机的内燃机中。目前,免维护铅酸蓄电池是主要的发展方向,但是在生产方式方面还有待完善。因此,文章对其生产自动化改造进行研究,有着一定的理论意义和实践意义。

  14. The use of activated carbon and graphite for the development of lead-acid batteries for hybrid vehicle applications

    Fernández, M.; Valenciano, J.; Trinidad, F.; Muñoz, N.

    Future vehicle applications require the development of reliable and long life batteries operating under high-rate partial-state-of-charge (HRPSoC) working conditions. This paper updates work carried out to develop spiral wound valve-regulated batteries for vehicles with different hybridisation degrees, ranging from stop-start to mild hybrid applications. In order to develop a battery that can withstand the hard operating conditions that the work at High Rate Partial-State-of-Charge (HRPSoC) implies, it is necessary to modify the negative AM formulation by using special, additives like carbon and graphite that reduce lead sulphate accumulation during HRPSoC cycling within in the negative plate. Several batches of negative active material (NAM) with the addition of graphites of different types, as well as combinations of graphite and activated carbons, have been made on 6 V 24 Ah Spiral wound modules. Electrical results show a dramatic increase of the charge acceptance at different SoC's that for some combinations approach 200%. On the other hand, on cycle life according to EUCAR Power Assist cycling, values in the range 200,000-220,000 cycles have been obtain in most part of the batch. This represents a capacity turnover of 5000-5500 times the nominal capacity. The paper is divided into three parts. The first part is devoted to identify the cause of failure of the negative plate on Power Assist Cycle Life, that turned to be the development of high amounts of lead sulphate and its accumulation on the surface of the plate. The second part covers the addition of carbon and graphite of low SSA to NAM and finally the third part is dedicated to the test of additions of medium/high SSA carbon to NAM with the specific objective of trying to implement the supercapacitor effect inside the battery.

  15. Over - discharge Protection of Lead - acid Battery in Mine Back - up Power%煤矿井下后备电源铅酸电池的过放保护

    汪精浩; 冯利国


    研究了铅酸电池的过放保护,使铅酸电池能够在放电到达终止电压前便切断给外部供电;增加电池的使用寿命。%This paper studies the over - discharge protection of lead - acid battery which can make the lead - acid battery cut off the ex- ternal power supply before the power discharges up to the end voltage, and prolong the service life of the battery.

  16. Multi-step constant-current charging method for electric vehicle, valve-regulated, lead/acid batteries during night time for load-levelling

    Ikeya, Tomohiko; Mita, Yuichi; Ishihara, Kaoru [Central Research Inst. of Electric Power Industry, Tokyo (Japan); Sawada, Nobuyuki [Hokkaido Electric Power, Sapporo (Japan); Takagi, Sakae; Murakami, Jun-ichi [Tohoku Electric Power, Sendai (Japan); Kobayashi, Kazuyuki [Tokyo Electric Power, Yokohama (Japan); Sakabe, Tetsuya [Chubu Electric Power, Nagoya (Japan); Kousaka, Eiichi [Hokuriku Electric Power, Toyama (Japan); Yoshioka, Haruki [The Kansai Electric Power, Osaka (Japan); Kato, Satoru [The Chugoku Electric Power, Hiroshima (Japan); Yamashita, Masanori [Shikoku Research Inst., Takamatsu (Japan); Narisoko, Hayato [The Okinawa Electric Power, Naha (Japan); Nishiyama, Kazuo [The Central Electric Power Council, Tokyo (Japan); Adachi, Kazuyuki [Kyushu Electric Power, Fukuoka (Japan)


    For the popularization of electric vehicles (EVs), the conditions for charging EV batteries with available current patterns should allow complete charging in a short time, i.e., less than 5 to 8 h. Therefore, in this study, a new charging condition is investigated for the EV valve-regulated lead/acid battery system, which should allow complete charging of EV battery systems with multi-step constant currents in a much shorter time with longer cycle life and higher energy efficiency compared with two-step constant-current charging. Although a high magnitude of the first current in the two-step constant-current method prolongs cycle life by suppressing the softening of positive active material, too large a charging current magnitude degrades cells due to excess internal evolution of heat. A charging current magnitude of approximately 0.5 C is expected to prolong cycle life further. Three-step charging could also increase the magnitude of charging current in the first step without shortening cycle life. Four-or six-step constant-current methods could shorten the charging time to less than 5 h, as well as yield higher energy efficiency and enhanced cycle life of over 400 cycles compared with two-step charging with the first step current of 0.5 C. Investigation of the degradation mechanism of the batteries revealed that the conditions of multi-step constant-current charging suppressed softening of positive active material and sulfation of negative active material, but, unfortunately, advanced the corrosion of the grids in the positive plates. By adopting improved grids and cooling of the battery system, the multistep constant-current method may enhance the cycle life. (orig.)

  17. Enhanced performance of Zn(II)-doped lead-acid batteries with electrochemical active carbon in negative mass

    Xiang, Jiayuan; Hu, Chen; Chen, Liying; Zhang, Dong; Ding, Ping; Chen, Dong; Liu, Hao; Chen, Jian; Wu, Xianzhang; Lai, Xiaokang


    The effect and mechanism of Zn(II) on improving the performances of lead-acid cell with electrochemical active carbon (EAC) in negative mass is investigated. The hydrogen evolution of the cell is significantly reduced due to the deposition of Zn on carbon surface and the increased porosity of negative mass. Zn(II) additives can also improve the low-temperature and high-rate capacities of the cell with EAC in negative mass, which ascribes to the formation of Zn on lead and carbon surface that constructs a conductive bridge among the active mass. Under the co-contribution of EAC and Zn(II), the partial-state-of-charge cycle life is greatly prolonged. EAC optimizes the NAM structure and porosity to enhance the charge acceptance and retard the lead sulfate accumulation. Zn(II) additive reduces the hydrogen evolution during charge process and improves the electric conductivity of the negative electrode. The cell with 0.6 wt% EAC and 0.006 wt% ZnO in negative mass exhibits 90% reversible capacity of the initial capacity after 2100 cycles. In contrast, the cell with 0.6 wt% EAC exhibits 84% reversible capacity after 2100 cycles and the control cell with no EAC and Zn(II) exhibits less than 80% reversible capacity after 1350 cycles.

  18. Determination of the load state of lead-acid batteries using neural networks; Determinacion del estado de carga de baterias plomo-acido utilizando redes neuronales

    Cristin V, Miguel A; Ortega S, Cesar A [Instituto de Investigaciones Electricas, Cuernavaca, Morelos (Mexico)


    The charge of lead-acid batteries (LAB), as in any other type of batteries, consists of replacing the energy consumed during the discharge. Nevertheless, as no physical or chemical process is good enough to totality recharge a battery, it is necessary to supply to it more than the 100% of the energy demanded during its discharge. A critical factor to make a suitable load control of the batteries is to determine its own state of load. That is to say, to have an efficient load control, it is necessary to count on means that allow to accurately determining the residual capacity of the battery to deliver load. This one is the one of the aspects of greater interest in the research centers around world. For this reason, in this work it was pretended to develop a calculation algorithm of the state of load of batteries based on a fuzzy-neural network that could calculate the state of load without using the battery current as an input. This is because one of the main problems for the designers of battery load controllers is the correct supervision of the current that circulates around the system in all the rank of operation of the same one because the sensors do not have a linear behavior. [Spanish] La recarga de baterias plomo-acido (BPA), como cualquier otro tipo de baterias, consiste en reponer la energia consumida durante la descarga. Sin embargo, como ningun proceso fisico o quimico es lo bastante eficiente para recargar a totalidad una bateria, es necesario suministrarle mas del 100% de la energia demandada durante su descarga. Un factor critico para realizar un adecuado control de carga de las baterias, es determinar su propio estado de carga. Es decir, para tener un control de carga eficiente, es necesario contar con un medio que permita determinar con precision la capacidad remanente de la bateria para entregar carga. Este es uno de los aspectos de mayor interes en los centros de investigacion alrededor el mundo. Por tal razon, en este trabajo se propuso

  19. Estimating the Size of the Renewable Energy Generators in an Isolated Solar-Biodiesel Microgrid with Lead-Acid Battery Storage

    GRAMA Alin


    Full Text Available Climate change, fossil fuel decline, expensive power grid extensions focused the attention of scientist in developing electrical power systems that use as primary resources renewable energy generators. Romania has a high renewable energy potential and presents interest in developing renewable energy microgrids using: solar energy, wind energy, biomass Hydro, etc. The paper presents a method of estimating the size of the renewable energy generators in an isolated solar-biodiesel microgrid with lead-acid battery storage. The mathematical model is first presented and then an algorithm is developed to give an estimation of the size of the microgrid. The microgrid is installed in the region of Oradea, Romania. The results are validated through comparison with existing sizing software programs like: PV*Sol and PVSyst.

  20. Engineering study of a 20 MW lead--acid battery energy storage demonstration plant. Final report for the period ending October 1976


    The Research and Engineering Operation of Bechtel Corporation conducted an engineering study of a 20-MW lead--acid battery energy storage demonstration plant. Ten alternative designs were evaluated. Basically, the configurations proposed for the demonstration plants are those of the mature plants which would follow. The designs of the individual plants are based on the cell designs and the means used to house the cells. Initially, proposed cell designs from five manufacturers were considered. To conform with the level of effort allowed for this engineering study, two manufacturers' cells (one open-tank design and one sealed cell design) were selected by ERDA and Bechtel as being representative. These designs formed the basis for the detailed evaluation conducted in this study. The plant and battery configurations evaluated in the study are a large open-tank cell, configured in rows and housed in four buildings; a sealed cell, configured in a single layer of close packed rows in a single building; a sealed cell, configured in a three-tiered arrangement in a single building; and a sealed cell, configured with groups of cells housed in weatherproof modules and placed outdoors. Annual operating costs based on these mature plant costs show lead--acid load-leveling plants are generally not economically competitive with the alternatives when no consideration is given to their other possible benefits to the power system. However, application of credits (e.g., transmission line or spinning reserve credits) can make such plants economically competitive with gas turbine peaking units in specific situations. 46 figures, 25 tables. (RWR)

  1. Anodic Layer of Pb-Ca-Sn-Ce Alloy for Maintenance-Free Lead/Acid Batteries

    Li Dangguo; Zhou Genshu; Lin Guanfa; Zheng Maosheng


    The anodic films of novel Pb-Ca-Sn-Ce alloy, traditional Pb-Ca-Sn and Pb-Sb alloys formed in sulfuric solution at anodic +0.9 V potential corrosion for 6 h were investigated by means of XPS, XRD methods and AC impedance measurement. The results show that the growth of Pb(Ⅱ) oxide on the new Pb-Ca-Sn-Ce alloy surface is inhibited. The AC impedance measurement shows that resistance of the corrosion layer of novel Pb-Ca-Sn-Ce alloy decreases. It is found that the novel Pb-Ca-Sn-Ce alloy can encourage the development of PbO2 in the scale, and enhance the conductivity of the anodic scale. Hence the deep recycling properties of the battery can be expected better.

  2. Reductive smelting of spent lead-acid battery colloid sludge in a molten Na2CO3 salt

    Yu-jie Hu; Chao-bo Tang; Mo-tang Tang; Yong-ming Chen


    Lead extraction from spent lead–acid battery paste in a molten Na2CO3 salt containing ZnO as a sulfur-fixing agent was studied. Some influencing factors, including smelting temperature, reaction time, ZnO and salt dosages, were investigated in detail using single-factor experiments. The optimum conditions were determined as follows:T = 880°C;t = 60 min; Na2CO3/paste mass ratio = 2.8:1; and the ZnO dosage is equal to the stoichiometric requirement. Under the optimum conditions, the direct recovery rate of lead reached 98.14%. The re-sults suggested that increases in temperature and salt dosage improved the direct recovery rate of lead. XRD results and thermodynamic cal-culations indicated that the reaction approaches of lead and sulfur were PbSO4→Pb and PbSO4→ZnS, respectively. Sulfur was fixed in the form of ZnS, whereas the molten salt did not react with other components, serving only as a reaction medium.

  3. Understanding the function and performance of carbon-enhanced lead-acid batteries : milestone report for the DOE Energy Storage Systems program (FY11 Quarter 2: January through March 2011).

    Shane, R. (East Penn Manufacturing, Lyon Station, PA); Enos, David George; Hund, Thomas D.


    This report describes the status of research being performed under CRADA No. SC10/01771.00 (Lead/Carbon Functionality in VRLA Batteries) between Sandia National Laboratories and East Penn Manufacturing, conducted for the U.S. Department of Energy's Energy Storage Systems Program. The Quarter 2 Milestone was completed on time. The milestone entails an ex situ analysis of the four carbons that have been added to the negative active material of valve-regulated lead-acid (VRLA) batteries for the purposes of this study. The four carbons selected for this study were a graphitic carbon, a carbon black, an activated carbon, and acetylene black. The morphology, crystallinity, and impurity contents of each of the four carbons were analyzed; results were consistent with previous data. Cycling on a subset of the received East Penn cells containing different carbons (and a control) has been initiated. Carbon has been explored as an addition to lead-acid battery electrodes in a number of ways. Perhaps the most notable to date has been the hybrid 'Ultrabattery' developed by CSIRO where an asymmetric carbon-based electrochemical capacitor is combined with a lead-acid battery into a single cell, dramatically improving high-rate partial-state-of-charge (HRPSoC) operation. As illustrated below, the 'Ultrabattery' is a hybrid device constructed using a traditional lead-acid battery positive plate (i.e., PbO{sub 2}) and a negative electrode consisting of a carbon electrode in parallel with a lead-acid negative plate. This device exhibits a dramatically improved cycle life over traditional VRLA batteries, as well as increased charge power and charge acceptance. The 'Ultrabattery' has been produced successfully by both The Furukawa Battery Co. and East Penn Manufacturing. An example illustrating the dramatic improvement in cycle life of the Ultrabattery over a conventional VRLA battery is shown.

  4. Health risk assessment of various metal(loid)s via multiple exposure pathways on children living near a typical lead-acid battery plant, China.

    Cao, Suzhen; Duan, Xiaoli; Zhao, Xiuge; Wang, Beibei; Ma, Jin; Fan, Delong; Sun, Chengye; He, Bin; Wei, Fusheng; Jiang, Guibin


    Manufacture of lead-acid batteries is of widespread interest because of its emissions of heavy metals and metalloids into environment, harming environmental quality and consequently causing detrimental effects on human health. In this study, exposure pathways and health risks of children to heavy metal(loid)s (Pb, Cd, As, etc) were investigated based on field sampling and questionnaire. Pb was one of the most abundant elements in children's blood, with an elevated blood lead level of 12.45 μg dL(-1). Soil/dust and food were heavily polluted by targeted metal(loid)s. Food ingestion accounted for more than 80% of the total exposure for most metal(loid)s. The non-cancer risks to children were 3-10 times higher than the acceptable level of 1, while the cancer risks were 5-200 times higher than the maximum acceptable level of 1.0 × 10(-4). The study emphasized the significance of effective environmental management, particularly to ensure food security near battery facilities. Copyright © 2015 Elsevier Ltd. All rights reserved.

  5. Inlfuence of welding lfux used for lead-acid battery on the performance of battery%铅酸电池焊接用助焊剂对电池性能的影响

    张荣博; 欧阳鼎; 陈红雨


    Because lead-acid battery is composed of positive and negative plates connected by cast-on strap (COS), the effect of COS would influence the performance of battery. The flux plays an important role during the cast-welding process. This paper discusses the inlfuences of a commercial lfux on the battery performance.%铅酸电池内部是由多个正负极板通过汇流排铸焊连接起来的,铸焊效果的好坏将影响电池的性能,而助焊剂在铸焊过程中起到很重要的作用。本文讨论某助焊剂对电池性能的影响。

  6. Promotion in Lead-acid Battery Manufacture Development Through Standard Innovation Under Energy Internet Background%能源互联网背景下标准创新推动铅酸蓄电池产业发展

    赵梦欣; 余伟成; 田孝华; 冯亮


    依据对能源互联网的发展预期,以及后备电源和储能电源的现行标准,首先,探讨了铅酸蓄电池在能源互联网背景下的可行应用;通过对我国铅酸电池制造业及其标准体系的分析,并且对锂离子电池、钠硫电池、全钒液流电池、超级电容、铅炭电池和卷绕式铅酸蓄电池的优、缺点总结,该文指出了铅酸蓄电池在能源互联网时代的不足,同时提出通过标准创新推动技术进步和行业发展的可行路径。%From the development and prospects of energy internet, and the current standards about back-up power and energy storage, this paper discusses the usage of lead-acid battery under energy internet background. With analysis of the manufacturing and the standard system of lead-acid battery in China, and with the summarization of the advantages and the disadvantages of lithium-ion battery, sodium sulfur battery, all vanadium flow battery, super capacitance, lead-carbon battery and spiral wound lead-acid battery, this paper points out the drawbacks for lead-acid battery at the age of energy internet and the possible approaches to promote technology advancement and industry development through standard innovation.

  7. Positive synergistic effect of the reuse and the treatment of hazardous waste on pyrometallurgical process of lead recovery from waste lead-acid batteries

    Marija Štulović


    Full Text Available Modification and optimization of the pyrometallurgical process of lead recovering from the waste lead-acid batteries have been studied in this paper. The aim of this research is to develop a cleaner production in the field of the secondary lead metallurgy. Lead smelting process with the addition of flux (sodium(I-carbonate and reducing agents (coke, iron has been followed. The modified smelting process with the addition of hazardous waste (activated carbon as alternative reducing agents has shown positive results on the quality of the secondary lead, the generated slag and the process gases. Filtration efficiency of the gases, the return of baghouse dust to the process and use of oxygen burners have positive effect on the environment protection and energy efficiency. Optimization of the recycling process has been based on the properties of the slag. Stabilization of slag is proposed in the furnace with addition of waste dust from the recycling of cathode ray tube (CRT monitors. Phosphorus compounds from dust reduce leachability of toxic elements from the generated slag. Reduction the slag amount and its hazardous character through the elimination of migratory heavy metals and valorization of useful components have been proposed in the patented innovative device - cylindrical rotating washer/separator.

  8. A numerical model for a soluble lead-acid flow battery comprising a three-dimensional honeycomb-shaped positive electrode

    Oury, Alexandre; Kirchev, Angel; Bultel, Yann


    A novel reactor design is proposed for the soluble lead-acid flow battery (SLFB), in which a three-dimensional honeycomb-shaped positive PbO2-electrode is sandwiched between two planar negative electrodes. A two-dimensional stationary model is developed to predict the electrochemical behaviour of the cell, especially the current distribution over the positive structure and the cell voltage, as a function of the honeycomb dimensions and the electrolyte composition. The model includes several experimentally-based parameters measured over a wide range of electrolyte compositions. The results show that the positive current distribution is almost entirely determined by geometrical effects, with little influence from the hydrodynamic. It is also suggested that an increase in the electrolyte acidity diminishes the overvoltage during discharge but leads at the same time to a more heterogeneous reaction rate distribution on account of the faster kinetics of PbO2 dissolution. Finally, the cycling of experimental mono-cells is performed and the voltage response is in fairly good accordance with the model predictions.

  9. Beneficial effects of activated carbon additives on the performance of negative lead-acid battery electrode for high-rate partial-state-of-charge operation

    Xiang, Jiayuan; Ding, Ping; Zhang, Hao; Wu, Xianzhang; Chen, Jian; Yang, Yusheng


    Experiments are made with negative electrode of 2 V cell and 12 V lead-acid battery doped with typical activated carbon additives. It turns out that the negative electrode containing tens-of-micron-sized carbon particles in NAM exhibits markedly increased HRPSoC cycle life than the one containing carbon particles with much smaller size of several microns or the one containing no activated carbon. The improved performance is mainly attributed to the optimized NAM microstructure and the enhanced electrode reaction kinetics by introducing appropriate activated carbon. The beneficial effects can be briefly summarized from three aspects. First, activated carbon acts as new porous-skeleton builder to increase the porosity and active surface of NAM, and thus facilitates the electrolyte diffusion from surface to inner and provides more sites for crystallization/dissolution of lead sulfate; second, activated carbon plays the role of electrolyte supplier to provide sufficient H2SO4 in the inner of plate when the diffusion of H2SO4 from plate surface cannot keep pace of the electrode reaction; Third, activated carbon acts as capacitive buffer to absorb excess charge current which would otherwise lead to insufficient NAM conversion and hydrogen evolution.

  10. Nanostructuring effect of multi-walled carbon nanotubes on electrochemical properties of carbon foam as constructive electrode for lead acid battery

    Kumar, Rajeev; Kumari, Saroj; Mathur, Rakesh B.; Dhakate, Sanjay R.


    In the present study, nanostructuring effect of multi-walled carbon nanotubes (MWCNTs) on electrochemical properties of coal tar pitch (CTP) based carbon foam (CFoam) was investigated. The different weight fractions of MWCNTs were mixed with CTP and foam was developed from the mixture of CTP and MWCNTs by sacrificial template technique and heat treated at 1,400 and 2,500 °C in inert atmosphere. These foams were characterized by scanning electron microscopy, X-ray diffraction, and potentiostat PARSTAT for cyclic voltammetry. It was observed that, bulk density of CFoam increases with increasing MWCNTs content and decreases after certain amount. The MWCNTs influence the morphology of CFoam and increase the width of ligaments as well as surface area. During the heat treatment, stresses exerting at MWCNTs/carbon interface accelerate ordering of the graphene layer which have positive effect on the electrochemical properties of CFoam. The current density increases from 475 to 675 mA/cm2 of 1,400 °C heat treated and 95 to 210 mA/cm2 of 2,500 °C heat-treated CFoam with 1 wt% MWCNTs. The specific capacitance was decreases with increasing the scan rate from 100 to 1,000 mV/s. In case of 1 % MWCNTs content CFoam the specific capacitance at the scan rate 100 mV/s was increased from 850 to 1,250 μF/cm2 and 48 to 340 μF/cm2 of CFoam heat treated at 1,400 °C and 2,500 °C respectively. Thus, the higher value surface area and current density of MWCNTs-incorporated CFoam heat treated to 1,400 °C can be suitable for lead acid battery electrode with improved charging capability.

  11. Understanding the function and performance of carbon-enhanced lead-acid batteries : milestone report for the DOE Energy Storage Systems program (FY11 Quarter 1: October through December 2010).

    Shane, R. (East Penn Manufacturing, Lyon Station, PA); Enos, David George; Hund, Thomas D.


    This report describes the status of research being performed under CRADA No. SC10/01771.00 (Lead/Carbon Functionality in VRLA Batteries) between Sandia National Laboratories and East Penn Manufacturing, conducted for the U.S. Department of Energy's Energy Storage Systems Program. The Quarter 1 Milestone was completed on time. The milestone entails conducting a thorough literature review to establish the current level of understanding of the mechanisms through which carbon additions to the negative active material improve valve-regulated lead-acid (VRLA) batteries. Most studies have entailed phenomenological research observing that the carbon additions prevent/reduce sulfation of the negative electrode; however, no understanding is available to provide insight into why certain carbons are successful while others are not. Impurities were implicated in one recent review of the electrochemical behavior of carbon additions. Four carbon samples have been received from East Penn Manufacturing and impurity contents have been analyzed. Carbon has been explored as an addition to lead-acid battery electrodes in a number of ways. Perhaps the most notable to date has been the hybrid 'Ultrabattery' developed by CSIRO where an asymmetric carbon-based electrochemical capacitor is combined with a lead-acid battery into a single cell, dramatically improving high-rate partial-state-of-charge (HRPSoC) operation. As illustrated below, the 'Ultrabattery' is a hybrid device constructed using a traditional lead-acid battery positive plate (i.e., PbO{sub 2}) and a negative electrode consisting of a carbon electrode in parallel with a lead-acid negative plate. This device exhibits a dramatically improved cycle life over traditional VRLA batteries, as well as increased charge power and charge acceptance. The 'Ultrabattery' has been produced successfully by both The Furukawa Battery Co. and East Penn Manufacturing. An example illustrating the dramatic

  12. Understanding the function and performance of carbon-enhanced lead-acid batteries : milestone report for the DOE Energy Storage Systems Program (FY11 Quarter 4: July through September 2011).

    Ferreira, Summer Rhodes; Shane, Rodney (East Penn Manufacturing, Lyon Station, PA); Enos, David George


    This report describes the status of research being performed under CRADA No. SC10/01771.00 (Lead/Carbon Functionality in VRLA Batteries) between Sandia National Laboratories and East Penn Manufacturing, conducted for the U.S. Department of Energy's Energy Storage Systems Program. The Quarter 4 Milestone was completed on time. The milestone entails the initiation of high rate, partial state of charge (HRPSoC) cycling of the carbon enhanced batteries. The morphology, porosity, and porosity distribution within the plates after 1k and 10k cycles were documented, illustrating the changes which take place in the early life of the carbon containing batteries, and as the battery approaches failure due to hard sulfation for the control battery. Longer term cycling on a subset of the received East Penn cells containing different carbons (and a control) continues, and will progress into FY12. Carbon has been explored as an addition to lead-acid battery electrodes in a number of ways. Perhaps the most notable to date has been the hybrid 'Ultrabattery' developed by CSIRO where an asymmetric carbon-based electrochemical capacitor is combined with a lead-acid battery into a single cell, dramatically improving high-rate partial-state-of-charge (HRPSoC) operation. As illustrated below, the 'Ultrabattery' is a hybrid device constructed using a traditional lead-acid battery positive plate (i.e., PbO2) and a negative electrode consisting of a carbon electrode in parallel with a lead-acid negative plate. This device exhibits a dramatically improved cycle life over traditional VRLA batteries, as well as increased charge power and charge acceptance. The 'Ultrabattery' has been produced successfully by both The Furukawa Battery Co. and East Penn Manufacturing. An example illustrating the dramatic improvement in cycle life of the Ultrabattery over a conventional VRLA battery is shown in a graph. In addition to the aforementioned hybrid device, carbon has

  13. Study on the influence of storage life expectancy of the Valve Regulated Lead-Acid - VRLA battery; Estudo sobre a influencia da estocagem na expectativa de vida util da bateria chumbo-acida regulada por valvula - VRLA

    Soares, A. Pinhel [FURNAS Centrais Eletricas S.A., Rio de Janeiro, RJ (Brazil)], Email:; Rosolem, Maria de F.N.C.; Santos, G.R. dos; Frare, P.T.; Arioli, V.T.; Beck, R.F. [Telecomunicacoes do CPqD, Campinas, SP (Brazil)], Emails:,,,,; Soares, L.A., Email:


    When valve regulated lead-acid (VRLA) batteries are acquired and are not placed in operation immediately and remain stored in open circuit, they can loose autonomy and life. In these cases the current practice recommends, that the batteries receive quarterly recharges, which is often unfeasible. Given this scenario, Furnas by the CPqD, decided to verify the real impact of stockpiling in the expectancy of VRLAs battery life to establish the veracity of practice adopted or establish new procedures. The influences of time, the temperature of the local storage and application of charges are evaluated. It was also studied the application of techniques for measuring the internal resistance battery (conductance and impedance) for degradation monitoring and identification of the need for application of charges. As final products, it was developed novel diagnostic techniques that allow more accurate monitoring of the storage process.

  14. 非能动核电厂用蓄电池国产化情况分析%Analysis of the domestic situation of the lead-acid batteries for the passive nuclear power plants



    The dynamic performance requirements of class 1E batteries for the nuclear power plants are significantly different from those for active nuclear power plants. Now class 1E batteries for passive nuclear power plants are lead calcium batteries, but the domestic manufacturers with nuclear grade qualiifcation usually produce lead antimony batteries. In this paper, based on the performance differences of the two kinds of lead-acid batteries, combined with the discharge characteristics of class 1E batteries for passive nuclear power plants, the feasibility of using domestic lead antimony batteries and the possible problem replacing lead calcium batteries by lead antimony batteries are analyzed brielfy.%非能动核电厂对1E级蓄电池的性能要求与能动核电厂有很大差异,目前非能动核电厂采用的1E级蓄电池为铅钙蓄电池,而国内具有核级生产资质的蓄电池厂家生产的为铅锑蓄电池。本文基于这两种铅酸蓄电池的性能差异,结合非能动核电厂对1E级蓄电池的放电特性的要求,简要分析国产铅锑蓄电池使用的可行性及替换可能产生的问题。

  15. Influence of state of charge in lead-acid batteries operating in PV systems; Comportamiento no repetitivo de las baterias de plomo-acido operando en sistemas FV.

    Vela, N.; Chenlo, F.


    Correct determination of the overcharge cut-off voltage is a key point for both the optimal operation and maximum life-time of batteries in photovoltaic (PV) systems. This work presents the results of analysing the influence on charge voltage of different operation conditions, mainly current rate, temperature and state of charge (SOC). From the results obtained we have observed that voltage evolution during a charge process depends on its activation degree of the battery. The battery activation is reached when battery was previously fully charged. So, we can conclude that variation of the charge voltage with time as function of starting point (fully charged or fully discharged) together with current rate and temperature should be taking into account in the battery SOC determination and in the design of charge controllers. (Author)

  16. 铅酸蓄电池回收再生产业善治路径选择%Research on Path Selection of Good Governance of Lead-acid Battery Recycling Regeneration Industry



    With the development of new energy industry, the consumption demand of lead-acid battery in China has been vigorous, but the proportion of regenerate lead of total production accounts for less than 30%. It is increasingly important and urgent to increase the production of regenerate lead and to improve utilization of renewable resources and environmental security, to establish perfect market system and environmental management system, furthermore to form multivariate governance pattern. In this article SWOT analysis methods and normative research were adopted. Firstly the industry development trend of lead -acid batteries production and recycling was analyzed. Secondly, it is to form attributes good governance integrated with the theory of whole life-cycle management, extended producer responsibility (EPR) , environmental management and property trading, transformation for environmental economic policy to promote resource recycling and pollution control of lead-acid batteries. Thirdly, in order to establish good governance structure of lead-acid battery recycling and pollution control, the countermeasures for path selection o f Good Governance of it were proposed by associating multidimensional with include government, enterprise, industry, consumers and society.%随着新能源产业发展,我国铅酸蓄电池市场需求旺盛,但再生铅产量占比不足30%,增加再生铅产量,提高资源再生利用率及环境安全保障,建立完善的铅回收市场体系和环境管理体系,形成多元善治格局更趋重要且紧迫。首先,运用 SWOT 方法分析了铅酸蓄电池和铅回收产业发展态势;其次,将全生命周期管理、生产者责任延伸(EPR)、环境产权界定与交易和环境经济政策转型四个理论整合为铅酸蓄电池回收再生和污染治理善治属性;第三,构建铅酸蓄电池铅回收再生业态以及污染治理善治结构范式,并提出通过政府、企业、行业、消

  17. 阀控式铅酸蓄电池内阻分析%Analysis of internal resistance of valve-regulated lead acid batteries

    白海霞; 朱晨; 陈后金


    With the increasing capacity of modern power systems and communications systems, as an important part of DC battery back-up power supply, the higher reliability and stability of battery is required. For these stations of self-service watch and engine rooms of standby DC power, the routine monitoring and maintenance for battery is necessary. At some important substations, battery online-monitoring device is configured for real-time monitoring battery status. The battery's internal resistance is an important electrical parameter reflecting the battery performance. The internal resistance model of battery, impedance analysis, the measurement methods and the theory of VRLA battery's internal resistance was described, which provided a basis for further study to judge the performance of batteries. Finally, the future trends of battery online-monitoring were prospected and predicted.%随着电力系统和通讯系统容量的日益庞大,蓄电池组作为直流后备电源的重要组成部分,对其稳定性和可靠性提出了更高的要求,对这些无人职守站和机房后备直流电源进行日常的监测和维护是必不可少的,重要的变电站现在都配置了在线监测装置来实时的监测蓄电池组的状态.内阻是反映电池性能的重要参数,因此对蓄电池内阻模型、阻抗分析以及蓄电池在线监测的内阻测量方法和原理进行了探讨,为进一步研究判断蓄电池的性能提供了依据,对蓄电池在线监测的未来趋势进行了展望和预测.

  18. 电动汽车铅酸电池脉冲快速充电系统设计%Design of the Pulse-type Fast Speed Charging System of Lead-Acid Battery for Electric Car

    段朝伟; 张雷; 刘刚


    为了缩短电动汽车铅酸电池的充电时间,提高能量接受率,基于带放电电流脉宽调制技术,设计了汽车电池脉冲快速充电系统.该系统采用嵌入式控制和上位机监控相结合的方式,软硬设计合理,性能可靠.试验数据分析表明,该系统有效缓解了电池的极化现象,缩短了汽车铅酸电池的充电时间,提高了电池能量接受率.系统具有广泛的应用前景.%In order to shorten the charging time of the lead-acid battery for electric car,and improve the energy acceptance rate,based on current pulse width modulation technology with discharging,the pulse type fast speed charging system of the battery for electric car has been designed.By adopting embedded control and combining with host computer monitoring,the system is designed reasonably in hardware and software and offers reliable performance.The analysis of test data indicates that this system effectively alleviates the polarization phenomenon of battery,shortens the charging time of the lead-acid battery,and enhances the energy acceptance rate.The system possesses broad applicable prospects.

  19. 新千年前十年铅酸蓄电池的发展方向%Development of lead-acid batteries in the first decade of the new millennium



    The positions of lead-acid batteries (LAB) among all electrochemical power sources (EPS) as wellas of the new requirements of the battery market to this type of batteries were overviewed. Valve-regulatedlead-acid batteries were the least maintenance batteries, so the problems that had been solved or were still inthe process of solving so as to make VRLA batteries meet the basic performance requirements to EPS duringthe new decade were investigated. General considerations related to lead-acid batteries were followed by de-tailed descriptions of the processes that were of major importance for the performance of VRLAB. The in-fluence of additional (parasitic) reactions as well as on the efficiency of the closed oxygen cycle and the ther-mal problems related to its malfunction was discussed in details. Technical solutions to these problems wereproposed. Finally, some new LAB designs were discussed, which would occupy important positions on thebattery market during the next decade.%回顾了铅酸蓄电池(LAB)在所有电化学电源(EPS)中的地位以及电池市场对铅酸蓄电池新的要求。阀控式铅酸蓄电池(VRLAB)是需要最少维护的电池,重点讨论了已解决或正在解决的VRLA电池的基础性能,以满足未来10年电池市场对电化学电源的要求。在对那些对VRLAB性能有重要作用的过程进行详细论述之后,论述了研制铅酸蓄电池一般要考虑的问题。特别要注意附加反应对封闭氧气循环的利用率和热问题的影响。最后讨论了一些新型LAB设计,这些电池在未来10年的电池市场中将占有很重要的位置。

  20. Progress on electrode materials for lead acid flow battery based on electrolyte with soluble lead%全沉积型铅酸液流电池电极材料研究进展

    刘旭东; 毕孝国; 牛微


    A novel lead acid flow battery with no separator and a single electrolyte, lead (II) in organic acid, was described. The function and performance requirements of the electrode of lead acid flow battery were summed. The progress and recent development of the study on the electrode materials were reviewed. The results suggest that the most prospective electrode materials are the graphite felt and carbon foam and the study on the electrode modification is very important.%全沉积型铅酸液流电池是以可溶性二价铅离子在有机酸中的电沉积/溶解反应为充放电基础的新型储能装置.归纳了全沉积型铅酸液流电池电极的功能和性能要求,介绍了电极材料的研究进展情况.分析得到了当前最具应用前景的电极材料是碳素类和泡沫材料类,尤其是石墨毡和碳泡沫电极表面的改性研究是液流电池的一个重要研究方向.

  1. 国内外起停用铅酸蓄电池测试标准浅析%Analysis of the domestic and international standards of start-stop lead-acid batteries



    起停用铅酸蓄电池具有起动性能优异、使用寿命长、节能减排等特点,正被逐步应用于国内外乘用汽车。本文介绍了现阶段国内外起停用铅酸蓄电池标准情况,对国内外起停用铅酸蓄电池标准中主要测试项目和相应项目的主要差异进行了阐述。%The start-stop lead-acid batteries are being gradually applied to domestic and international passenger cars because of their advantages of good cranking performance, longer service life, energy-saving and emission-reduction. The currently domestic and international standards of start-stop lead-acid batteries are reviewed, and the main test items and their differences in these standards are summarized in this paper.

  2. Strap grid tubular plate—a new positive plate for lead-acid batteries. Processes of residual sulphation of the positive plate

    Pavlov, D.; Papazov, G.; Monahov, B.

    For almost a century now the tubular plate design has been based on cylindrical tubes and spines. The contact surface between the positive active mass (PAM) and the spine is small, which results in high polarisation of the plate at high discharge currents and low power output of the cell. In an attempt to eliminate these disadvantages, the shape of the tubes has been changed to flattened elliptic and the spines have been replaced by strap grids. The thickness of this new type of tubular plate, strap grid tubular plate (SGTP), is between 3 and 5 mm. Batteries with tubular plates of the new design (SGTP batteries) can be used in electric vehicle (EV) and photovoltaic (PV) system applications. This paper presents results of SGTP battery tests according to the European standards for EV, hybrid electric vehicle (HEV) and photovoltaic (PV) system batteries. SGTP batteries have a cycle life of 1000 ECE-15-EV cycles, 6000 ECE-HEV cycles and more than eight gross PV cycles. The optimum battery charge algorithm for VRLA batteries with strap grid tubular plates has been established and the mechanism of disintegration of the positive active mass has been disclosed. The following phenomena are responsible for the decline in capacity of the positive plates. First, when the PAM is built up of globules adhering closely to each other, a strong skeleton with thick aggregates (branches) with a membrane surface is formed. The surface layer of the branches impedes the access of H 2O and H 2SO 4 to their interior thus reducing the utilisation of the PAM. Besides, internal stresses are created in the aggregates, which cause them to crack. Secondly, when the PAM is built up of individual agglomerates with micropores in between, a porous mass with large surface is formed. The tubes keep the aggregates together and prolong the cycle life of the battery. During discharge, the contacts between the aggregates weaken and the capacity declines. Third, during discharge, the H 2SO 4 concentration

  3. 核电厂铅酸蓄电池充放电方式分析%The Analysis for Selection of the Lead-acid Battery Charging and Discharging Method

    刘宇; 李波; 孔凡华


    蓄电池作为直流系统的最后一道保护屏障,其运行状况、性能是直流系统安全稳定运行的决定性因素,而充放电试验是验证蓄电池运行状况的基本方法.文章以某核电铅酸蓄电池为例,着重介绍了铅酸蓄电池在不同工况下的充放电方式.通过查阅相关文献、调查研究并结合现场实际情况,对不同工况下蓄电池的充放电方式进行了确认;同时对不同充放电方式的适用范围及其优缺点进行了分析,为铅酸蓄电池组设计了合理的充放电方式选用方法,为铅酸蓄电池的安全稳定运行打下了坚实的基础.%The operation of battery,as the last barrier of DC system,determines the stable op-eration of the DC system. Capacity test is the basic way to verify the battery performance. This article takes the lead-acid battery of Fuqing Nuclear Power Plant as example,shows the different charging and discharging modes. The charging and discharging modes under different conditions are confirmed depending on relevant literature,investigation and the actual situation. The advantages and disadvantages of different charging and discharging modes,and also the scope of application are discussed in this paper. Areasonable charging and discharging method forlead-acid batteries is selected,which laid a solid foundation for the safe and stable operation of lead-acid battery.

  4. Research on Wastewater Treatment Technology of Lead Acid Battery Production%铅酸蓄电池生产废水治理技术应用研究



    We treated wastewater of waste storage battery recycle and battery making factory with combined processes of oxidation reduction, neutralization and effective coacervation. Total water amount was 208m3/d. Original wastewater indexes were: pH 1 -2, total lead 13. 5mg/L, SS 450mg/L. Total lead, pH and SS in treated wastewater could reach discharge standard.%采用“氧化还原+中和反应+高效凝聚”工艺处理废蓄电池回收和电池制造企业生产废水。总处理水量为208m^3/d;进水水质:pH:1-2、总铅:13.5mg/L、SS:450mg/L。经该工艺处理后,废水中的总铅、pH、SS等指标均能达标排放。

  5. 铅蓄电池项目环境影响评价中的清洁生产分析%Cleaner Production Analysis of Environmental Impact Assessment in Lead-acid Battery Industry

    邹迪; 杨光; 蒋海飞; 吴犇; 张寿生


      指出了清洁生产分析是环境影响评价工作的重要内容,依据国家环保部发布的《清洁生产标准铅蓄电池工业》,从生产工艺与设备水平、资源能源利用指标、产品指标、污染物产生指标、环境管理5个方面对某生产规模为34.56万kVAh/年的密闭免维护铅蓄电池项目的清洁生产水平进行了分析评价,得出了清洁生产分析结论,并提出了进一步提高项目清洁生产水平的建议。%  Cleaner production analysis is an important part of environmental impact assessment (EIA) .In accordance with Cleaner Production Standard - -Lead acid Battery Industry issued by the Ministry of Environmental Protection , this article analyzes and assesses the cleaner production level of a 34 .56 * 104 KVAh/year totally - enclosed maintenance - free lead acid battery production project from five aspects :production process and equipments , resources and energy consumption indicators ,product indicators ,pollutants generation indicators ,and environmental management .And it obtains the conclusions of cleaner production analysis and puts forward further suggestions for improving the cleaner production level of this project .

  6. Impact of lead-acid battery manufacturers on the environment and human lead burden%铅酸蓄电池厂对环境及人体铅负荷的影响

    潘丽波; 张金良; 刘玲


    The present paper intends to view and summary impact of lead-acid battery manufacturers on the environment and human lead burden based on the articles published from 1990 to 2011.To make this summary,we have searched the articles on the lead pollution and human body load through the dataset of CNKI,Science Direct database,PUBMED and Google Scholar.Finally,we have chosen 45 articles and surveys on the lead-acid battery manufacturers,including 34 battery manufacturers from 34 cities in 15 provinces of the country.The range of the average lead dust and lead fume reported in the workplace stands 0.032-2.880 mg/m3 and 0.027-0.710 mg/m3,respectively,which exceeded the national standard limitation with proportion of 0-100.0% and 25.0%-95.6%.The reported average blood lead levels (BLLs) and urinary lead level of workers were 138.0-869.4 μg/L and 0.28-1.24 μmol/L.Of them,0-100.0% and 4.8%-74.4% were higher than the general occupational exposure limits.The lead concentrations in the atmosphere,surface water and soil around the lead-acid battery manufacturers were 0.000 4-1 420.0 mg/ m3,0.003-29.925 mg/L and 0.05-2 980.00 mg/kg,respectively.The average BLLs of children nearby lead-acid battery manufacturers were 91.20-531.68μg/L,the percentage of elevated blood lead level was 8.9%-97.1%.All those suggested that there were series lead pollution in the workshops of lead-acid battery factories,China.The burden of lead for workers is higher,too.In addition,the surroundings nearby the battery factory have been contaminated by lead as well.The BLL among children living around the battery factory was higher than those living in urban or rural areas free from lead-emission industrious enterprise.%通过《中国知网》、Science Direct、PubMed、Google Scholar等数据库筛选19902011年发表的关于我国铅酸蓄电池企业对周边环境、职业人群及周围人群影响的文献44篇,涉及我国15个省的34个城市,分析了我国铅酸蓄电池厂

  7. The Modeling Method of High Capacity Lead-acid Storage Battery%大容量动力铅酸蓄电池建模方法

    杨占录; 张国庆; 王宗亮


    This paper introduces the battery's modeling method based on electrochemical mechanism, electrochemical empirical formula, equivalent circuit, and artificial neural networks. It reviews other modeling methods used for the battery, and compares the merits and shortcomings of those model methods.%分别介绍了基于电化学机理、电化学经验公式、等效电路以及基于神经网络的蓄电池建模方法,并对当前正在使用的其他蓄电池建模方法进行了概述。对建模方法的优缺点进行了对比。

  8. Bipolar lead acid batteries with ceramic partitioning walls. Forming and characterization of negative electrodes; Bipolaera blybatterier med keramiska mellanvaeggar. Tillverkning och karaktaerisering av negativa elektroder

    Nilsson, Ove; Haraldsen, Britta [Chalmers Univ. of Technology, Goeteborg (Sweden). Environmental Inorganic Chemistry


    Bipolar electrodes are built with positive and negative paste on each side of a partitioning wall (PW). The PW must be dimensional stable and shall not allow electrolyte to flow through. The process of lead infiltration in porous ceramic plates is studied in this report in combination with different methods of forming pos. and neg. halves. Plante formed negative paste can not withstand a high pressure - relief details must be included in the design. The expanders in NAM are necessary to maintain the capacity. Positive Plante formed electrodes are not proper formed due to a too high current density. Furthermore, they are very brittle. The usefulness of paste plates has been shown and the future work will be directed towards such bipolar electrodes to be included in prototype batteries.

  9. Influence of bismuth on the age-hardening and corrosion behaviour of low-antimony lead alloys in lead/acid battery systems

    Lam, L.T. [CSIRO, Div. of Mineral Products, Port Melbourne, VIC (Australia); Huynh, T.D. [CSIRO, Div. of Mineral Products, Port Melbourne, VIC (Australia); Haigh, N.P. [CSIRO, Div. of Mineral Products, Port Melbourne, VIC (Australia); Douglas, J.D. [CSIRO, Div. of Mineral Products, Port Melbourne, VIC (Australia); Rand, D.A.J. [CSIRO, Div. of Mineral Products, Port Melbourne, VIC (Australia); Lakshmi, C.S. [Pasminco Research Centre, Boolaroo, NSW (Australia); Hollingsworth, P.A. [Pasminco Research Centre, Boolaroo, NSW (Australia); See, J.B. [Pasminco Research Centre, Boolaroo, NSW (Australia); Manders, J. [Pasminco Ltd., Melbourne, VIC (Australia); Rice, D.M. [Pasminco Ltd., Melbourne, VIC (Australia)


    The effects of bismuth additions in the range 0.006-0.086 wt.% on the metallurgical and electrochemical properties of Pb-1.5 wt.% Sb alloy are investigated. The self-discharge behaviour of batteries produced with grids of the doped alloys is also evaluated. Addition of bismuth is found to exert no significant effects on the age-hardening behaviour, general microstructure or grain size of the alloy. It does, however, influence the morphology of the eutectic in the inter-dendritic regions. The latter changes from a mainly lamellar to an irregular type with increasing bismuth content. The corrosion rate of the grid decreases with increase of the bismuth content. Attack occurs preferentially in the inter-dendritic regions where there is an enrichment of both antimony and bismuth. Electron-probe microanalysis shows that the corrosion zone consists of a tri-layered structure, namely: a dense, continuous, inner layer (PbO{sub 1.1}); a central layer (PbO{sub 1.8}.PbSO{sub 4}); a porous outer layer n(PbO{sub 1.8}).PbSO{sub 4}, with n=2-8. In the latter, the value of n increases in the direction of corrosive penetration into the grid. Data from atomic absorption spectrometric analysis reveal that bismuth, after oxidative leaching from the grid substrate, is retained mainly in the corrosion layer. A key observation is that bismuth (i.e., up to {approx}0.09 wt.%) does not affect the self-discharge behaviour of batteries. (orig.)

  10. Operational experience and performance characteristics of a valve-regulated lead-acid battery energy-storage system for providing the customer with critical load protection and energy-management benefits at a lead-recycling plant

    Hunt, G. W.

    The Power Control Division of GNB Technologies, commissioned on May 13, 1996 a new facility which houses a 5-MW battery energy-storage system (BESS) at GNB's Lead Recycling Centre in Vernon, CA. When the plant loses utility power (which typically happens two or three times a year), the BESS will provide up to 5 MW of power at 4160 VAC in support of all the plant loads. Since the critical loads are not isolated, it is necessary to carry the entire plant load (maximum of 5 MVA) for a short period immediately following an incident until non-critical loads have been automatically shed. Plant loading typically peaks at 3.5 MVA with critical loads of about 2.1 MVA. The BESS also provides the manufacturing plant with customer-side-of-the-meter energy management options to reduce its energy demand during peak periods of the day. The BESS has provided a reduction in monthly electric bills through daily peak-shaving. By design, the battery can provide up to 2.5 MWh of energy and still retain 2.5 MWh of capacity in reserve to handle the possibility of a power outage in protecting the critical loads for up to 1 h. By storing energy from the utility during off-peak hours of the night in the batteries when the cost is low (US4.5¢ per kWh), GNB can then discharge this energy during high demand periods of the day (US14.50 per kW). For example, by reducing its peak demand by 300 kW, the lead-recycling centre can save over US4000 per month in its electric bills. The BESS at Vernon represents a first large-scale use of valve-regulated lead-acid batteries in such a demanding application. This paper presents a summary of the operational experience and performance characteristics of the BESS over the past 2 years.

  11. [Distribution characteristics of lead in different particle size fractions of surface soil of a lead-acid battery factory contaminated site].

    Yue, Xi; Sun, Ti-chang; Huang, Jin-lou


    In this research, six topsoil samples (0-20 cm) were collected in the heavy-metal lead contaminated soil of one lead battery factory in south-west China as research object, which were later divided into seven particle size fractions, and analyzed for the lead concentration as well as the correlation between the lead concentration and the organic matter content. The result showed that five soil samples were contaminated with lead with different pollution levels, and there were two different trends in the changes of lead concentration as of the change of soil particle size. The lead concentration of the three samples from sewage treatment workshop, the workshop A and the workshop B, showed a first declining and then ascending trend with the decreasing particle size. The lead concentration of the soil samples of the packing workshop and the former production workshop A showed a decreasing trend when the particle size decreased. The lead concentration and the organic matter content showed a positive linear correlation (R2 = 0.8232). Soil organic matter has the ability of lead enrichment, and the ability declines with the decreasing particle size. Soil texture may be an important factor for the interaction between soil organic matter and lead distribution.

  12. Effect of lignosulfonates on the performance of lead-acid battery negative plate%木素磺酸钠对铅酸电池负极性能的影响

    付颖达; 唐有根; 宋永江; 胡菁


    Effect of lignosulfonates on the capacity and cycle performance under high-rate partial-star-of-charge(HRPSoC) of lead-acid battery negative plate was studied. With the content of lignosulfonates increased from 0.2% to 0.6%, the initial capacity of battery increased from 6.262 Ah to 6.781 Ah, but the cycle life of negative under HRPSoC decreased from 6215 times to 4202 times. Lignosulfonates adsorbed on the surface of lead impeded eharge process, which led the increasing of polarization in charge process.%研究了木素磺酸钠对铅酸电池负极容量和高倍率部分荷电状态(HRPSoC)下循环性能的影响.随着木素磺酸钠的含量从0.2%增加到0.6%,电池的初始容量从6.262 Ah增加到6.781 Ah,但HRPSoC时,负极的循环寿命由6 215次减少到4 202次.木素磺酸钠吸附在铅表面阻碍了充电过程,导致充电过程的极化增大.

  13. International Lead Zinc Research Organization-sponsored field-data collection and analysis to determine relationships between service conditions and reliability of valve-regulated lead-acid batteries in stationary applications

    Taylor, P.A. [Energetics, Columbia, MD (United States); Moseley, P.T. [International Lead Zinc Research Organization, Research Triangle Park, NC (United States); Butler, P.C. [Sandia National Labs., Albuquerque, NM (United States)


    The International Lead Zinc Research Organization (ILZRO), in cooperation with Sandia National Laboratories, has initiated a multi-phase project with the following aims: to characterize relationships between valve-regulated lead-acid (VRLA) batteries, service conditions, and failure modes; to establish the degree of correlation between specific operating procedures and PCL; to identify operating procedures that mitigate PCL; to identify best-fits between the operating requirements of specific applications and the capabilities of specific VRLA technologies; to recommend combinations of battery design, manufacturing processes, and operating conditions that enhance VRLA performance and reliability. In the first phase of this project, ILZRO has contracted with Energetics to identify and survey manufacturers and users of VRLA batteries for stationary applications (including electric utilities, telecommunications companies, and government facilities). The confidential survey is collecting the service conditions of specific applications and performance records for specific VRLA technologies. From the data collected, Energetics is constructing a database of the service histories and analyzing the data to determine trends in performance for particular technologies in specific service conditions. ILZRO plans to make the final report of the analysis and a version of the database (that contains no proprietary information) available to ILZRO members, participants in the survey, and participants in a follow-on workshop for stakeholders in VRLA reliability. This paper presents the surveys distributed to manufacturers and end-users, discusses the analytic approach, presents an overview of the responses to the surveys and trends that have emerged in the early analysis of the data, and previews the functionality of the database being constructed. (orig.)

  14. A critical overview of definitions and determination techniques of the internal resistance using lithium-ion, lead-acid, nickel metal-hydride batteries and electrochemical double-layer capacitors as examples

    Piłatowicz, Grzegorz; Marongiu, Andrea; Drillkens, Julia; Sinhuber, Philipp; Sauer, Dirk Uwe


    The internal resistance (Ri) is one of the key parameters that determine the current state of electrochemical storage systems (ESS). It is crucial for estimating cranking capability in conventional cars, available power in modern hybrid and electric vehicles and for determining commonly used factors such as state-of-health (SoH) and state-of-function (SoF). However, ESS are complex and non-linear systems. Their Ri depends on many parameters such as current rate, temperature, SoH and state-of-charge (SoC). It is also a fact that no standardized methodologies exist and many different definitions and ways of Ri determination are being used. Nevertheless, in many cases authors are not aware of the consequences that occur when different Ri definitions are being used, such as possible misinterpretations, doubtful comparisons and false figures of merit. This paper focuses on an application-oriented separation between various Ri definitions and highlights the differences between them. The investigation was based on the following technologies: lead-acid, lithium-ion and nickel metal-hydride batteries as well as electrochemical double-layer capacitors. It is not the target of this paper to provide a standardized definition of Ri but to give researchers, engineers and manufacturers a possibility to understand what the term Ri means in their own work.

  15. Aseismic Test of Stationary Lead-acid Batteries and Brackets Based on Nuclear Safety Level%核安全级固定型铅酸蓄电池组及支架抗震试验研究

    杨勇; 宫必宁; 张莹莹


    According to the aseismic test of stationary lead acid batteries and the brackets with nuclear safety level,the mathematical model is established to calculate the seismic response of the brackets by using finite element response spectrum method and equivalent static method. Compared with the experimental data, the results show that the response spectrum finite element method has better precision and reasonableness than the equivalent static method, which also has a conservative margin.%基于核安全级固定型铅酸蓄电池组及支架抗震试验,构建了相应数学分析模型,采用反应谱有限元法和等效静力法计算了支架地震响应,并与试验数据进行了对比.结果表明,反应谱有限元计算结果相对于等效静力计算结果相对精确、合理,且有一定保守裕度.

  16. A comparison of portable XRF and ICP-OES analysis for lead on air filter samples from a lead ore concentrator mill and a lead-acid battery recycler.

    Harper, Martin; Pacolay, Bruce; Hintz, Patrick; Andrew, Michael E


    Personal and area samples for airborne lead were taken at a lead mine concentrator mill, and at a lead-acid battery recycler. Lead is mined as its sulfidic ore, galena, which is often associated with zinc and silver. The ore typically is concentrated, and partially separated, on site by crushing and differential froth flotation of the ore minerals before being sent to a primary smelter. Besides lead, zinc and iron are also present in the airborne dusts, together with insignificant levels of copper and silver, and, in one area, manganese. The disposal of used lead-acid batteries presents environmental issues, and is also a waste of recoverable materials. Recycling operations allow for the recovery of lead, which can then be sold back to battery manufacturers to form a closed loop. At the recycling facility lead is the chief airborne metal, together with minor antimony and tin, but several other metals are generally present in much smaller quantities, including copper, chromium, manganese and cadmium. Samplers used in these studies included the closed-face 37 mm filter cassette (the current US standard method for lead sampling), the 37 mm GSP or "cone" sampler, the 25 mm Institute of Occupational Medicine (IOM) inhalable sampler, the 25 mm Button sampler, and the open-face 25 mm cassette. Mixed cellulose-ester filters were used in all samplers. The filters were analyzed after sampling for their content of the various metals, particularly lead, that could be analyzed by the specific portable X-ray fluorescence (XRF) analyzer under study, and then were extracted with acid and analyzed by inductively coupled plasma optical emission spectroscopy (ICP-OES). The 25 mm filters were analyzed using a single XRF reading, while three readings on different parts of the filter were taken from the 37 mm filters. For lead at the mine concentrate mill, all five samplers gave good correlations (r2 > 0.96) between the two analytical methods over the entire range of found lead mass

  17. Effect of graphite content on the properties of positive plate of lead-acid battery%石墨量对铅酸电池正极板性能的影响

    陈昱萦; 赵棉; 张彦杰; 赵婧; 李勇; 陈志雪; 王梦阳; 丁克强


    The different content of graphite was added into the positive paste of lead-acid battery used in industry. Then the positive plates made of graphite-doped paste after the industrial process were assembled with conventional negative plates to be small cells. The electrochemical performance of the simulated cells was thoroughly investigated. The prepared graphite-doped positive plates were characterized by XRD, SEM and EDS. The results indicated that the positive plates with 0.5 g graphite and 25g lead oxidy had higher discharge capacity. Three contacting modes of lead grid, graphite particles and lead paste were proposed to interpret the obtained results.%在工业用铅酸电池正极铅膏中添加了不同量的石墨,经工业工艺处理后使之成为正极板,之后与常规的负极板构成小电池。对所得到的小电池进行了放电试验。同时,本文利用 XRD、SEM、EDS等技术对添加不同量石墨的正极材料进行了表征。结果表明,向正极铅膏(约25 g铅粉)中添加0.5 g石墨的电池具有较高的放电容量。为解释不同石墨掺杂量对铅酸电池正极材料性能的影响机理,本文提出了铅板栅、石墨颗粒与铅膏颗粒的三种接触方式。

  18. 基于飞轮储能和蓄电池的微电网控制策略%Control strategy of microgrid based on flywheel storage and lead-acid battery

    刘霞; 江全元


    微电网作为一特殊的电网运行方式,可运行在并网和孤岛两种模式下.对微电网中的电源及整个微网进行有效控制是微电网技术中的关键.为保证微电网的稳定可靠运行,并在运行模式改变时,完成有效、平滑的切换,在构建不同类型的分布式电源的基础上,提出了以蓄电池为主电源,用飞轮保证不间断供电的微电网系统协调控制方法.该控制方法保证了微电网经济、稳定运行和良好的供电质量,并且能够在微网运行模式切换过程中维持其内部不间断供电并大幅减少暂态冲击,迅速过渡到稳态运行.建模仿真结果证明了该控制策略的有效性和精确性.%As a special way of grid running, microgrid can operate in both grid-connected mode and isolated mode. Effective control strategy for distrbuted sources and the whole microgrid is the key technology of microgrid. To ensure stable and reliable operation of the microgrid,effective and smooth switch between different operating modes,a coordinated control method of using lead-acid battery as the main source and the flywheel to keep uninterrupted power supply was proposed based on modeling different kinds of distributed source. The stabile operation and good quality of power supply were guaranteed by this method. The uninterrupted power supply for load in the microgrid during switching process between the two modes was ensured,as well as the transient oscillation was dramatically reduced for transiting to the steady stale swiftly. Modeling and simulation results show the efficiency and precision of the proposed method.

  19. Batteries for Electric Vehicles

    Conover, R. A.


    Report summarizes results of test on "near-term" electrochemical batteries - (batteries approaching commercial production). Nickel/iron, nickel/zinc, and advanced lead/acid batteries included in tests and compared with conventional lead/acid batteries. Batteries operated in electric vehicles at constant speed and repetitive schedule of accerlerating, coasting, and braking.

  20. Optimal shifting of Photovoltaic and load fluctuations from fuel cell and electrolyzer to lead acid battery in a Photovoltaic/hydrogen standalone power system for improved performance and life time

    Tesfahunegn, S. G.; Ulleberg, Ø.; Vie, P. J. S.; Undeland, T. M.

    Cost reduction is very critical in the pursuit of realizing more competitive clean and sustainable energy systems. In line with this goal a control method that enables minimization of the cost associated with performance and life time degradation of fuel cell and electrolyzer, and cost of battery replacement in PV/hydrogen standalone power systems is developed. The method uses the advantage of existing peak shaving battery to suppress short-term PV and load fluctuations while reducing impact on the cycle life of the battery itself. This is realized by diverting short-term cyclic charge/discharge events induced by PV/load power fluctuations to the upper band of the battery state of charge regime while operating the fuel cell and electrolyzer systems along stable (smooth) power curves. Comparative studies of the developed method with two other reference cases demonstrate that the proposed method fares better with respect to defined performance indices as fluctuation suppression rate and mean state of charge. Modeling of power electronics and design of controllers used in the study are also briefly discussed in Appendix A.

  1. Understanding the function and performance of carbon-enhanced lead-acid batteries : milestone report for the DOE energy storage systems program (FY11 Quarter 3: April through June 2011).

    Ferreira, Summer Rhodes; Shane, Rodney (East Penn Manufacturing, Lyon Station, PA); Enos, David George


    This report describes the status of research being performed under CRADA No. SC10/01771.00 (Lead/Carbon Functionality in VRLA Batteries) between Sandia National Laboratories and East Penn Manufacturing, conducted for the U.S. Department of Energy's Energy Storage Systems Program. The Quarter 3 Milestone was completed on time. The milestone entails an ex situ analysis of a control as well as three carbon-containing negative plates in the raw, as cast form as well as after formation. The morphology, porosity, and porosity distribution within each plate was evaluated. In addition, baseline electrochemical measurements were performed on each battery to establish their initial performance. These measurements included capacity, internal resistance, and float current. The results obtained for the electrochemical testing were in agreement with previous evaluations performed at East Penn manufacturing. Cycling on a subset of the received East Penn cells containing different carbons (and a control) has been initiated.

  2. 铅酸电池的不一致性与均衡充电的研究%Research on the Inequality of Lead Acid Batteries and Equalizing Charge

    麻友良; 陈全世


    由于应用于电动汽车的铅酸电池的性能参数的不一致性而导致使用过程中其性能参数差别扩大,是电池使用寿命短并造成电动汽车性能下降的重要因素。本文分析了电池性能差别扩大的原因以及各种不同均衡方法的可用性,提出了切合实际的均衡充电定义,并以试验结果予以验证。%In EVs the batteries' capability parameters demonstrate an inequality. What is more, the inequality becomes more and more serious with the use of batteries. This is an important factor which leads to batteries' shortened life-span and the reduced energy using rate and poorer performance of EVs. This paper has analyzed the features and practicability of different equalizing charging methods.With the analysis ,a practical equalizing charge is proposed, which has been proved to be effective by experiments.

  3. The Photovoltaic Charger Based on Supercapacitor-Lead Acid Battery Hybrid Energy Storage%超级电容-铅酸蓄电池混合储能的太阳能充电器

    林建南; 郭震宁; 刘祖隆


    独立型太阳能照明系统存在铅酸蓄电池使用寿命短且弱光条件下系统充电能力不足的缺点,为了改进系统性能,文中设计了基于超级电容-铅酸蓄电池混合储能的太阳能充电器,采用UC3909智能管理芯片实现对铅酸蓄电池具有温度补偿功能的的四阶段充电管理;并利用超级电容器组及升降压转换电路实现弱光充电功能,优化铅酸蓄电池充放电过程,提高系统效率及稳定性。%The stand-alone photovoltaic lighting system has some shortcomings such as lead acid storage battery's short-life and the insufficiency of system charging ability.To improve the system's performance,this paper designs a solar charger based on supercapacit

  4. Evaluation of Pb and Fe tenors present in the sediments nearby the activities of taking advantage of lead-acid batteries; Avaliacao dos teores de Pb e Fe presentes nos sedimentos proximos as atividades de reaproveitamento de baterias chumbo-acidas

    Soares, Fernanda; Andrade, Crescencio; Monteiro, Carlos; Oliveira, Daniela; Valentim, Eliane, E-mail:, E-mail: [Centro Regional de Ciencias Nucleares (CRCN/NE-CNEN/PE), Recife, PE (Brazil)


    The region chosen for this study was the Municipality of Belo Jardim, Pernambuco State, Brazil, which is considered an important industrial complex of the production and repairing of lead-acid batteries. Sediment samples were collected near to the illegal smelting industries and analyzed by ionic exchange method using a alpha-beta proportional counter for determining the activity of Pb-210, radionuclide used as geochronological tool. The chemical elements Pb and Fe were determined by means of flame atomic absorption spectrometry. The obtained results indicated an expressive increasing of lead and iron concentrations in the last 20 years. The concentrations in the sampled profile varied from 318 to 15487 and from 19 to 1524 for Fe and Pb, respectively. (author)

  5. 新千年前十年铅酸蓄电池的发展方向%Development of lead-acid batteries in the first decade of the new millennium



    @@[续Continue 2001,25(1):9] 2.2.4 AGM separator For proper operation of the VRLA battery the AGM separator shall have the following characteristics: (a)high absorptivity of H2SO4 electrolyte; (b)high porosity, i.e. low electrical resistance; (c)small diameter of the pores to prevent Pb dendrites growth and formation of short circuits; (d)presence of a definite amount of pores with larger diameters along which the O2 flow could move;these pores should have high tortuosity to avoid short circuits; (e)chemical stability to H2SO4 and O2 attack and no leaches in solution which would increase gassing in the battery; (f)high compressibility so as to maintain the electrical contact with PAM and NAM.

  6. Discussions on denitration technology for exhaust gas of coke oven battery%焦炉烟气脱硝工艺技术探讨

    李良华; 刘杰; 曹银平


    介绍了控制焦炉烟气氮氧化物生成的低氮燃烧技术和焦炉烟气脱硝技术,阐述了干法和湿法烟气脱硝技术的适用性和需解决的问题。%This paper introduces the low-nitrogen combustion technology to control NOx generation in exhaust gas of coke oven battery and the denitration technology for exhaust gas,and it also elaborates the applicability of dry denitration and wet denitration method and the problems to be solved.

  7. Effects of grid alloy on the properties of positive-plate corrosion layers in lead/acid batteries. Implications for premature capacity loss under repetitive deep-discharge cycling service

    Hollenkamp, A. F.; Constanti, K. K.; Koop, M. J.; Apateanu, L.; Calabek, M.; Micka, K.


    Premature capacity loss (PCL) has been demonstrated consistently by the deep-discharge cycling of three-plate lead/acid cells configured with an excess of electrolyte. A capacity loss of approximately 2% per cycle was observed with cells based on tin-free, lead-calcium positive grids, under both constant-current and constant-voltage charging. The current that flows during constant-voltage charging decreases markedly within the first few cycles. This coincides with the establishment of an appreciable corrosion layer on the grid, and also with the onset of severe capacity loss. Significantly, there is no corresponding build-up of lead sulfate within the porous mass. With constant-current charging, a change in the overcharge factor, from 1.1 to 1.2, approximately doubles the rate of capacity loss. The corrosion products in lead-calcium plates exhibit a bi-layered structure: an outer corrosion layer of PbO2 and an inner layer in which the composition approaches PbO. These materials are prone to fracture and separation, especially between the two layers. Cells based on lead-antimony positive grids also suffer PCL, but the rate of capacity loss (approximately 1% per cycle) is less than that observed for the lead-calcium analogues. The current under constant-voltage charging of lead-antimony cells also decreases during the first few charge/discharge cycles, yet, this effect is over-shadowed by an increase in current due to the effects of antimony migration. Increasing the level of overcharge under constant-current charging produces only a slight reduction in cycle life. In regions close to the grid, PbO-like material is much less abundant than in lead-calcium plates. The corrosion products are composed mainly of PbO2, and are more coherent under stress. Resistance at the grid/porous material interface, measured in situ, increases greatly during discharge for plates based on lead-calcium grids, but much less for the corresponding lead-antimony plates. This tends to

  8. The Fault tree analysis of the lead acid battery’s degradation

    K. BRIK


    Full Text Available In this paper the authors present an approach of reliability to analyze lead-acid battery’s degradation. The construction of causal tree analysis offers a framework privileged to the deductive analysis which consists in seeking the various possible combinations of events leading to the loss of batteries capacity. The description of the causality chain is completed by a fault tree analysis (FTA established from the equivalent electric circuit of battery.

  9. The Fault tree analysis of the lead acid battery’s degradation



    In this paper the authors present an approach of reliability to analyze lead-acid battery’s degradation. The construction of causal tree analysis offers a framework privileged to the deductive analysis which consists in seeking the various possible combinations of events leading to the loss of batteries capacity. The description of the causality chain is completed by a fault tree analysis (FTA) established from the equivalent electric circuit of battery.

  10. Discussion on The Problems of Lead-acid Battery Projects about Environmental Protection Check and Acceptance Monitoring%铅酸蓄电池项目竣工环保验收监测中有关问题的探讨

    柴敏平; 王东方; 康长安; 曾珍英; 罗勇


    根据建设项目竣工环境保护验收规范要求,结合工作实践,从项目的产能核算及验收监测工况的控制、废气处理设施、废水处理设施、环境管理检查及铅排放总量的计算等方面归纳了铅酸蓄电池项目竣工环境保护验收监测工作中应注意的技术问题,并提出存在的问题及建议,为建设项目竣工环保验收监测工作及环保主管部门提供参考。%According to regulation of construction Project comPletion check and accePtance for envi-ronmental Protection and working Practice,this PaPer analyzes some technical issues in lead-acid bat-tery Projects such as caPacity calculation,monitoring condition control,waste gas and waste water Processing facilities,environmental management examination,the calculation method of the total quantity. And then Put forward the existing Problems and suggestions for the construction Project comPletion environmental Protection accePtance monitoring work,so as to offer reference to the com-Petent dePartment of environmental Protection.

  11. Avaliação e diagnóstico das condições de trabalho em duas indústrias de baterias chumbo-ácidas no Estado do Rio de Janeiro Evaluation and diagnosis of working conditions in two lead-acid batteries industries in the State of Rio de Janeiro

    Ubirajara Aluizio de Oliveira Mattos


    Full Text Available A análise do processo produtivo e das condições de trabalho em fábricas de baterias chumbo-ácidas apresenta uma gama de informações mais completas do que as que têm sido discutidas até então. O presente estudo analisa o processo produtivo de duas indústrias de baterias no Rio de Janeiro. A metodologia utilizada aborda o assunto de uma forma qualitativa, utilizando como ferramentas entrevistas estruturadas com os trabalhadores e análise do ambiente de trabalho. O principal objetivo deste artigo é mostrar uma metodologia de análise com visão ambiental ressaltando os riscos inerentes a estas atividades com uso de mapas de riscos, através de sua construção nos ambientes estudados. Os resultados sugerem um conjunto de recomendações, baseadas na literatura científica e nas normas de segurança e medicina do trabalho explicitadas pela legislação brasileira.The analysis of the productive process and work conditions in companies of lead-acid batteries presents a range of more complete information than the ones that have been discussed for others companies up to now for its low technology profile. The present study analyzes the productive process of two industries of batteries in Rio de Janeiro. The used methodology approaches the subject in a qualitative point of view, using tools as: worker's structured interviews and analysis of the work conditions, under an environmental concept. Thus, the main objective of this paper is to present a methodology including environment concept on work conditions and point out the inherent risks of these activities by construction of risk's maps. The results has suggested some recommendations, based on scientific knowledge so as safety and occupational health norms, adopted in Brazilian Legislation. Besides that it is pointed out the absolute necessity of general discussion with laborers’ participation.

  12. 某铅酸蓄电池企业周围土壤铅污染水平及儿童健康状况%Soil Lead Levels around a Lead-Acid Battery Factory and Health Status of Pupils at Nearby Primary Schools

    胡飞飞; 周倩倩; 张正东; 张恒东; 朱宝立; 周连; 龚伟; 仲立新; 陈晓东


    [目的]调查某铅酸蓄电池企业对周围土壤污染及儿童健康的影响,为改善环境,防治儿童铅中毒提供有效依据. [方法]按照国家相关标准方法采集该企业上、下风向不同距离环境样品,并对其附近的2所小学中184名儿童进行健康检查,运用石墨炉原子吸收分光光度计测定环境样品铅含量以及儿童血铅值. [结果]下风向区域土壤铅含量均明显高于上风向区域(P<0.05);表层土壤、植物根部土壤样品超标率分别为1.75%、9.68%(4份油菜花样品均超标);下风向区10、50m处植物根部土壤铅平均浓度高于土壤环境质量二级标准,达到轻度污染程度,其余距离处的铅平均浓度均低于该标准;A小学儿童平均血铅水平(42.27μg/L)明显高于B小学(37.75 μg/L)(P<0.05);儿童血红蛋白值与血铅水平呈负相关(P=0.013),男、女性儿童之间血铅水平尚未发现统计学差异;不同血铅水平与儿童贫血有关(P=0.032),尚未发现血铅水平对儿童视力、龋齿、尿常规有影响. [结论]该企业对周围土壤存在一定程度的污染, 尚未发现其显著影响周围儿童的健康状况,仍需加紧采取有效的铅污染预防控制措施.%[ Objective ] To investigate the impact of a lead-acid battery company on the surrounding soil and nearby pupils, and provide evidence for improving the environment and childhood lead poisoning prevention. [ Methods ] Environmental samples at different distances upwind and downwind in the vicinity of a lead-acid factory were collected in accordance with relevant national standards. Medical examinations were carried out of 184 pupils at 2 nearby primary schools. Lead concentrations in environmental samples and pupils' blood were analyzed using graphite furnace atomic absorption spectrophotometer. [ Results ] The average lead contents in soil samples downwind were significantly higher than those in soil samples upwind (P<0.05). The

  13. Relativity and the mercury battery.

    Zaleski-Ejgierd, Patryk; Pyykkö, Pekka


    Comparative, fully relativistic (FR), scalar relativistic (SR) and non-relativistic (NR) DFT calculations attribute about 30% of the mercury-battery voltage to relativity. The obtained percentage is smaller than for the lead-acid battery, but not negligible.

  14. Review of storage battery system cost estimates

    Brown, D.R.; Russell, J.A.


    Cost analyses for zinc bromine, sodium sulfur, and lead acid batteries were reviewed. Zinc bromine and sodium sulfur batteries were selected because of their advanced design nature and the high level of interest in these two technologies. Lead acid batteries were included to establish a baseline representative of a more mature technology.

  15. High Threshold for Lead Accumulators Helps the Battery Industry to Recover in Q2


    <正>Along with release of relevant access conditions of the lead acid accumulator industry and increasing popularity of new-type batteries including lithium battery and lead-carbon battery, etc., the battery industry recovered in the first

  16. 46 CFR 111.15-2 - Battery construction.


    ... that of a similar size lead-acid battery under similar charging condition. (d) Batteries must be... 46 Shipping 4 2010-10-01 2010-10-01 false Battery construction. 111.15-2 Section 111.15-2 Shipping... REQUIREMENTS Storage Batteries and Battery Chargers: Construction and Installation § 111.15-2 Battery...

  17. Battery Technology Stores Clean Energy


    Headquartered in Fremont, California, Deeya Energy Inc. is now bringing its flow batteries to commercial customers around the world after working with former Marshall Space Flight Center scientist, Lawrence Thaller. Deeya's liquid-cell batteries have higher power capability than Thaller's original design, are less expensive than lead-acid batteries, are a clean energy alternative, and are 10 to 20 times less expensive than nickel-metal hydride batteries, lithium-ion batteries, and fuel cell options.

  18. Electric-vehicle batteries

    Oman, Henry; Gross, Sid


    Electric vehicles that can't reach trolley wires need batteries. In the early 1900's electric cars disappeared when owners found that replacing the car's worn-out lead-acid battery costs more than a new gasoline-powered car. Most of today's electric cars are still propelled by lead-acid batteries. General Motors in their prototype Impact, for example, used starting-lighting-ignition batteries, which deliver lots of power for demonstrations, but have a life of less than 100 deep discharges. Now promising alternative technology has challenged the world-wide lead miners, refiners, and battery makers into forming a consortium that sponsors research into making better lead-acid batteries. Horizon's new bipolar battery delivered 50 watt-hours per kg (Wh/kg), compared with 20 for ordinary transport-vehicle batteries. The alternatives are delivering from 80 Wh/kg (nickel-metal hydride) up to 200 Wh/kg (zinc-bromine). A Fiat Panda traveled 260 km on a single charge of its zinc-bromine battery. A German 3.5-ton postal truck traveled 300 km with a single charge in its 650-kg (146 Wh/kg) zinc-air battery. Its top speed was 110 km per hour.

  19. Field experience and improvements with thin tubular-plate lead/acid technology

    Merz, K.D. [CMP Batteries, Bolton (United Kingdom)


    The Classic 25 is the product name for a motive-power lead/acid cell using thin positive tubular plates. This cell was developed for use in electric vehicles and other applications where high specific energy and reliable cycle life is required. It would appear that the best approach is to provide a lead/acid battery that has the highest specific energy while still maintaining excellent cycle life. This technology was implemented by use of 6 V modules, followed by a 2-V design. Since this was first introduced in 1989, more than 20 000 cells and monoblocs have been delivered to various electric vehicle applications such as vans, trucks, and buses. The field experience with this product is therefore excellent, and development is continuing on the battery design and manufacturing techniques to improve performance and life even further. Today, a wide range of products using this technology is available, and the latest developments are a new 6 V monobloc and some maintenance-free cells. (orig.)

  20. Bipolar lead-acid power source (BILAPS) for hybrid vehicles

    Schmal, D.; Saakes, M.; Mourad, S.; Have, P. ten


    In hybrid electric vehicles (HEV's) the requirements on batteries for energy storage are completely different from those in battery powered electric vehicles (BEV's). In order to come to a succesful development of HEV's, beside fullfilling the technical requirements, the battery has to have a long

  1. Bipolar lead-acid power source (BILAPS) for hybrid vehicles

    Schmal, D.; Saakes, M.; Mourad, S.; Have, P. ten


    In hybrid electric vehicles (HEV's) the requirements on batteries for energy storage are completely different from those in battery powered electric vehicles (BEV's). In order to come to a succesful development of HEV's, beside fullfilling the technical requirements, the battery has to have a long l

  2. Bipolar lead-acid power source (BILAPS) for hybrid vehicles

    Schmal, D.; Saakes, M.


    In hybrid electric vehicles (HEV's) the requirements on batteries for energy storage are completely different from those in battery powered electric vehicles (BEV's). In order to come to a succesful development of HEV's, beside fullfilling the technical requirements, the battery has to have a long l

  3. Prediction of Retained Capacity and EODV of Li-ion Batteries in LEO Spacecraft Batteries


    In resent years ANN is widely reported for modeling in different areas of science including electro chemistry. This includes modeling of different technological batteries such as lead acid battery, Nickel cadmium batteries etc. Lithium ion batteries are advance battery technology which satisfy most of the space mission requirements. Low earth orbit (LEO)space craft batteries undergo large number of charge discharge cycles (about 25000 cycles)compared to other ground level or space application...

  4. Physics-based simulation of the impact of demand response on lead-acid emergency power availability in a datacenter

    Mamun, A.; Wang, D.; Narayanan, I.; Sivasubramaniam, A.; Fathy, H. K.


    This paper uses a one-dimensional, physics-based model of a valve-regulated lead-acid (VRLA) battery to examine the impact of demand response on uninterruptible power supply (UPS) availability in a datacenter. Datacenters are facilities that provide services such as cloud computing, web search, etc. They are also large electricity consumers. An energy-efficient 15 MW datacenter, for instance, may pay 1 m per month for electricity. Datacenters often utilize VRLA batteries to ensure high reliability in serving their computational demand. This motivates the paper's central question: to what extent does the use of datacenter UPS batteries for demand response affect their availability for their primary purpose (namely, emergency power)? We address this question using a physics-based model of the coupled diffusion-reaction dynamics of VRLA batteries. We discretize this model using finite differences, and simulate it for different datacenter battery pack sizes. The results show that for a typical datacenter power demand profile, a VRLA battery pack sized for UPS functionality can provide demand response with only a minimal loss of UPS availability.

  5. Battery. Batterie

    Thiem, U.; Thielen, C.


    The invention concerns a battery consisting of at least one battery trough, which surrounds individual cells and has a lower inlet opening to connect to a pressurized pipe for a gaseous cooling medium; in its inside it has a lower distribution device for the cooling medium connected to the inlet opening and connected guide ducts taken through the internal space, and at least one upper outlet opening for the cooling medium. To achieve a better cooling system, it is proposed that the battery trough should surround several trough modules, which consist of a module container, whose floor has floor openings flush with the flow ducts between the individual cells and that the distribution device should have vertical separating bars, to the top edge of which the floor of the module container concerned is sealed.

  6. Field Operations Program Chevrolet S-10 (Lead-Acid) Accelerated Reliability Testing - Final Report

    J. Francfort (INEEL); J. Argueta; M. Wehrey (Southern California Edison); D. Karner; L. Tyree (Electric Transportation Applications)


    This report summarizes the Accelerated Reliability testing of five lead-acid battery-equipped Chevrolet S-10 electric vehicles by the US Department of Energy's Field Operations Program and the Program's testing partners, Electric Transportation Applications (ETA) and Southern California Edison (SCE). ETA and SCE operated the S-10s with the goal of placing 25,000 miles on each vehicle within 1 year, providing an accelerated life-cycle analysis. The testing was performed according to established and published test procedures. The S-10s' average ranges were highest during summer months; changes in ambient temperature from night to day and from season-to-season impacted range by as much as 10 miles. Drivers also noted that excessive use of power during acceleration also had a dramatic effect on vehicle range. The spirited performance of the S-10s created a great temptation to inexperienced electric vehicle drivers to ''have a good time'' and to fully utilize the S-10's acceleration capability. The price of injudicious use of power is greatly reduced range and a long-term reduction in battery life. The range using full-power accelerations followed by rapid deceleration in city driving has been 20 miles or less.

  7. Portable Battery Charger Berbasis Sel Surya

    Budhi Anto


    Full Text Available A type of solar battery charger is introduced in this paper. This equipment functions as a medium size rechargeable battery that is needed to move culinary merchants and coastal fishermen living in area which is not supplied by electrical networks. The equipment consists of solar module mounted onto portable mechanical construction, a 12-V 7.5-Ah lead acid battery and charge controller. Solar module charges the battery through charge controller and then the battery can be discharged to power on electric lamps for lightening culinary wagon or fisherman’s boat at night. Charge controller charges the battery with float charging which is implemented by maintaining 13.5 Volt between battery terminals and limiting the charging current to 1.5 Amperes. Charge controller circuit is based on adjustable linear voltage regulator LM338. The battery is of sealed lead acid type. This type of battery is maintenance free and more hygiene than other types of lead acid battery. The field experiment of charging the baterry of 50% residual capacity from 8 am to 4 pm under sunny weather shows that the solar module has charged the battery to its full capacity under battery safe charging conditions.Keywords: portable solar battery charger, float charging, LM338

  8. 'Breathing' of the lead-acid battery negative plate during cycling

    Pavlov, D.; Ignatova, S.


    By measuring the thickness of the negative plates with and without an expander, during cycling, it was established that the active mass volume pulsates, expanding during discharge and shrinking during charge. This phenomenon is due to the mechanical stress in the lead skeleton structure caused by the PbSO/sub 4/ crystals. At each pulsation of the plate, slight changes in the structural parameters of the active mass are observed. These changes accumulate during cycling causing expansion or shrinking of the active mass. As a result of this the capacity of the plate decreases. These changes in the plate structure depend strongly on the expander.

  9. Evolution history of lead-acid battery%铅酸蓄电池演变史



    @@ 铅酸蓄电池是最古老的蓄电池,1859年法国物理学家普兰特发明了"二次电池",即现代铅酸蓄电池的原型,这种实用的铅蓄电池,是由腐蚀铅箔而形成活性物质.

  10. Apparent Consumption vs. Total Consumption--A Lead-Acid Battery Case Study

    Wilburn, David R.; Buckingham, David A.


    Introduction: This report compares estimates of U.S. apparent consumption of lead with estimates of total U.S. consumption of this mineral commodity from a materials flow perspective. The difference, attributed to the amount of lead contained in imported and exported products, was found to be significant for this sector. The study also assesses the effects of including mineral commodities incorporated in manufactured products on the interpretation of observed trends in minerals consumption and trade. Materials flow is a systems approach to understanding what happens to the materials we use from the time a material is extracted, through its processing and manufacturing, to its ultimate disposition. The U.S. Geological Survey (USGS) provides accurate and detailed mineral production and mineral commodity consumption statistics that are essential for government, nongovernment organizations, and the public to gain a better understanding of how and where materials are used and their effect on the environment and society. Published statistics on mineral apparent consumption are limited to estimates of consumption of raw material forms (ore, concentrate, and [or] refined metal). For this study, apparent consumption is defined as mine production + secondary refined production + imports (concentrates and refined metal) ? exports (concentrates and refined metal) + adjustments for government and industry stock changes. These estimates do not account for the amount of mineral commodities contained in manufactured products that are imported to the United States, nor do they deduct the amount of these mineral commodities contained in manufactured products that are exported from the United States. When imports or exports of manufactured products contribute significantly to the total use of a particular raw material, an estimate of consumption that does not consider the incorporated forms of these mineral commodities within imported or exported manufactured products can be either under- or overreported (depending on the net trade flow). Factors that influence consumption and trade patterns include variations in industry structure, labor or financial markets, legislation, and technology. As U.S. trade patterns of manufactured products change, omitting mineral commodities incorporated into these goods as part of U.S. mineral commodity consumption estimates may affect the interpretation of observed trends in minerals consumption and trade. Although it may be desirable to include minerals contained in manufactured products as part of consumption estimates, collection and estimation of these data are sometimes difficult. Consumption and trade data for every traded product may not be readily available. Compiling comprehensive consumption statistics for mineral commodities, which have many end uses, each including multiple products, may be time consuming. For these reasons, studies of all mineral commodities are not feasible. Mineral commodity selection for this study is based on data accessibility considerations and the relative importance of lead contained in imported and exported products when considered part of total U.S. lead consumption. Lead was selected for this initial evaluation of total mineral consumption because of the need to understand the consumption pattern of this potentially toxic metal and its compounds, the relative simplicity of this sector?s end-use structure, and the availability of trade data. This study draws upon the findings of an earlier lead consumption study (Biviano and others, 1999) conducted by the USGS for the period 1984 to 1993, but uses a different study methodology for an industry whose structure has changed from that considered in the earlier study. Figure 1 shows the quantity of material contributing to U.S. total consumption of lead metal from domestic and foreign industrial sectors in 2004, based upon trade data reported by the USGS and the U.S. International Trade Commission (USITC). For

  11. Thermal characterization of tetrabasic lead sulfate used in the lead acid battery technology

    Ferg, E. E.; Billing, D. G.; Venter, A. M.


    The thermal production of 4PbO·PbSO4 was comprehensively studied and characterized for two syntheses routes, i.e. either heating 3PbO·PbSO4·H2O, or a mixture of 4PbO:PbSO4, in air to about 700 °C. In the 3PbO·PbSO4·H2O approach, the formation of an intermediate amorphous phase occurred at around 210 °C with the loss of H2O from the hydrated structure. Formation of 4PbO·PbSO4 initiated at around 270 °C with predominantly 4PbO·PbSO4 and 13% residual PbO·PbSO4 existing at 700 °C. With the synthesis route of mixing a stoichiometric ratio of 4PbO with PbSO4, an intermediate phase of PbO·PbSO4 formed at around 300 °C, before the 4PbO·PbSO4 phase started to form at around 500 °C. Upon further heating, 4PbO·PbSO4 was the predominant phase with 8% of PbO·PbSO4 remaining. Both samples decomposed upon further heating to 850 °C. Powder neutron diffraction studies of the final 4PbO·PbSO4 products from the two different synthesis routes showed similar crystallographic unit cell lattice parameters with slight differences in the PbO:PbSO4 contents. This could possibly be linked to differences observed in the microscopic crystallite shapes from the two synthesis routes.

  12. Green lead—oxymoron or sustainable development for the lead-acid battery industry?

    Roche, M.; Toyne, P.

    Because of the toxic characteristics of lead, the lead industry is potentially faced with a significant constriction of its future markets if it fails to satisfy regulators and communities that its products will be dealt with in ways that offer the highest level of safety. Legislation banning various lead products in different countries continues to expand, particularly within Europe. Denmark has banned the use of lead compounds. The lead industry is currently coordinating (through the London-based Lead Development Association International) the voluntary lead risk assessment in Europe. This assessment is providing valuable research data associated with the ecotoxicity of lead. Building on this, and addressing the issue of changing and improving practices associated with lead, the green lead project is being created as a product stewardship initiative of the lead industry.

  13. A method for making electrode grids for a lead acid storage battery

    Fukuda, S.; Fukunaga, K.; Kumano, Y.


    The lattices are cast from a lead, tin and arsenic alloy, rapidly cooled by a coolant and processed at a temperature of 50 to 200C, after which they are again cooled. The lattices have high mechanical durability.

  14. Requirements for future automotive batteries - a snapshot

    Karden, Eckhard; Shinn, Paul; Bostock, Paul; Cunningham, James; Schoultz, Evan; Kok, Daniel

    Introduction of new fuel economy, performance, safety, and comfort features in future automobiles will bring up many new, power-hungry electrical systems. As a consequence, demands on automotive batteries will grow substantially, e.g. regarding reliability, energy throughput (shallow-cycle life), charge acceptance, and high-rate partial state-of-charge (HRPSOC) operation. As higher voltage levels are mostly not an economically feasible alternative for the short term, the existing 14 V electrical system will have to fulfil these new demands, utilizing advanced 12 V energy storage devices. The well-established lead-acid battery technology is expected to keep playing a key role in this application. Compared to traditional starting-lighting-ignition (SLI) batteries, significant technological progress has been achieved or can be expected, which improve both performance and service life. System integration of the storage device into the vehicle will become increasingly important. Battery monitoring systems (BMS) are expected to become a commodity, penetrating the automotive volume market from both highly equipped premium cars and dedicated fuel-economy vehicles (e.g. stop/start). Battery monitoring systems will allow for more aggressive battery operating strategies, at the same time improving the reliability of the power supply system. Where a single lead-acid battery cannot fulfil the increasing demands, dual-storage systems may form a cost-efficient extension. They consist either of two lead-acid batteries or of a lead-acid battery plus another storage device.

  15. Design options for automotive batteries in advanced car electrical systems

    Peters, K.

    The need to reduce fuel consumption, minimize emissions, and improve levels of safety, comfort and reliability is expected to result in a much higher demand for electric power in cars within the next 5 years. Forecasts vary, but a fourfold increase in starting power to 20 kW is possible, particularly if automatic stop/start features are adopted to significantly reduce fuel consumption and exhaust emissions. Increases in the low-rate energy demand are also forecast, but the use of larger alternators may avoid unacceptable high battery weights. It is also suggested from operational models that the battery will be cycled more deeply. In examining possible designs, the beneficial features of valve-regulated lead-acid batteries made with compressed absorbent separators are apparent. Several of their attributes are considered. They offer higher specific power, improved cycling capability and greater vibration resistance, as well as more flexibility in packaging and installation. Optional circuits considered for dual-voltage supplies are separate batteries for engine starting (36 V) and low-power duties (12 V), and a universal battery (36 V) coupled to a d.c.-d.c. converter for a 12-V equipment. Battery designs, which can be made on commercially available equipment with similar manufacturing costs (per W h and per W) to current products, are discussed. The 36-V battery, made with 0.7 mm thick plates, in the dual-battery system weighs 18.5 kg and has a cold-cranking amp (CCA) rating of 790 A at -18°C to 21.6 V (1080 W kg -1 at a mean voltage of 25.4 V). The associated, cycleable 12-V battery, provides 1.5 kW h and weighs 24.6 kg. Thus, the combined battery weight is 43.1 kg. The single universal battery, with cycling capability, weighs 45.4 kg, has a CCA rating of 810 A (441 W kg -1 at a mean voltage of 24.7 V), and when connected to the d.c.-d.c. converter at 75% efficiency provides a low-power capacity of 1.5 kW h.

  16. Investigating improvements on redox flow batteries

    Swartbooi, AM


    Full Text Available storage devices coupled to most of their applications. Lead-acid batteries have long been used as the most economical option to store electricity in many small scale applications, but lately more interest have been shown in redox flow batteries. The low...

  17. Study of installed and life-cycle costs for batteries in photovoltaic power systems


    The overall objective was to estimate the installed and life-cycle costs of 9 battery technologies in a range of photovoltaic application types and sizes. For each battery type is given is a description of the battery technology, the battery factory price analysis, and the installed and life-cycle cost estimates for the battery in each of the applications evaluated. Battery types include: conventional lead-acid; sealed lead-acid; redox; zinc-bromine batteries of two types; zinc chloride; iron redox; lithium-metal sulfide; and sodium-sulfur. Applications include: shopping center; high school; multiple residence; hotel-motel; remote residence; and single residence.

  18. Ecological and biomedical effects of effluents from near-term electric vehicle storage battery cycles


    The lead/acid battery cycle from mining and milling of raw materials through recycling of scrap batteries and disposal of wastes is described. Material flows and emissions for various phases of the total cycle are estimated for per megawatt hour of installed capacity and for a scenario of three million lead/acid electric vehicles on the road by the year 2000.

  19. Characterization of microglass wet laid nonwovens used as battery separators

    Zientek, M.J.; Bender, R.J. [Schuller International, Inc., Toledo, OH (United States)


    Significant advancements have been made during the past few years in the battery industry with the development of Valve Regulated Lead-Acid (VRLA) cells for a variety of applications. Today, most sealed or gas recombining, lead-acid batteries utilize absorptive microglass separators in their design. The 100% microglass battery separator mat used in rechargeable lead-acid batteries has been identified as being a critical component necessary for the operation of these cells. With the growing importance of the microglass separator in modern battery technology, an understanding of the various properties of the separator is essential to better understand the impact separators have on battery performance. A method for characterizing microglass separators is described by surface area, mechanical, chemical, and microscopy techniques.

  20. Phase transformations of high-purity PbI{sub 2} nanoparticles synthesized from lead-acid accumulator anodes

    Malevu, T.D., E-mail:; Ocaya, R.O.; Tshabalala, K.G.


    High-purity hexagonal lead iodide nanoparticles have been synthesized from a depleted sealed lead acid battery anode. The synthesized product was found to consist of the rare 6R polytype form of PbI{sub 2} that is thought to have good potential in photovoltaic applications. We investigate the effects of annealing time and post-melting temperature on the structure and optical properties using 1.5418 Å CuKα radiation. Photoluminescence measurements were done under 150 W/221 nm wavelength xenon excitation. Phase transformation was observed through XRD peaks when annealing time increased from 0.5–5 h. The nanoparticle grain size and inter-planar distance appeared to be independent of annealing time. PL measurements show three broad peaks in a range of 400 nm to 700 nm that are attributed to excitonic, donor–acceptor pair and luminescence bands from the deep levels.

  1. Portable Battery Charger Berbasis Sel Surya

    Budhi Anto; Edy Hamdani; Rizki Abdullah


    A type of solar battery charger is introduced in this paper. This equipment functions as a medium size rechargeable battery that is needed to move culinary merchants and coastal fishermen living in area which is not supplied by electrical networks. The equipment consists of solar module mounted onto portable mechanical construction, a 12-V 7.5-Ah lead acid battery and charge controller. Solar module charges the battery through charge controller and then the battery can be discharged to power ...

  2. Test methodology and characterization of batteries for remote power applications

    Manninen, L.M.; Tuominen, E.; Lund, P.H.


    Battery storage is an integral subcomponent of many remote autonomous energy systems. An accurate battery model is essential for the analysis of the system performance. The accuracy of the performance estimate is therefore open dependent on how well the behaviour of the battery is understood. This paper presents computational submodels that predict the voltage vs. current behaviour and internal losses of a vented lead acid battery and illustrates their utilization in practical simulation. A complete and compact methodology for the determination of the battery model parameters that is easily adaptable for different battery types is also presented. The method can be applied routinely. Required instrumentation is minimal, only battery voltage, current and temperature are recorded. The model parameters for a vented lead acid battery determined with this method are also given. (orig.) 26 refs.

  3. Bipolar batteries based on Ebonex ® technology

    Loyns, A. C.; Hill, A.; Ellis, K. G.; Partington, T. J.; Hill, J. M.

    Continuing work by Atraverda on the production of a composite-laminate form of the Ebonex ® material, that can be cheaply formulated and manufactured to form substrate plates for bipolar lead-acid batteries, is described. Ebonex ® is the registered trade name of a range of titanium suboxide ceramic materials, typically Ti 4O 7 and Ti 5O 9, which combine electrical conductivity with high corrosion and oxidation resistance. Details of the structure of the composite, battery construction techniques and methods for filling and forming of batteries are discussed. In addition, lifetime and performance data obtained by Atraverda from laboratory bipolar lead-acid batteries and cells are presented. Battery production techniques for both conventional monopolar and bipolar batteries are reviewed. The findings indicate that substantial time and cost savings may be realised in the manufacture of bipolar batteries in comparison to conventional designs. This is due to the fewer processing steps required and more efficient formation. The results indicate that the use of Ebonex ® composite material as a bipolar substrate will provide lightweight and durable high-voltage lead-acid batteries suitable for a wide range of applications including advanced automotive, stationary power and portable equipment.

  4. Market for nickel-cadmium batteries

    Putois, F.

    Besides the lead/acid battery market, which has seen a tremendous development linked with the car industry, the alkaline rechargeable battery market has also been expanded for more than twenty years, especially in the field of portable applications with nickel-cadmium batteries. Today, nickel-cadmium batteries have to face newcomers on the market, such as nickel-metal hydride, which is another alkaline couple, and rechargeable lithium batteries; these new battery systems have better performances in some areas. This work illustrates the status of the market for nickel-cadmium batteries and their applications. Also, for two major applications—the cordless tool and the electric vehicles—the competitive situation of nickel-cadmium batteries; facing new systems such as nickel-metal hydride and lithium ion cells are discussed.

  5. Battery energy storage technologies

    Anderson, Max D.; Carr, Dodd S.


    Battery energy storage systems, comprising lead-acid batteries, power conversion systems, and control systems, are used by three main groups: power generating utilities, power distributing utilities, and major power consumers (such as electric furnace foundries). The principal advantages of battery energy storage systems to generating utilities include load leveling, frequency control, spinning reserve, modular construction, convenient siting, no emissions, and investment deferral for new generation and transmission equipment. Power distributing utilities and major power consumers can avoid costly demand changes by discharging their batteries at peak periods and then recharging with lower cost off-peak power (say, at night). Battery energy storage systems are most cost effective when designed for discharge periods of less than 5 h; other systems (for example, pumped water storage) are better suited for longer discharges. It is estimated that by the year 2000 there will be a potential need for 4000 MW of battery energy storage. New construction of five plants totaling 100 MW is presently scheduled for completion by the Puerto Rico Electric Power Authority between 1992 and 1995.

  6. Batteries and fuel cells: Design, employment, chemistry

    Euler, K.-J.

    The history of electrochemical current sources is considered along with primary cells, standard cells, high-energy primary cells, high-energy storage batteries, and fuel cells. Aspects of battery research and development are also discussed, taking into account general considerations related to technological development projects, the introduction of mathematical methods into battery research, resistance measurements, autoradiography and other radiochemical methods, color photography as an aid in research, electron microscopy, X-ray and electron diffraction, spin resonance methods, and electrical measurements involving powders. Attention is given to zinc/manganese dioxide cells, zinc/mercury cells, zinc/silver oxide primary cells, cells utilizing atmospheric oxygen, lead-acid batteries, nickel-iron and nickel-cadmium storage batteries, zinc/silver storage batteries, dry cells with organic depolarizers, dry cells with solid electrolyte, and storage batteries utilizing hydrogen.

  7. Development and Testing of an UltraBattery-Equipped Honda Civic

    Donald Karner


    The UltraBattery retrofit project DP1.8 and Carbon Enriched project C3, performed by ECOtality North America (ECOtality) and funded by the U.S. Department of Energy (DOE) and the Advanced Lead Acid Battery Consortium (ALABC), are to demonstrate the suitability of advanced lead battery technology in Hybrid Electrical Vehicles (HEVs).

  8. Handbook of secondary storage batteries and charge regulators in photovoltaic systems. Final report


    Solar photovoltaic systems often require battery subsystems to store reserve electrical energy for times of zero insolation. This handbook is designed to help the system designer make optimum choices of battery type, battery size and charge control circuits. Typical battery performance characteristics are summarized for four types of lead-acid batteries: pure lead, lead-calcium and lead-antimony pasted flat plate and lead-antimony tubular positive types. Similar data is also provided for pocket plate nickel cadmium batteries. Economics play a significant role in battery selection. Relative costs of each battery type are summarized under a variety of operating regimes expected for solar PV installations.

  9. A VRLA battery simulation model

    Pascoe, P.E.; Anbuky, A.H. [Invensys Energy Systems NZ Limited, Christchurch (New Zealand)


    A valve regulated lead acid (VRLA) battery simulation model is an invaluable tool for the standby power system engineer. The obvious use for such a model is to allow the assessment of battery performance. This may involve determining the influence of cells suffering from state of health (SOH) degradation on the performance of the entire string, or the running of test scenarios to ascertain the most suitable battery size for the application. In addition, it enables the engineer to assess the performance of the overall power system. This includes, for example, running test scenarios to determine the benefits of various load shedding schemes. It also allows the assessment of other power system components, either for determining their requirements and/or vulnerabilities. Finally, a VRLA battery simulation model is vital as a stand alone tool for educational purposes. Despite the fundamentals of the VRLA battery having been established for over 100 years, its operating behaviour is often poorly understood. An accurate simulation model enables the engineer to gain a better understanding of VRLA battery behaviour. A system level multipurpose VRLA battery simulation model is presented. It allows an arbitrary battery (capacity, SOH, number of cells and number of strings) to be simulated under arbitrary operating conditions (discharge rate, ambient temperature, end voltage, charge rate and initial state of charge). The model accurately reflects the VRLA battery discharge and recharge behaviour. This includes the complex start of discharge region known as the coup de fouet. (author)

  10. ZEBRA battery meets USABC goals

    Dustmann, Cord-H.

    In 1990, the California Air Resources Board has established a mandate to introduce electric vehicles in order to improve air quality in Los Angeles and other capitals. The United States Advanced Battery Consortium has been formed by the big car companies, Electric Power Research Institute (EPRI) and the Department of Energy in order to establish the requirements on EV-batteries and to support battery development. The ZEBRA battery system is a candidate to power future electric vehicles. Not only because its energy density is three-fold that of lead acid batteries (50% more than NiMH) but also because of all the other EV requirements such as power density, no maintenance, summer and winter operation, safety, failure tolerance and low cost potential are fulfilled. The electrode material is plain salt and nickel in combination with a ceramic electrolyte. The cell voltage is 2.58 V and the capacity of a standard cell is 32 Ah. Some hundred cells are connected in series and parallel to form a battery with about 300 V OCV. The battery system including battery controller, main circuit-breaker and cooling system is engineered for vehicle integration and ready to be mounted in a vehicle [J. Gaub, A. van Zyl, Mercedes-Benz Electric Vehicles with ZEBRA Batteries, EVS-14, Orlando, FL, Dec. 1997]. The background of these features are described.

  11. Efficiency of lignosulfonates and humic-related substances as expanders in negative electrodes of the lead/acid system

    Bostel, D. von (DETA Akkumulatorenwerk GmbH, Bad Lauterberg (Germany)); Hoogestraat, G. (DETA Akkumulatorenwerk GmbH, Bad Lauterberg (Germany)); Ziechmann, W. (Working Group & #x27; Soil Chemistry& #x27; , Georg-August Univ., Goettingen (Germany))


    Organic expanders represent essential additives to the negative active material of lead/acid batteries, since they prevent the negative electrode from compaction during life cycling. Focussing on stability and efficiency of expanders, industrial lignosulfonates and humic substances from peat bogs, in comparison, were fractionated, chemically altered and analysed. With respect to a correlation of functional groups and expander action, these organic samples, fractions, and derivatives were assessed based on a cylcovoltammetric determination of expander performance. The majority of the humic material showed poorer aptitude than the commercially available lignosulfonate expanders. Improved performance was found for precursors of humic acids with a low molecular weight. The obtained results indicate the bonding mechanisms by functional groups like cation exchange, chelating, or formation of [pi]-[epsilon] complexes do not seem to be significant. A good expander aptitude of some humic derivatives is attributed to their colloidal nature. It is assumed that the coagulation of colloids with low molecular weight is hindered, as these colloids form adsorbed surface films in the negative active material. The films cause an overpotential for the reduction of PbSO[sub 4] resulting in fine-grained structures of the lead particles. (orig.)

  12. A Battery Power Bank with Series-Connected Buck–Boost-Type Battery Power Modules

    Tsung-Hsi Wu


    Full Text Available The operation of a battery power bank with series-connected buck–boost-type battery power modules (BPMs was investigated in this study. Each BPM consisted of a battery pack with an associated buck–boost converter for individually controlling battery currents. With a proposed discharging scenario, load voltage regulation with charge equalization among batteries was performed by controlling the battery currents in accordance with their state-of-charges (SOCs estimated by real-time battery-loaded voltages detected under the same operating condition. In addition, the fault tolerance was executed to isolate exhausted or faulty batteries from the battery power bank without interrupting the system operation. Experiments were conducted to verify the effectiveness of the discharging scenario for a laboratory battery power bank with four series buck–boost BPMs.

  13. Assessment of soil-pollution by slag from an automobile battery ...


    unstable under anoxic conditions (Tessier et al., 1979), hence, changes of .... Anglin-Brown B, Armour-Brown A, Lalor GC (1995). Heavy metal pol- .... environmentally sound management of Lead-Acid Battery Wastes,. Eighteenth session, April ...

  14. Automotive Battery Modelling and Management

    N. M. Hammad


    Full Text Available The estimation of vehicle battery performance is typically addressed by testing the battery under specific operation conditions by using a model to represent the test results. Approaches for representing test results range from simple statistical models to neural networks to complex, physics-based models. Basing the model on test data could be problematical when testing becomes impractical with many years life time tests. So, real time estimation of battery performance, an important problem in automotive applications, falls into this area. In vehicles it is important to know the state of charge of the batteries in order to prevent vehicle stranding and to ensure that the full range of the vehicle operation is exploited. In this paper, several battery models have studied including analytical, electrical circuits, stochastic and electro- chemical models. Valve Regulated Lead Acid “VRLA” battery has been modelled using electric circuit technique. This model is considered in the proposed Battery Monitoring System “BMS”. The proposed BMS includes data acquisition, data analysis and prediction of battery performance under a hypothetical future loads. Based on these criteria, a microprocessor based BMS prototype had been built and tested in automotive Lab,. The tests show promising results that can be used in industrial applications

  15. Hyperventilation and exhaustion syndrome

    Ristiniemi, Heli; Perski, Aleksander; Lyskov, Eugene; Emtner, Margareta


    Chronic stress is among the most common diagnoses in Sweden, most commonly in the form of exhaustion syndrome (ICD-10 classification - F43.8). The majority of patients with this syndrome also have disturbed breathing (hyperventilation). The aim of this study was to investigate the association between hyperventilation and exhaustion syndrome. Thirty patients with exhaustion syndrome and 14 healthy subjects were evaluated with the Nijmegen Symptom Questionnaire (NQ). The participants completed ...

  16. Fuel Cell and Battery Powered Forklifts

    Zhang, Zhe; Mortensen, Henrik H.; Jensen, Jes Vestervang


    A hydrogen-powered materials handling vehicle with a fuel cell combines the advantages of diesel/LPG and battery powered vehicles. Hydrogen provides the same consistent power and fast refueling capability as diesel and LPG, whilst fuel cells provide energy efficient and zero emission Electric...... propulsion similar to batteries. In this paper, the performance of a forklift powered by PEM fuel cells and lead acid batteries as auxiliary energy source is introduced and investigated. In this electromechanical propulsion system with hybrid energy/power sources, fuel cells will deliver average power...

  17. Local Exhaust Ventilation

    Madsen, Ulla; Breum, N. O.; Nielsen, Peter V.

    Capture efficiency of a local exhaust system, e.g. a kitchen hood, should include only contaminants being direct captured. In this study basic concepts of local exhaust capture efficiency are given, based on the idea of a control box. A validated numerical model is used for estimation of the capt......Capture efficiency of a local exhaust system, e.g. a kitchen hood, should include only contaminants being direct captured. In this study basic concepts of local exhaust capture efficiency are given, based on the idea of a control box. A validated numerical model is used for estimation...

  18. Exhaustion from prolonged gambling

    Fatimah Lateef


    Full Text Available Complaints of fatigue and physical exhaustion are frequently seen in the acute medical setting, especially amongst athletes, army recruits and persons involved in strenuous and exertional physical activities. Stress-induced exhaustion, on the other hand, is less often seen, but can present with very similar symptoms to physical exhaustion. Recently, three patients were seen at the Department of Emergency Medicine, presenting with exhaustion from prolonged involvement in gambling activities. The cases serve to highlight some of the physical consequences of prolonged gambling.

  19. Exhaustion from prolonged gambling

    Fatimah Lateef


    Complaints of fatigue and physical exhaustion are frequently seen in the acute medical setting, especially amongst athletes, army recruits and persons involved in strenuous and exertional physical activities.Stress-induced exhaustion, on the other hand, is less often seen, but can present with very similar symptoms to physical exhaustion.Recently, three patients were seen at theDepartment ofEmergencyMedicine, presenting with exhaustion from prolonged involvement in gambling activities.The cases serve to highlight some of the physical consequences of prolonged gambling.

  20. Pre-Study for a Battery Storage for a Kinetic Energy Storage System


    This bachelor thesis investigates what kind of battery system that is suitable for an electric driveline equipped with a mechanical fly wheel, focusing on a battery with high specific energy capacity. Basic battery theory such as the principle of an electrochemical cell, limitations and C-rate is explained as well as the different major battery systems that are available. Primary and secondary cells are discussed, including the major secondary chemistries such as lead acid, nickel cadmium (Ni...

  1. Health hazards of China's lead-acid battery industry: a review of its market drivers, production processes, and health impacts

    van der Kuijp, Tsering Jan; Huang, Lei; Cherry, Christopher R


    Despite China's leaded gasoline phase out in 2000, the continued high rates of lead poisoning found in children's blood lead levels reflect the need for identifying and controlling other sources of lead pollution...

  2. Research, development, and demonstration of lead-acid batteries for electric-vehicle propulsion. Annual report, 1981



    The progress of the design and development program is detailed. Results of drop tests, characteristics tests, and life cycle tests are presented and discussed. Results of tests of mechanical agitation of the electrolyte by air bubbling and an air lift pump are reported. Work on the electrode designs and electrolyte circulation systems is reported. (WHK)

  3. Unemployment Benefit Exhaustion

    Filges, Trine; Pico Geerdsen, Lars; Knudsen, Anne-Sofie Due


    This systematic review studied the impact of exhaustion of unemployment benefits on the exit rate out of unemployment and into employment prior to benefit exhaustion or shortly thereafter. Method: We followed Campbell Collaboration guidelines to prepare this review, and ultimately located 12...

  4. Button batteries

    ... this page: // Button batteries To use the sharing features on this page, please enable JavaScript. Button batteries are tiny, round batteries. They are commonly ...

  5. Prediction of Retained Capacity and EODV of Li-ion Batteries in LEO Spacecraft Batteries

    Ramakrishnan, S; Jeyakumar, A Ebenezer


    In resent years ANN is widely reported for modeling in different areas of science including electro chemistry. This includes modeling of different technological batteries such as lead acid battery, Nickel cadmium batteries etc. Lithium ion batteries are advance battery technology which satisfy most of the space mission requirements. Low earth orbit (LEO)space craft batteries undergo large number of charge discharge cycles (about 25000 cycles)compared to other ground level or space applications. This study is indented to develop ANN model for about 25000 cycles, cycled under various temperature, Depth Of Discharge (DOD) settings with constant charge voltage limit to predict the retained capacity and End of Discharge Voltage (EODV). To extract firm conclusion and distinguish the capability of ANN method, the predicted values are compared with experimental result by statistical method and Bland Altman plot.

  6. Carbon-enhanced VRLA batteries.

    Enos, David George; Hund, Thomas D.; Shane, Rod (East Penn Manufacturing, Lyon Station, PA)


    The addition of certain forms of carbon to the negative plate in valve regulated lead acid (VRLA) batteries has been demonstrated to increase the cycle life of such batteries by an order of magnitude or more under high-rate, partial-state-of-charge operation. Such performance will provide a significant impact, and in some cases it will be an enabling feature for applications including hybrid electric vehicles, utility ancillary regulation services, wind farm energy smoothing, and solar photovoltaic energy smoothing. There is a critical need to understnd how the carbon interacts with the negative plate and achieves the aforementioned benefits at a fundamental level. Such an understanding will not only enable the performance of such batteries to be optimzied, but also to explore the feasibility of applying this technology to other battery chemistries. In partnership with the East Penn Manufacturing, Sandia will investigate the electrochemical function of the carbon and possibly identify improvements to its anti-sulfation properties. Shiomi, et al. (1997) discovered that the addition of carbon to the negative active material (NAM) substantially reduced PbSO{sub 4} accumulation in high rate, partial state of charge (HRPSoC) cycling applications. This improved performance with a minimal cost. Cycling applications that were uneconomical for traditional VRLA batteries are viable for the carbon enhanced VRLA. The overall goal of this work is to quantitatively define the role that carbon plays in the electrochemistry of a VRLA battery.

  7. Battery Modeling

    Jongerden, M.R.; Haverkort, Boudewijn R.H.M.


    The use of mobile devices is often limited by the capacity of the employed batteries. The battery lifetime determines how long one can use a device. Battery modeling can help to predict, and possibly extend this lifetime. Many different battery models have been developed over the years. However,

  8. Unemployment Benefit Exhaustion

    Filges, Trine; Pico Geerdsen, Lars; Knudsen, Anne-Sofie Due


    studies for final analysis and interpretation. Twelve studies could be included in the data synthesis. Results: We found clear evidence that the prospect of exhaustion of benefits results in a significantly increased incentive for finding work. Discussion: The theoretical suggestion that the prospect......This systematic review studied the impact of exhaustion of unemployment benefits on the exit rate out of unemployment and into employment prior to benefit exhaustion or shortly thereafter. Method: We followed Campbell Collaboration guidelines to prepare this review, and ultimately located 12...... of exhaustion of benefits results in an increased incentive for finding work has been confirmed empirically by measures from seven different European countries, the United States, and Canada. The results are robust in the sense that sensitivity analyses evidenced no appreciable changes in the results. We found...

  9. Lithium batteries and other electrochemical storage systems

    Glaize, Christian


    Lithium batteries were introduced relatively recently in comparison to lead- or nickel-based batteries, which have been around for over 100 years. Nevertheless, in the space of 20 years, they have acquired a considerable market share - particularly for the supply of mobile devices. We are still a long way from exhausting the possibilities that they offer. Numerous projects will undoubtedly further improve their performances in the years to come. For large-scale storage systems, other types of batteries are also worthy of consideration: hot batteries and redox flow systems, for example.

  10. Five Ministries and Commissions Discussed Abolishing the 5% Consumption Tax on Lead Battery


    <正>Wang Jinliang, the vice-chairman of China Battery Industry Association, said that recently the five ministries and commissions have been discussing on drawing concrete plans, with China’s Ministry of Industry and Information Technology taking the lead. In view of the status quo of lead-acid battery industry, the ministry prefers charging no or little consumption

  11. Storage battery and manufacturing technique. Akkumulator und Verfahren zu seiner Herstellung

    Poesch, G.; Hoogestraat, G.; Meissner, H.M.


    According to the invention, the electrolyte of a battery (lead-acid battery) is fixed with the help of a gelling agent consisting of at least two components. Thus, the first component may consist of finely distributed silica, while the second may consist of an acrylamide copolymer.

  12. Batteries for storage of wind-generated energy

    Schwartz, H. J.


    Cost effectiveness characteristics of conventional-, metal gas-, and high energy alkali metal-batteries for wind generated energy storage are considered. A lead-acid battery with a power density of 20 to 30 watt/hours per pound is good for about 1500 charge-discharge cycles at a cost of about $80 per kilowatt hour. A zinc-chlorine battery that stores chlorine as solid chlorine hydrate at temperatures below 10 C eliminates the need to handle gaseous chlorine; its raw material cost are low and inexpensive carbon can be used for the chlorine electrode. This system has the best chance to replace lead-acid. Exotic alkali metal batteries are deemed too costly at the present stage of development.

  13. Performance Simulation Of Photovoltaic System Battery

    O. A. Babatunde


    Full Text Available Solar energy, despite being inexhaustible, has a major shortcoming; it is intermittent. As a result, there's a need for it to be stored for later use. The widely used energy storage in photovoltaic system applications is the lead-acid battery and the knowledge of its state-of-charge (SOC is important in effecting efficient control and energy management. However, SOC cannot be measured while the battery is connected to the system. This study adjusts and validates two estimation models: battery state-of-charge model using ampere-hour counting method and battery charge voltage model. For the battery state-of-charge model, the SOC is estimated by integrating the charge/discharge current over time while the battery charge voltage characteristic response is modelled by using the equation-fit method which expresses the battery charge voltage variations by a 5th order polynomial in terms of the state-of-charge and current. These models are realized using the MATLAB program. The battery charge voltage model is corrected for errors which may result from reduced charge voltage due to variation of solar radiation using the battery state-of-charge model. Moreover, the starting SOC needed in the state-of-charge model is estimated using the charge voltage model. The accuracies of the models are verified using various laboratory experiments.

  14. Lead-nickel electrochemical batteries

    Glaize, Christian


    The lead-acid accumulator was introduced in the middle of the 19th Century, the diverse variants of nickel accumulators between the beginning and the end of the 20th Century. Although old, these technologies are always very present on numerous markets. Unfortunately they are still not used in optimal conditions, often because of the misunderstanding of the internal electrochemical phenomena.This book will show that batteries are complex systems, made commercially available thanks to considerable amounts of scientific research, empiricism and practical knowledge. However, the design of

  15. Fuel Cell and Battery Powered Forklifts

    Zhang, Zhe; Mortensen, Henrik H.; Jensen, Jes Vestervang


    A hydrogen-powered materials handling vehicle with a fuel cell combines the advantages of diesel/LPG and battery powered vehicles. Hydrogen provides the same consistent power and fast refueling capability as diesel and LPG, whilst fuel cells provide energy efficient and zero emission Electric...... propulsion similar to batteries. In this paper, the performance of a forklift powered by PEM fuel cells and lead acid batteries as auxiliary energy source is introduced and investigated. In this electromechanical propulsion system with hybrid energy/power sources, fuel cells will deliver average power......, whilst batteries will handle all the load dynamics, such as acceleration, lifting, climbing and so on. The electrical part of the whole propulsion system for forklift has been investigated in details. The energy management strategy is explained and verified through simulation. Finally, experimental...

  16. The UltraBattery-A new battery design for a new beginning in hybrid electric vehicle energy storage

    Cooper, A.; Furakawa, J.; Lam, L.; Kellaway, M.

    The UltraBattery, developed by CSIRO Energy Technology in Australia, is a hybrid energy storage device which combines an asymmetric super-capacitor and a lead-acid battery in single unit cells. This takes the best from both technologies without the need for extra, expensive electronic controls. The capacitor enhances the power and lifespan of the lead-acid battery as it acts as a buffer during high-rate discharging and charging, thus enabling it to provide and absorb charge rapidly during vehicle acceleration and braking. The initial performance of the prototype UltraBatteries was evaluated according to the US FreedomCAR targets and was shown to meet or exceed these in terms of power, available energy, cold cranking and self-discharge set for both minimum and maximum power-assist hybrid electric vehicles (HEVs). Other laboratory cycling tests showed a fourfold improvement over previous state-of-the-art lead-acid batteries under the RHOLAB test profile and better life than commercial nickel/metal hydride (NiMH) cells used in a Honda Insight when tested under the EUCAR HEV profile. As a result of this work, a set of twelve 12 V modules was built by The Furukawa Battery Co., Ltd. in Japan and were fitted into a Honda Insight instead of the NiMH battery by Provector Ltd. The battery pack was fitted with full monitoring and control capabilities and the car was tested at Millbrook Proving Ground under a General Motors road test simulation cycle for an initial target of 50 000 miles which was extended to 100 000 miles. This was completed on 15th January 2008 without any battery problems. Furthermore, the whole test was completed without the need for any conditioning or equalisation of the battery pack.

  17. Paintable battery

    Singh, Neelam; Galande, Charudatta; Miranda, Andrea; Mathkar, Akshay; Gao, Wei; Reddy, Arava Leela Mohana; Vlad, Alexandru; Ajayan, Pulickel M


    If the components of a battery, including electrodes, separator, electrolyte and the current collectors can be designed as paints and applied sequentially to build a complete battery, on any arbitrary...

  18. Standby battery requirements for telecommunications power

    May, G. J.

    The requirements for standby power for telecommunications are changing as the network moves from conventional systems to Internet Protocol (IP) telephony. These new systems require higher power levels closer to the user but the level of availability and reliability cannot be compromised if the network is to provide service in the event of a failure of the public utility. Many parts of these new networks are ac rather than dc powered with UPS systems for back-up power. These generally have lower levels of reliability than dc systems and the network needs to be designed such that overall reliability is not reduced through appropriate levels of redundancy. Mobile networks have different power requirements. Where there is a high density of nodes, continuity of service can be reasonably assured with short autonomy times. Furthermore, there is generally no requirement that these networks are the provider of last resort and therefore, specifications for continuity of power are directed towards revenue protection and overall reliability targets. As a result of these changes, battery requirements for reserve power are evolving. Shorter autonomy times are specified for parts of the network although a large part will continue to need support for hours rather minutes. Operational temperatures are increasing and battery solutions that provide longer life in extreme conditions are becoming important. Different battery technologies will be discussed in the context of these requirements. Conventional large flooded lead/acid cells both with pasted and tubular plates are used in larger central office applications but the majority of requirements are met with valve-regulated lead/acid (VRLA) batteries. The different types of VRLA battery will be described and their suitability for various applications outlined. New developments in battery construction and battery materials have improved both performance and reliability in recent years. Alternative technologies are also being proposed

  19. Aerodynamic Control of Exhaust

    Hyldgård, Carl-Erik

    In the autumn of 1985 the Unive!Sity of Aalborg was approached by the manufacturer C. P. Aaberg, who had obtained aerodynilmic control of the exhaust by means of injection. The remaining investigations comprising optimizations of the system with regard to effect, consumption, requirements...

  20. Hyperventilation and exhaustion syndrome.

    Ristiniemi, Heli; Perski, Aleksander; Lyskov, Eugene; Emtner, Margareta


    Chronic stress is among the most common diagnoses in Sweden, most commonly in the form of exhaustion syndrome (ICD-10 classification - F43.8). The majority of patients with this syndrome also have disturbed breathing (hyperventilation). The aim of this study was to investigate the association between hyperventilation and exhaustion syndrome. Thirty patients with exhaustion syndrome and 14 healthy subjects were evaluated with the Nijmegen Symptom Questionnaire (NQ). The participants completed questionnaires about exhaustion, mental state, sleep disturbance, pain and quality of life. The evaluation was repeated 4 weeks later, after half of the patients and healthy subjects had engaged in a therapy method called 'Grounding', a physical exercise inspired by African dance. The patients reported significantly higher levels of hyperventilation as compared to the healthy subjects. All patients' average score on NQ was 26.57 ± 10.98, while that of the healthy subjects was 15.14 ± 7.89 (t = -3.48, df = 42, p therapy such as Grounding.

  1. Hybrid Exhaust Component

    Pelletier, Gerard D. (Inventor); Logan, Charles P. (Inventor); McEnerney, Bryan William (Inventor); Haynes, Jeffrey D. (Inventor)


    An exhaust includes a wall that has a first composite material having a first coefficient of thermal expansion and a second composite material having a second coefficient of the thermal expansion that is less than the first coefficient of thermal expansion.

  2. Status of the DOE Battery and Electrochemical Technology Program V

    Roberts, R.


    The program consists of two activities, Technology Base Research (TBR) managed by the Lawrence Berkeley Laboratory (LBL) and Exploratory Technology Development and Testing (EDT) managed by the Sandia National Laboratories (SNL). The status of the Battery Energy Storage Test (BEST) Facility is presented, including the status of the batteries to be tested. ECS program contributions to the advancement of the lead-acid battery and specific examples of technology transfer from this program are given. The advances during the period December 1982 to June 1984 in the characterization and performance of the lead-acid, iron/nickel-oxide, iron/air, aluminum/air, zinc/bromide, zinc/ferricyanide, and sodium/sulfur batteries and in fuel cells for transport are summarized. Novel techniques and the application of established techniques to the study of electrode processes, especially the electrode/electrolyte interface, are described. Research with the potential of leading to improved ceramic electrolytes and positive electrode container and current-collectors for the sodium/sulfur battery is presented. Advances in the electrocatalysis of the oxygen (air) electrode and the relationship of these advances to the iron/air and aluminum/air batteries and to the fuel cell are noted. The quest for new battery couples and battery materials is reviewed. New developments in the modeling of electrochemical cell and electrode performance with the approaches to test these models are reported.

  3. Status of the DOE Battery and Electrochemical Technology Program 5

    Roberts, R.


    The program consists of two activities, Technology Base Research (TBR) managed by the Lawrence Berkeley Laboratory (LBL) and Exploratory Technology Development and Testing (EDT) managed by the Sandia National Laboratories (SNL). The status of the Battery Energy Storage Test (BEST) Facility is presented, including the status of the batteries to be tested. ECS program contributions to the advancement of the lead-acid battery and specific examples of technology transfer from this program are given. The advances during the period December 1982 to June 1984 in the characterization and performance of the lead-acid, iron/nickel-oxide, iron/air, aluminum/air, zinc/bromide, zinc/ferricyanide, and sodium/sulfur batteries and in fuel cells for transport are summarized. Novel techniques and the application of established techniques to the study of electrode processes, especially the electrode/electrolyte interface, are described. Research with the potential of leading to improved ceramic electrolytes and positive electrode container and current-collectors for the sodium/sulfur battery is presented. Advances in the electrocatalysis of the oxygen (air) electrode and the relationship of these advances to the iron/air and aluminum/air batteries and to the fuel cell are noted. The quest for new battery couples and battery materials is reviewed. New developments in the modeling of electrochemical cell and electrode performance with the approaches to test these models are reported.

  4. Status of the DOE Battery and Electrochemical Technology Program V

    Roberts, R.


    The program consists of two activities, Technology Base Research (TBR) managed by the Lawrence Berkeley Laboratory (LBL) and Exploratory Technology Development and Testing (EDT) managed by the Sandia National Laboratories (SNL). The status of the Battery Energy Storage Test (BEST) Facility is presented, including the status of the batteries to be tested. ECS program contributions to the advancement of the lead-acid battery and specific examples of technology transfer from this program are given. The advances during the period December 1982 to June 1984 in the characterization and performance of the lead-acid, iron/nickel-oxide, iron/air, aluminum/air, zinc/bromide, zinc/ferricyanide, and sodium/sulfur batteries and in fuel cells for transport are summarized. Novel techniques and the application of established techniques to the study of electrode processes, especially the electrode/electrolyte interface, are described. Research with the potential of leading to improved ceramic electrolytes and positive electrode container and current-collectors for the sodium/sulfur battery is presented. Advances in the electrocatalysis of the oxygen (air) electrode and the relationship of these advances to the iron/air and aluminum/air batteries and to the fuel cell are noted. The quest for new battery couples and battery materials is reviewed. New developments in the modeling of electrochemical cell and electrode performance with the approaches to test these models are reported.

  5. The effect of particle size on performance of cathode materials of Li-ion batteries

    Sinha, Nupur Nikkan; Munichandraiah, N


    Beginning with the ‘frog-leg experiment’ by Galvani (1786), followed by the demonstrations of Volta pile by Volta (1792) and lead-acid accumulator by Plante´ (1859), several battery chemistries have been developed and realized commercially. The development of lithium-ion rechargeable battery in the early 1990s is a breakthrough in the science and technology of batteries. Owing to its high energy density and high operating voltage, the Li-ion battery has become the battery of choice for var...

  6. ETK's experience in the application of VRLA batteries

    Klaric, I. [Ericsson Nikola Tesla d.d., Zagreb (Croatia)


    This paper presents the experience of the company Ericsson Nikola Tesla (ETK) in the application of VRLA batteries. After a short comment on conventional lead acid batteries, the paper explains the reasons for introduction of VRLA batteries and presents our experience considering their quality, performance, hydrogen evolution, safety, service life etc. Stress is put on some internal and external factors which affect useful life, such as positive grid corrosion, ambient temperature and charging voltage. ETK also gained experience in relation to adaptation of some UPS systems to VRLA batteries. The article concludes with the list of important advantages and disadvantages of VRLA batteries compared with the flooded ones. (orig.)

  7. Design And Construction Of Microcontroller Based Solar Battery Charger

    Zar Ni Tun


    Full Text Available This research paper describes a microcontroller based battery charger by using solar energy. Solar-powered charging systems are already available in rural as well as urban areas. Solar energy is widely used around the worldwide. This system converts solar energy to electrical energy and stores it in a battery. Photovoltaic panel is used to convert solar energy to electrical energy and stored in a 12V battery. Battery is the main component in solar charging system to store the energy generated from sunlight for various application. This system requires sensor to sense whether the battery is fully charged or not. Microcontroller is the heart of the circuit. Lead-acid batteries are the most commonly used power source for many applications. This system consists of voltage sensing charging controlling and display unit.

  8. Optimization of batteries for plug-in hybrid electric vehicles

    English, Jeffrey Robb

    This thesis presents a method to quickly determine the optimal battery for an electric vehicle given a set of vehicle characteristics and desired performance metrics. The model is based on four independent design variables: cell count, cell capacity, state-of-charge window, and battery chemistry. Performance is measured in seven categories: cost, all-electric range, maximum speed, acceleration, battery lifetime, lifetime greenhouse gas emissions, and charging time. The performance of each battery is weighted according to a user-defined objective function to determine its overall fitness. The model is informed by a series of battery tests performed on scaled-down battery samples. Seven battery chemistries were tested for capacity at different discharge rates, maximum output power at different charge levels, and performance in a real-world automotive duty cycle. The results of these tests enable a prediction of the performance of the battery in an automobile. Testing was performed at both room temperature and low temperature to investigate the effects of battery temperature on operation. The testing highlighted differences in behavior between lithium, nickel, and lead based batteries. Battery performance decreased with temperature across all samples with the largest effect on nickel-based chemistries. Output power also decreased with lead acid batteries being the least affected by temperature. Lithium-ion batteries were found to be highly efficient (>95%) under a vehicular duty cycle; nickel and lead batteries have greater losses. Low temperatures hindered battery performance and resulted in accelerated failure in several samples. Lead acid, lead tin, and lithium nickel alloy batteries were unable to complete the low temperature testing regime without losing significant capacity and power capability. This is a concern for their applicability in electric vehicles intended for cold climates which have to maintain battery temperature during long periods of inactivity

  9. Dry cell battery poisoning

    Batteries - dry cell ... Acidic dry cell batteries contain: Manganese dioxide Ammonium chloride Alkaline dry cell batteries contain: Sodium hydroxide Potassium hydroxide Lithium dioxide dry cell batteries ...

  10. Development and Testing of an UltraBattery-Equipped Honda Civic Hybrid

    Sally (Xiaolei) Sun; Tyler Gray; Pattie Hovorka; Jeffrey Wishart; Donald Karner; James Francfort


    The UltraBattery Retrofit Project DP1.8 and Carbon Enriched Project C3, performed by ECOtality North America (ECOtality) and funded by the U.S. Department of Energy and the Advanced Lead Acid Battery Consortium (ALABC), are established to demonstrate the suitability of advanced lead battery technology in hybrid electrical vehicles (HEVs). A profile, termed the “Simulated Honda Civic HEV Profile” (SHCHEVP) has been developed in Project DP1.8 in order to provide reproducible laboratory evaluations of different battery types under real-world HEV conditions. The cycle is based on the Urban Dynamometer Driving Schedule and Highway Fuel Economy Test cycles and simulates operation of a battery pack in a Honda Civic HEV. One pass through the SHCHEVP takes 2,140 seconds and simulates 17.7 miles of driving. A complete nickel metal hydride (NiMH) battery pack was removed from a Honda Civic HEV and operated under SHCHEVP to validate the profile. The voltage behavior and energy balance of the battery during this operation was virtually the same as that displayed by the battery when in the Honda Civic operating on the dynamometer under the Urban Dynamometer Driving Schedule and Highway Fuel Economy Test cycles, thus confirming the efficacy of the simulated profile. An important objective of the project has been to benchmark the performance of the UltraBatteries manufactured by both Furukawa Battery Co., Ltd., Japan (Furakawa) and East Penn Manufacturing Co., Inc. (East Penn). Accordingly, UltraBattery packs from both Furakawa and East Penn have been characterized under a range of conditions. Resistance measurements and capacity tests at various rates show that both battery types are very similar in performance. Both technologies, as well as a standard lead-acid module (included for baseline data), were evaluated under a simple HEV screening test. Both Furakawa and East Penn UltraBattery packs operated for over 32,000 HEV cycles, with minimal loss in performance; whereas the

  11. A review of battery life-cycle analysis : state of knowledge and critical needs.

    Sullivan, J. L.; Gaines, L.; Energy Systems


    A literature review and evaluation has been conducted on cradle-to-gate life-cycle inventory studies of lead-acid, nickel-cadmium, nickel-metal hydride, sodium-sulfur, and lithium-ion battery technologies. Data were sought that represent the production of battery constituent materials and battery manufacture and assembly. Life-cycle production data for many battery materials are available and usable, though some need updating. For the remaining battery materials, lifecycle data either are nonexistent or, in some cases, in need of updating. Although battery manufacturing processes have occasionally been well described, detailed quantitative information on energy and material flows is missing. For all but the lithium-ion batteries, enough constituent material production energy data are available to approximate material production energies for the batteries, though improved input data for some materials are needed. Due to the potential benefit of battery recycling and a scarcity of associated data, there is a critical need for life-cycle data on battery material recycling. Either on a per kilogram or per watt-hour capacity basis, lead-acid batteries have the lowest production energy, carbon dioxide emissions, and criteria pollutant emissions. Some process-related emissions are also reviewed in this report.

  12. Performance requirements of automotive batteries for future car electrical systems

    Friedrich, R.; Richter, G.

    The further increase in the number of power-consuming functions which has been announced for future vehicle electrical systems, and in particular the effects of new starting systems on battery performance, requires a further optimization of the lead acid system coupled with effective energy management, and enhanced battery operating conditions. In the face of these increased requirements, there are proven benefits to splitting the functions of a single SLI battery between two separate, special-purpose batteries, each of which are optimized, for high power output and for high energy throughput, respectively. This will bring about a marked improvement in weight, reliability, and state of charge (SOC). The development of special design starter and service batteries is almost completed and will lead to new products with a high standard of reliability. The design of the power-optimized lead acid accumulator is particularly suitable for further development as the battery for a 42/36 V electrical system. This is intended to improve the efficiency of the generator and the various power-consuming functions and to improve start/stop operation thereby bringing about a marked reduction in the fuel consumption of passenger cars. This improvement can also be assisted by a charge management system used in conjunction with battery status monitoring.

  13. Influence of expander components on the processes at the negative plates of lead-acid cells on high-rate partial-state-of-charge cycling. Part I: Effect of lignosulfonates and BaSO{sub 4} on the processes of charge and discharge of negative plates

    Pavlov, D.; Nikolov, P.; Rogachev, T. [Institute of Electrochemistry and Energy Systems, Bulgarian Academy of Sciences, Acad. Georgi Bonchev Street, bl. 10, Sofia 1113 (Bulgaria)


    This study investigates the influence of the organic expander component (Vanisperse A) and of BaSO{sub 4} on the performance of negative lead-acid battery plates on high-rate partial-state-of-charge (HRPSoC) cycling. Batteries operating in the HRPSoC mode should be classified as a separate type of lead-acid batteries. Hence, the additives to the negative plates should differ from the conventional expander composition. It has been established that lignosulfonates are adsorbed onto the lead surface and thus impede the charge processes, which results in impaired reversibility of the charge-discharge processes and hence shorter cycle life on HRPSoC operation, limited by sulfation of the negative plates. BaSO{sub 4} exerts the opposite effect: it improves the reversibility of the processes in the HRPSoC mode and hence prolongs the cycle life of the cells. The most pronounced effect of BaSO{sub 4} has been registered when it is added in concentration of 1.0 wt.% versus the leady oxide (LO) used for paste preparation. It has also been established that BaSO{sub 4} lowers the overpotential of PbSO{sub 4} nucleation. The results of the present investigation indicate that BaSO{sub 4} affects also the crystallization process of Pb during cell charging. Thus, BaSO{sub 4} eventually improves the performance characteristics of lead-acid cells on HRPSoC cycling. (author)

  14. Development of ultra-battery for hybrid-electric vehicle applications

    Lam, L. T.; Louey, R.

    Transport is one of the largest sources of human-induced greenhouse gas emissions and fossil-fuels consumption. This has lead to a growing demand for hybrid-electric vehicles (HEVs) to reduce air pollution and consumption of fossil fuels. CSIRO Energy Technology has developed the ultra-battery, a new technology that will reduce the cost and boost the performance of batteries in HEVs. The ultra-battery is a hybrid energy-storage device, which combines an asymmetric supercapacitor, and a lead-acid battery in one unit cell, taking the best from both technologies without the need for extra electronic controls. The capacitor will enhance the power and lifespan of the lead-acid battery as it acts as a buffer in discharging and charging. Consequently, this hybrid technology is able to provide and absorb charge rapidly during vehicle acceleration and braking. The ultra-battery has been subjected to a variety of tests. To date, results show that the discharge and charge power of the ultra-battery is ∼50% higher and its cycle-life is at least three times longer than that of the conventional lead-acid counterpart. Furthermore, the ultra-battery is able to be produced as either flooded-electrolyte or valve-regulated designs in the existing lead-acid factory and also able to reconfigure for a variety of applications, such as conventional automobile, power tool, forklift, high-power uninterruptible power supply and remote-area power supply. The prototype ultra-batteries have been constructed and are under laboratory evaluation and field trial. The success of the ultra-battery will obviously make HEVs more affordable and widespread. This, in turn, will reduce greenhouse gas emissions in the urban environment and the consumption of limited supplies of fossil fuels.

  15. Paintable battery.

    Singh, Neelam; Galande, Charudatta; Miranda, Andrea; Mathkar, Akshay; Gao, Wei; Reddy, Arava Leela Mohana; Vlad, Alexandru; Ajayan, Pulickel M


    If the components of a battery, including electrodes, separator, electrolyte and the current collectors can be designed as paints and applied sequentially to build a complete battery, on any arbitrary surface, it would have significant impact on the design, implementation and integration of energy storage devices. Here, we establish a paradigm change in battery assembly by fabricating rechargeable Li-ion batteries solely by multi-step spray painting of its components on a variety of materials such as metals, glass, glazed ceramics and flexible polymer substrates. We also demonstrate the possibility of interconnected modular spray painted battery units to be coupled to energy conversion devices such as solar cells, with possibilities of building standalone energy capture-storage hybrid devices in different configurations.

  16. Turbine exhaust pressure measurements

    Burns, J.M. [Stone & Webster Engineering Corp., Boston, MA (United States); Hernandez, E. [Community Energy Alternatives Inc., Ridgewood, NJ (United States)


    This paper discusses the dynamic operating environment in the turbine-condenser steam space and the two sensors, basket tips and guideplates, that have been approved by ASME test codes for measurement of the static pressure within that exhaust region. It defines the rigorous geometry and construction requirements of these sensors in order that they be acceptable for guarantee/acceptance testing. The paper also offers a practical alternative to the classical ASME PTC 6 (Turbine Test Code) basket tip design that is easier to fabricate in the typical utility machine shop. The alternative design makes it less expensive, much faster to construct, and facilitates the drainage of any accumulated condensate. Comparative field tests by PSE&G`s Research and Testing Laboratory conducted in 1995 at the 300 MW Mercer Generating Station, Unit 1 will be described which demonstrate the modified basket tip pressure measurements are statistically indistinguishable from those of the PTC 6 design. Noting that basket tip turbine exhaust static pressure sensors are recommended by all the major U.S. turbine manufacturers, the paper also presents the limited available history of the empirical basket tip and the lack of any documented calibration history related to the accuracy of the guideplate. Finally, based on the success of this one basket tip variation, the paper concludes that other even more suitable designs could be developed by further research.

  17. Eight years of experience with valve-regulated batteries for automotive use

    Takahashi, K.; Yasuda, H.; Hasegawa, H.; Horie, S.; Kanetsuki, K.

    In 1985, Matsushita developed a valve-regulated lead/acid (VRLA) battery with an expanded grid for automotive use. Since 1989, these batteries have been adopted as original equipment for cars. To take full advantage of their benefits, the batteries are installed away from the engine compartment, for example, in the boot of the car. Despite a steady market for automotive VRLA batteries, there are still a few problems that accompany their use. These must be solved in order to enhance reliability and improve customer satisfaction. The major areas of concern are life at high temperature, and recovery after over-discharge and long standing. Work in these areas is reported here.

  18. Charging performance of automotive batteries-An underestimated factor influencing lifetime and reliable battery operation

    Sauer, Dirk Uwe; Karden, Eckhard; Fricke, Birger; Blanke, Holger; Thele, Marc; Bohlen, Oliver; Schiffer, Julia; Gerschler, Jochen Bernhard; Kaiser, Rudi

    Dynamic charge acceptance and charge acceptance under constant voltage charging conditions are for two reasons essential for lead-acid battery operation: energy efficiency in applications with limited charging time (e.g. PV systems or regenerative braking in vehicles) and avoidance of accelerated ageing due to sulphation. Laboratory tests often use charge regimes which are beneficial for the battery life, but which differ significantly from the operating conditions in the field. Lead-acid batteries in applications with limited charging time and partial-state-of-charge operation are rarely fully charged due to their limited charge acceptance. Therefore, they suffer from sulphation and early capacity loss. However, when appropriate charging strategies are applied most of the lost capacity and thus performance for the user may be recovered. The paper presents several aspects of charging regimes and charge acceptance. Theoretical and experimental investigations show that temperature is the most critical parameter. Full charging within short times can be achieved only at elevated temperatures. A strong dependency of the charge acceptance during charging pulses on the pre-treatment of the battery can be observed, which is not yet fully understood. But these effects have a significant impact on the fuel efficiency of micro-hybrid electric vehicles.

  19. Innovative valve-regulated battery designs rekindle excitement inlead/acid battery technology

    Pierson, John R.; Zagrodnik, Jeffrey P.; Johnson, Richard T.

    Recent innovative approaches to the extension of valve-regulated lead/acid (VRLA) technology have led to thedevelopment of several unique products that possess performance attributes not previously achieved in lead/acid technologies, namely: (i)starting, lighting, ignition (SLI) VRLA batteries; (ii) StackPack ™ foil batteries, and (iii) spiral-wound Thin Metal Film (TMF ™) batteries.TheVRLA automotive product has been demonstrated to be capable of improving on the durability of conventional flooded designs in extreme high-temperature climate and extreme drive-cycle operating conditions. In uninterruptible power supply (UPS) applications, the StackPack ™ battery, at a 15-min discharge rate has delivered 23.3 Wh kg -1 and 1090 Wh 1 -1 as compared with 16.0 Wh kg -1 and 595 Wh 1 -1 for traditional designs. TMF ™ prototypes have exhibited power capability of an order of magnitude higher than conventional VRLA designs and have been utilized successfully in a vehicle for seven months and over 31 000 km (19 200 miles).

  20. Understanding Exhaustive Pattern Learning

    Shen, Libin


    Pattern learning in an important problem in Natural Language Processing (NLP). Some exhaustive pattern learning (EPL) methods (Bod, 1992) were proved to be flawed (Johnson, 2002), while similar algorithms (Och and Ney, 2004) showed great advantages on other tasks, such as machine translation. In this article, we first formalize EPL, and then show that the probability given by an EPL model is constant-factor approximation of the probability given by an ensemble method that integrates exponential number of models obtained with various segmentations of the training data. This work for the first time provides theoretical justification for the widely used EPL algorithm in NLP, which was previously viewed as a flawed heuristic method. Better understanding of EPL may lead to improved pattern learning algorithms in future.

  1. 14 CFR 27.1123 - Exhaust piping.


    ... 14 Aeronautics and Space 1 2010-01-01 2010-01-01 false Exhaust piping. 27.1123 Section 27.1123... STANDARDS: NORMAL CATEGORY ROTORCRAFT Powerplant Exhaust System § 27.1123 Exhaust piping. (a) Exhaust piping... operating temperatures. (b) Exhaust piping must be supported to withstand any vibration and inertia loads...

  2. Design of a thermophotovoltaic battery substitute

    Doyle, Edward F.; Becker, Frederick E.; Shukla, Kailash C.; Fraas, Lewis M.


    Many military platforms that currently use the BA-5590 primary battery or the BB-390A/U rechargeable battery are limited in performance by low storage capacity and long recharge times. Thermo Power Corporation, with team members JX Crystals and Essential Research Inc. is developing an advanced thermophotovoltaic (TPV) battery substitute that will provide higher storage capacity, lower weight, and instantaneous recharging (by refueling). The TPV battery substitute incorporates several advanced design features including: an evacuated and sealed enclosure for the emitter and PV cells to minimize unwanted convection heat transfer from the emitter to PV cells; selective tungsten emitter with a well matched gallium antimonide PV cell receiver; optical filter to recycle nonconvertible radiant energy; and a silicon carbide thermal recuperator to recover thermal energy from exhaust gases.

  3. Aircraft exhaust sulfur emissions

    Brown, R.C.; Anderson, M.R.; Miake-Lye, R.C.; Kolb, C.E. [Aerodyne Research, Inc., Billerica, MA (United States). Center for Chemical and Environmental Physics; Sorokin, A.A.; Buriko, Y.I. [Scientific Research Center `Ecolen`, Moscow (Russian Federation)


    The extent to which fuel sulfur is converted to SO{sub 3} during combustion and the subsequent turbine flow in supersonic and subsonic aircraft engines is estimated numerically. The analysis is based on: a flamelet model with non-equilibrium sulfur chemistry for the combustor, and a one-dimensional, two-stream model with finite rate chemical kinetics for the turbine. The results indicate that between 2% and 10% of the fuel sulfur is emitted as SO{sub 3}. It is also shown that, for a high fuel sulfur mass loading, conversion in the turbine is limited by the level of atomic oxygen at the combustor exit, leading to higher SO{sub 2} oxidation efficiency at lower fuel sulfur loadings. While SO{sub 2} and SO{sub 3} are the primary oxidation products, the model results further indicate H{sub 2}SO{sub 4} levels on the order of 0.1 ppm for supersonic expansions through a divergent nozzle. This source of fully oxidized S(6) (SO{sub 3} + H{sub 2}SO{sub 4}) exceeds previously calculated S(6) levels due to oxidation of SO{sub 2} by OH in the exhaust plume outside the engine nozzle. (author) 26 refs.

  4. The Exhaustive Lexicalisation Principle

    Antonio Fábregas


    Full Text Available In this article I revisit the well-known empirical problem of manner of motion verbs with directional complements in Spanish. I present some data that, to my mind, had not received due attention in previous studies and I show that some manner of motion verbs actually allow directionals with the preposition a, while all of them allow them with prepositions like hacia or hasta. I argue that this pattern is due to a principle that states that every syntactic feature must be identified by lexical insertion, the Exhaustive Lexicalisation Principle. The crucial problem with directional complements is that the Spanish preposition a is locative, in contrast with English to, and, therefore, unable to identify the Path feature. Some verbs license the directional with a because they can lexicalise Path altogether with the verb; all verbs can combine with hasta or hacia because these prepositions lexicalise Path. When neither the verb nor the preposition lexicalise the Path, the construction is ungrammatical.

  5. Economics of exhaustible resources

    Rabhan, S.A.


    This dissertation deals with various issues of resource depletion, beginning with a rather comprehensive review of the literature. The resource scarcity is the first issue dealt with, where differentiation is made between Ricardian and Pure scarcities of exhaustible resources. While the Ricardian scarcity is properly acknowledged and modeled in the resource literature, the fact that the resource stocks are always decreasing with extraction (i.e., the pure scarcity) is overlooked. One important conclusion of the scarcity analysis is that the steady-state point defining the equilibrium values for the nonresource output to capital and the resource flow to resource stock ratios, is found to be a moving one, as a result of the increasing scarcity mechanism. Another observation about the literature is that there is a marked bias in favor of long run, developed economies' problems and resource inputs as opposed to the problems of developing economies and resource exports. Thus, a theoretical framework is developed where not only resource inputs and exports are analyzed but resource exports are advanced as a vehicle for development. Within the context of this theoretical framework, it is concluded that optimality dictates that the resource inputs and exports, expressed per unit of the capital stock, be declining over time. Furthermore, the resource exports are proposed as the domestic substitute for foreign aid.

  6. Symposium on Batteries and Fuel Cells for Stationary and Electric Vehicle Applications, Honolulu, HI, May 16-21, 1993, Proceedings

    Landgrebe, Albert R.; Takehara, Zen-Ichiro

    The present conference discusses the development status of vehicular batteries in Japan, the effects of the solvent for electropolymerization of aniline on the charge/discharge characteristics of polyaniline, the charge/discharge mechanism of the amorphous FeOOH, including aniline as a cathode for a rechargeable Li battery, the effect of mesocarbon microbead structure on the electrochemistry of Li secondary batteries' negative electrode, and novel aluminum batteries. Also discussed are a room-temperature molten salt electrolyte for the Na/iron chloride battery, portable cells for redox batteries, the development status of lead-acid batteries for electric vehicles, mechanically refuelable zinc/air vehicular cells, polymer electrolyte fuel cells for transportation applications, proton exchange membrane fuel cells using gas-fed methanol, and a phosphotic acid fuel cell/battery.

  7. Technical compatibility and safety of glass fiber in battery separators

    Bender, R. [Schuller International, Toledo, OH (United States); Versen, R. [Schuller International, Littleton, CO (United States)


    Nonwovens comprised of glass fibers are both compatible with the relatively harsh chemical environment in lead acid batteries, and yet are safe to handle. The health and safety of glass fibers may seem confusing from a regulatory viewpoint, but are in fact highly tested and well understood scientifically to not cause respiratory disease. Nonwoven separators made from glass fibers are well situated to withstand scientific scrutiny in these times of suspicion of negative health effects ranging from second-hand smoke to tap water. This paper examines technical compatibility of the glass fibers in the battery, the health and safety aspects of glass fibers, and governmental and regulatory interpretation of studies.

  8. Technoeconomic Modeling of Battery Energy Storage in SAM

    DiOrio, Nicholas [National Renewable Energy Lab. (NREL), Golden, CO (United States); Dobos, Aron [National Renewable Energy Lab. (NREL), Golden, CO (United States); Janzou, Steven [National Renewable Energy Lab. (NREL), Golden, CO (United States); Nelson, Austin [National Renewable Energy Lab. (NREL), Golden, CO (United States); Lundstrom, Blake [National Renewable Energy Lab. (NREL), Golden, CO (United States)


    Detailed comprehensive lead-acid and lithium-ion battery models have been integrated with photovoltaic models in an effort to allow System Advisor Model (SAM) to offer the ability to predict the performance and economic benefit of behind the meter storage. In a system with storage, excess PV energy can be saved until later in the day when PV production has fallen, or until times of peak demand when it is more valuable. Complex dispatch strategies can be developed to leverage storage to reduce energy consumption or power demand based on the utility rate structure. This document describes the details of the battery performance and economic models in SAM.

  9. Battery requirements for uninterruptible power-supply applications

    Brownlie, G. D.

    There is an expanding market for small-to-medium capacity secondary batteries for use in uninterruptible power supplies (UPSs). UPSs are commonly used to provide protected power to computer installations, point-of sale terminals, and essential telecommunications equipment. The capacity of currently available UPSs is, typically, from 500 VA to several hundred kVa, with power-backup from ten minutes to one hour at full load. All UPSs incorporate secondary batteries; usually sealed lead/acid cells. Battery requirements include: high reliability; extended operating life; tolerance to extended float charging; and good, deep-discharge characteristics at high discharge rates. Recent research and development experiences in the design of a range of UPSs is described and the need for batteries optimised for UPS applications is highlighted.

  10. USABC Development of 12 Volt Battery for Start-Stop Application: Preprint

    Tataria, H.; Gross, O.; Bae, C.; Cunningham, B.; Barnes, J. A.; Deppe, J.; Neubauer, J.


    Global automakers are accelerating the development of fuel efficient vehicles, as a part of meeting regional regulatory CO2 emissions requirements. The micro hybrid vehicles with auto start-stop functionality are considered economical solutions for the stringent European regulations. Flooded lead acid batteries were initially considered the most economical solution for idle-stop systems. However, the dynamic charge acceptance (DCA) at lower state-of-charge (SOC) was limiting the life of the batteries. While improved lead-acid batteries with AGM and VRLA features have improved battery longevity, they do not last the life of the vehicle. The United States Advanced Battery Consortium (or USABC, a consortium of GM, Ford, and Chrysler) analyzed energy storage needs for a micro hybrid automobile with start-stop capability, and with a single power source. USABC has analyzed the start-stop behaviors of many drivers and has developed the requirements for the start-stop batteries (Table 3). The testing procedures to validate the performance and longevity were standardized and published. The guideline for the cost estimates calculations have also been provided, in order to determine the value of the newly developed modules. The analysis effort resulted in a set of requirements which will help the battery manufacturers to develop a module to meet the automotive Original Equipment Manufacturers (OEM) micro hybrid vehicle requirements. Battery developers were invited to submit development proposals and two proposals were selected for 50% cost share with USABC/DOE.

  11. Production of automotive batteries in Russia and other members of the CIS: status, problems and prospects

    Soldatenko, V.; Gagarinov, V.

    At present, the total capacity for the production of automotive lead/acid batteries in Russia and other members of the CIS is 10 million units per annum. This capcity should be increased by 4.7 million units in 1996. Nevertheless, environmental problems, plant modernization and shortage of raw materials are expected to cause a decrease in the existing rate of battery production. Russia imported 1.5 million batteries in 1993. The future strategy of the Russian battery industry is two-fold: an expansion of exports; a focus on smaller battery sizes (up to 60 Ah). A major problem lies in the fact that the present market consists predominantly of small consumers that are spread over vast distances. It is therefore critical to establish an effective, new infrastructure for battery distribution.

  12. Memel's Batteries

    Alexander F. Mitrofanov


    Full Text Available The article describes the history and equipment of the coastal and antiaircraft artillery batteries of German Navy (Kriegsmarine constructed in Memel area before and during the World War. There is given the brief description of the Soviet Navy stationed in the area in the postwar years.

  13. Digital Batteries

    Hubler, Alfred


    The energy density in conventional capacitors is limited by sparking. We present nano-capacitor arrays, where - like in laser diodes and quantum wells [1] - quantization prevents dielectric breakthrough. We show that the energy density and the power/weight ratio are very high, possibly larger than in hydrogen [2]. Digital batteries are a potential clean energy source for cars, laptops, and mobile devices. The technology is related to flash drives. However, because of the high energy density, safety is a concern. Digital batteries can be easily and safely charged and discharged. In the discharged state they pose no danger. Even if a charged digital battery were to explode, it would produce no radioactive waste, no long-term radiation, and probably could be designed to produce no noxious chemicals. We discuss methodologies to prevent shorts and other measures to make digital batteries safe. [1] H. Higuraskh, A. Toriumi, F. Yamaguchi, K. Kawamura, A. Hubler, Correlation Tunnel Device, U. S. Patent No. 5,679,961 (1997) [2] Alfred Hubler,

  14. 14 CFR 29.1123 - Exhaust piping.


    ... 14 Aeronautics and Space 1 2010-01-01 2010-01-01 false Exhaust piping. 29.1123 Section 29.1123... STANDARDS: TRANSPORT CATEGORY ROTORCRAFT Powerplant Exhaust System § 29.1123 Exhaust piping. (a) Exhaust piping must be heat and corrosion resistant, and must have provisions to prevent failure due to...

  15. 14 CFR 25.1123 - Exhaust piping.


    ... 14 Aeronautics and Space 1 2010-01-01 2010-01-01 false Exhaust piping. 25.1123 Section 25.1123... STANDARDS: TRANSPORT CATEGORY AIRPLANES Powerplant Exhaust System § 25.1123 Exhaust piping. For powerplant and auxiliary power unit installations, the following apply: (a) Exhaust piping must be heat...

  16. 46 CFR 169.609 - Exhaust systems.


    ... 46 Shipping 7 2010-10-01 2010-10-01 false Exhaust systems. 169.609 Section 169.609 Shipping COAST... Electrical Internal Combustion Engine Installations § 169.609 Exhaust systems. Engine exhaust installations... Yacht Council, Inc. Standard P-1, “Safe Installation of Exhaust Systems for Propulsion and Auxiliary...

  17. 49 CFR 325.91 - Exhaust systems.


    ... 49 Transportation 5 2010-10-01 2010-10-01 false Exhaust systems. 325.91 Section 325.91... EMISSION STANDARDS Exhaust Systems and Tires § 325.91 Exhaust systems. Link to an amendment published at 75 FR 57193, Sept. 20, 2010. A motor vehicle does not conform to the visual exhaust system inspection...

  18. Impact of modern battery design and the implications for primary and secondary lead production

    Stevenson, M. W.; Manders, J. E.; Eckfeld, S.; Prengaman, R. D.

    The emerging change in the automobile industry with the advent of the 42 V electrical operating system will impose a revolutionary change not only on the car industry, but also on the battery industry overall. The implications of this change will be felt by the battery producers, most of whom will require new or advanced production techniques for 36 V batteries, and subsequently by their suppliers of raw material. The demand for batteries of higher quality—in particular, the valve-regulated lead-acid (VRLA) battery, which is the battery of choice for the new automotive system—will place much higher demands upon the quality of the raw materials used in battery manufacture. It has been well documented that high-quality raw materials, such as lead, acid and separators, are a requirement in order to guarantee battery performance. The presence of impurities (antimony, arsenic, tellurium, etc.) in the enclosed system of the VRLA battery will impart problems such as dry-out, self-discharge and negative-plate capacity loss which will result in premature failure of the battery. One major problem for both primary and secondary lead producers is the presence of these impurities in their metal streams. Of particular interest to the smelters are the levels of antimony and silver. The latter element is increasing to alarming levels. With changing battery technology, both elements will pose serious problems to the lead producers in maintaining high-quality lead under the present cost structure. Some of the challenges that face the lead industry in meeting the demands of VRLA battery producers for product of higher quality are examined in this paper.

  19. Batteries: Overview of Battery Cathodes

    Doeff, Marca M


    The very high theoretical capacity of lithium (3829 mAh/g) provided a compelling rationale from the 1970's onward for development of rechargeable batteries employing the elemental metal as an anode. The realization that some transition metal compounds undergo reductive lithium intercalation reactions reversibly allowed use of these materials as cathodes in these devices, most notably, TiS{sub 2}. Another intercalation compound, LiCoO{sub 2}, was described shortly thereafter but, because it was produced in the discharged state, was not considered to be of interest by battery companies at the time. Due to difficulties with the rechargeability of lithium and related safety concerns, however, alternative anodes were sought. The graphite intercalation compound (GIC) LiC{sub 6} was considered an attractive candidate but the high reactivity with commonly used electrolytic solutions containing organic solvents was recognized as a significant impediment to its use. The development of electrolytes that allowed the formation of a solid electrolyte interface (SEI) on surfaces of the carbon particles was a breakthrough that enabled commercialization of Li-ion batteries. In 1990, Sony announced the first commercial batteries based on a dual Li ion intercalation system. These devices are assembled in the discharged state, so that it is convenient to employ a prelithiated cathode such as LiCoO{sub 2} with the commonly used graphite anode. After charging, the batteries are ready to power devices. The practical realization of high energy density Li-ion batteries revolutionized the portable electronics industry, as evidenced by the widespread market penetration of mobile phones, laptop computers, digital music players, and other lightweight devices since the early 1990s. In 2009, worldwide sales of Li-ion batteries for these applications alone were US$ 7 billion. Furthermore, their performance characteristics (Figure 1) make them attractive for traction applications such as

  20. Batteries: Overview of Battery Cathodes

    Doeff, Marca M


    The very high theoretical capacity of lithium (3829 mAh/g) provided a compelling rationale from the 1970's onward for development of rechargeable batteries employing the elemental metal as an anode. The realization that some transition metal compounds undergo reductive lithium intercalation reactions reversibly allowed use of these materials as cathodes in these devices, most notably, TiS{sub 2}. Another intercalation compound, LiCoO{sub 2}, was described shortly thereafter but, because it was produced in the discharged state, was not considered to be of interest by battery companies at the time. Due to difficulties with the rechargeability of lithium and related safety concerns, however, alternative anodes were sought. The graphite intercalation compound (GIC) LiC{sub 6} was considered an attractive candidate but the high reactivity with commonly used electrolytic solutions containing organic solvents was recognized as a significant impediment to its use. The development of electrolytes that allowed the formation of a solid electrolyte interface (SEI) on surfaces of the carbon particles was a breakthrough that enabled commercialization of Li-ion batteries. In 1990, Sony announced the first commercial batteries based on a dual Li ion intercalation system. These devices are assembled in the discharged state, so that it is convenient to employ a prelithiated cathode such as LiCoO{sub 2} with the commonly used graphite anode. After charging, the batteries are ready to power devices. The practical realization of high energy density Li-ion batteries revolutionized the portable electronics industry, as evidenced by the widespread market penetration of mobile phones, laptop computers, digital music players, and other lightweight devices since the early 1990s. In 2009, worldwide sales of Li-ion batteries for these applications alone were US$ 7 billion. Furthermore, their performance characteristics (Figure 1) make them attractive for traction applications such as

  1. Structure and properties of lead-calcium-tin alloys for battery grids

    Lakshmi, C.S. [Pasminco Ltd., Boolaroo, NSW (Australia); Manders, J.E.; Rice, D.M. [Pasminco Ltd., Melbourne, VIC (Australia)


    The selection of an appropriate alloy composition for battery grids is essential for the performance and long life of lead/acid batteries. This investigation examines the effects of the variation of calcium (0.03 to 0.13 wt.%) and tin (0.3 to 1.5 wt.%) content on the microstructure, mechanical properties and the corrosion resistance of cast Pb-Ca-Sn battery grids. Both corrosion resistance and the mechanical properties are found to increase with increasing tin and decreasing calcium levels. The relationship between the alloy composition and the resulting properties of the grids is discussed. (orig.)

  2. Design and Comparative Study of Three Photovoltaic Battery Charge Control Algorithms in MATLAB/SIMULINK Environment

    Ankur Bhattacharjee


    Full Text Available This paper contains the design of a three stage solar battery charge controller and a comparative study of this charge control technique with three conventional solar battery charge control techniques such as 1. Constant Current (CC charging, 2. Two stage constant current constant voltage (CC-CV charging technique. The analysis and the comparative study of the aforesaid charging techniques are done in MATLAB/SIMULINK environment. Here the practical data used to simulate the charge control algorithms are based on a 12Volts 7Ah Sealed lead acid battery.

  3. Influence of expander components on the processes at the negative plates of lead-acid cells on high-rate partial-state-of-charge cycling. Part II. Effect of carbon additives on the processes of charge and discharge of negative plates

    Pavlov, D.; Nikolov, P.; Rogachev, T. [Institute of Electrochemistry and Energy Systems, Bulgarian Academy of Sciences, Acad. Georgi Bonchev Street, bl. 10, Sofia 1113 (Bulgaria)


    Lead-acid batteries operated in the high-rate partial-state-of-charge (HRPSoC) duty rapidly lose capacity on cycling, because of sulfation of the negative plates. As the battery operates from a partially discharged state, the small PbSO{sub 4} crystals dissolve and precipitate onto the bigger crystals. The latter have low solubility and hence PbSO{sub 4} accumulates progressively in the negative plates causing capacity loss. In order to suppress this process, the rate of the charge process should be increased. In a previous publication of ours we have established that reduction of Pb{sup 2+} ions to Pb may proceed on the surface of both Pb and carbon black particles. Hence, the reversibility of the charge-discharge processes improves, which leads to improved cycle life performance of the batteries in the HRPSoC mode. However, not all carbon forms accelerate the charge processes. The present paper discusses the electrochemical properties of two groups of carbon blacks: Printex and active carbons. The influence of Vaniseprse A and BaSO{sub 4} (the other two components of the expander added to the negative plates) on the reversibility of the charge-discharge processes on the negative plates is also considered. It has been established that lignosulfonates are adsorbed onto the lead surface and retard charging of the battery. BaSO{sub 4} has the opposite effect, which improves the reversibility of the processes on cycling and hence prolongs battery life in the HRPSoC duty. It has been established that the cycle life of lead-acid cells depends on the type of carbon black or active carbon added to the negative plates. When the carbon particles are of nano-sizes (<180 nm), the HRPSoC cycle life is between 10,000 and 20,000 cycles. Lignosulfonates suppress this beneficial effect of carbon black and activated carbon additives to about 10,000 cycles. Cells with active carbons have the longest cycle life when they contain also BaSO{sub 4} but no lignosulfonate. A summary of

  4. Renewable rural electrification: Prediction of sustainability in South Africa: Case study: Wind and solar photo-voltaic with lead acid battery storage

    Rogers, DEC


    Full Text Available in the fields of economics, sociology, ecosystem sustainability, governance and the physics, and chemistry of energy conversion processes. South African socio-economic commitments for the provision of free basic services have been applied so as to achieve...

  5. Performance of electrolyte for PVA added colloid lead-acid battery%含添加剂PVA的胶体铅酸电池电解质性能

    马运法; 林本慧


    To improve the physical properties and electrochemical performance of gel electrolyte, gel electrolytes with different contents of polyving alcohol(PVA)were prepared. Test results of viscosity,strength and gelling time tests showed that viscosity was increased with increasing PVA content and increased significantly when the content was over 0.0050%. Gel strength was enhanced and gelling time was prolonged when adding PVA of 0.0025%and 0.0050%,and gel performance was improved. However,physical properties of the electrolyte could not be improved,when the content of PVA was further increased. Cyclic voltammetry and AC impedance spectroscopy test results showed that adding PVA of 0.0050% could improve the reaction current and power of electrode,increase the utilization of active material and oxygen evolution potential,suppress self-discharge and lower impedance of electrolyte , electrochemical reaction charge transfer resistance and capacitance.%为改善胶体电解质的物理性质,提高电化学性能,制备了不同聚乙烯醇(PVA)含量的胶体电解质,黏度、强度和胶凝时间测试结果表明,黏度随PVA含量的提高而增加,在含量0.0050%之后增加显著;加入0.0025%和0.0050% PVA,凝胶强度增大,胶凝时间延长,凝胶性能得到改善,但继续提高PVA含量对改善电解质的物理性质不利。循环伏安和交流阻抗测试结果表明,加入0.0050% PVA可提高电极的反应电流和电量,有利于提高活性物质的利用率、析氧过电位,抑制自放电,降低电解质的阻抗、电化学反应的电荷转移电阻和电容。

  6. 铅酸蓄电池相关特性的试验研究%Study on the correlative characteristics of lead-acid batteries

    丁左武; 王书林; 赵伟军; 赵建华; 屈敏



  7. High-power batteries for the new 36/42 V automotive systems

    Nelson, R. F.

    The new automotive architectures will require high-voltage, high-power batteries that are completely different from existing 12 V flooded lead-acid products. Battery requirements for these applications are reviewed first from the standpoint of the vehicle, and then from an electrochemical/thermal performance perspective. Design and performance characteristics are then critically evaluated for the three major candidates for the new 36/42 V systems, namely: valve-regulated lead-acid (VRLA), nickel-metal-hydride (Ni-MH), and lithium-ion (Li-ion). Design and manufacturing requirements, performance strengths and weaknesses, reliability issues, markets and pricing are then examined for the VRLA battery, which appears to be the leading candidate at this time.

  8. Battery Safety Basics

    Roy, Ken


    Batteries commonly used in flashlights and other household devices produce hydrogen gas as a product of zinc electrode corrosion. The amount of gas produced is affected by the batteries' design and charge rate. Dangerous levels of hydrogen gas can be released if battery types are mixed, batteries are damaged, batteries are of different ages, or…

  9. The influence of battery degradation level on the selected traction parameters of a light-duty electric vehicle

    Juda, Z.; Noga, M.


    The article describes results of an analysis of the impact of degradation level of battery made in lead-acid technology on selected traction parameters of an electric light duty vehicle. Lead-acid batteries are still used in these types of vehicles. They do not require complex systems of performance management and monitoring and are easy to maintaining. Despite the basic disadvantage, which is the low value of energy density, low price is a decisive factor for their use in low-speed electric vehicles. The process of aging of the battery related with an increase in internal resistance of the cells and the loss of electric capacity of the battery was considered. A simplified model of cooperation of the DC electric motor with the battery assuming increased internal resistance was presented. In the paper the results of comparative traction research of the light-duty vehicle equipped with a set of new batteries and set of batteries having a significant degradation level were showed. The analysis of obtained results showed that the correct exploitation of the battery can slow down the processes of degradation and, thus, extend battery life cycle.

  10. Design optimization of tall tubular lead/acid cells based on an analysis of the reaction distribution

    Asai, Kenji; Hatanaka, Teruhiro; Tsubota, Masaharu; Yonezu, Kunio; Ando, Koji

    In order to estimate the discharge performance of tall lead/acid cells (with tubular positives), changes in current and potential distributions with discharge progress were calculated with a computer on the basis of plate resistance and the current—potential—time relationship between small facing parts of positive and negative plates. The taller the cell, the larger the voltage drop along the plates. Thus, the discharge time became shorter despite a large amount of available active mass remaining in the bottom part of the plates. Various current-collector designs were evaluated, e.g., one with varying resistance at each height; a side conductor placed along the plates and connected to them at the top, centre and bottom, etc. Results revealed an optimum collector design with which the maximum discharge capacity could be obtained. Furthermore, it was shown that the side conductor markedly improved the discharge performance because the active mass near the connecting parts was appreciably used.

  11. Semiconductor industry wafer fab exhaust management

    Sherer, Michael J


    Given the myriad exhaust compounds and the corresponding problems that they can pose in an exhaust management system, the proper choice of such systems is a complex task. Presenting the fundamentals, technical details, and general solutions to real-world problems, Semiconductor Industry: Wafer Fab Exhaust Management offers practical guidance on selecting an appropriate system for a given application. Using examples that provide a clear understanding of the concepts discussed, Sherer covers facility layout, support facilities operations, and semiconductor process equipment, followed by exhaust types and challenges. He reviews exhaust point-of-use devices and exhaust line requirements needed between process equipment and the centralized exhaust system. The book includes information on wet scrubbers for a centralized acid exhaust system and a centralized ammonia exhaust system and on centralized equipment to control volatile organic compounds. It concludes with a chapter devoted to emergency releases and a separ...

  12. Battery chargers; Chargeurs de batteries

    Peutot, Ch. [Lycee Leonard-de-Vinci de Melun, 77 (France)


    Two categories of battery chargers exist: external ones and internal ones. In the first category two types are developing today: direct contact chargers for fast and normal charging, and contact-less chargers. The second category is mainly devoted to vehicle applications (automobiles, trains etc..) and must fulfill strict technical-economical criteria (cost, weight, size, vibrations and shocks resistance, service life, power etc..). This article presents todays advance in chargers technology: 1 - general principles (different battery types, charging profiles, multiple chargers); 2 - chargers for low-cost applications (direct chargers, constant voltage chargers, voltage regulated chargers, integrated chargers, applications); 3 - advanced sinusoidal absorption chargers (general scheme, safety constraints, energy conversion structures ('buck', 'boost', 'cuck', 'flyback' switching power supplies), regulation control); 4 - concrete cases: single output and multi-output chargers. (J.S.)

  13. Exhaust Gas Scrubber Washwater Effluent


    Kent by Newcastle University and the Terramare Institute. Samples of raw seawater and scrubber washwater were collected at the inlet and discharge of...from Ships. Research Centre Terramare . Wilhelmshaven, Germany. Couple Systems. 2010. Dry EGCS Process Dry Exhaust Gas Cleaning System (http...BP Marine. Research Centre Terramare , Wilhelmshaven, Germany and School of Marine Science and Technology, University of Newcastle, Newcastle upon

  14. Ship exhaust gas plume cooling

    Schleijpen, H.M.A.; Neele, P.P.


    The exhaust gas plume is an important and sometimes dominating contributor to the infrared signature of ships. Suppression of the infrared ship signatures has been studied by TNO for the Royal Netherlands Navy over considerable time. This study deals with the suppression effects, which can be achiev

  15. Matching the characteristics of batteries with solar cell modules

    Gay, C. F.; Kapur, V. K.; Pyle, B.; Rumburg, J.; Manfredi, A.

    The typical photovoltaic (PV) power system consists currently of one or a few PV modules. Each module contains from 32 to 40 cells. The modules are connected to one or more six-cell (12 V) lead-acid batteries through a voltage regulator or charge controller. Input conditions for design optimization are discussed, taking into account the basic system, the standard solar day and typical variations, and the dependence of PV module performance on insolation and temperature. Problems regarding the matching of the module voltage to battery characteristics are considered, and a description is provided of the results obtained with a module which was designed to satisfy certain requirements. The investigation shows that it is possible to design a photovoltaic generator to match appropriate characteristics of the battery, taking into account the possibility to maintain self-regulation in practical field operations.

  16. Empirical evaluation of the improvement of battery output when coupled with a capacitor bank

    Cain, Stephen R.; Anderson, Allen; Tasillo, Edward; Infantolino, William; Wolfgramm, Paul


    It has been demonstrated experimentally that a capacitor bank when connected in parallel with a battery increases the energy output by mitigating the effects of high current spikes in the load. High current draws are taken from the capacitor bank which can furnish a small amount of energy quickly. The battery which can furnish substantial energy over a period of time then recharges the capacitor bank during times of decreased load. With a current square wave (P-P of 1.5 to 2× the average), capacitors afforded an increase in the retrievable energy of approximately 8% for a lead acid battery, 40% for a rechargeable lithium ion battery, and 46% for a non-rechargeable lithium ion battery.

  17. Mass transport and direction dependent battery modeling for accurate on-line power capability prediction

    Wiegman, H.L.N. [General Electric Corporate Research and Development, Schenectady, NY (United States)


    Some recent advances in battery modeling were discussed with reference to on-line impedance estimates and power performance predictions for aqueous solution, porous electrode cell structures. The objective was to determine which methods accurately estimate a battery's internal state and power capability while operating a charge and sustaining a hybrid electric vehicle (HEV) over a wide range of driving conditions. The enhancements to the Randles-Ershler equivalent electrical model of common cells with lead-acid, nickel-cadmium and nickel-metal hydride chemistries were described. This study also investigated which impedances are sensitive to boundary layer charge concentrations and mass transport limitations. Non-linear impedances were shown to significantly affect the battery's ability to process power. The main advantage of on-line estimating a battery's impedance state and power capability is that the battery can be optimally sized for any application. refs., tabs., figs., append.

  18. Battery/Ultracapacitor Evaluation for X-38 Crew Return Vehicle (CRV)

    Darcy, Eric; Strangways, Bradley


    This presentation reported on the evaluation of the battery/ultracapacitor for the crew return vehicle (CRV). The CRV, as part of the international space station (ISS) planning, will be available to return to earth an ill or injured crew person, or if the ISS becomes unsafe, and the shuttle is not available. The requirements of the X-38 CRV are reviewed, and in light of the power requirements, the battery's required performance is reviewed. The ultracapacitor bank, and its test method is described. The test results are reviewed. A picture of the test set up is displayed showing the ultracapacitor bank and the NiMH battery. The presentation continues by reviewing tests of 5 available trade high power cell designs: (1) Hawker lead acid, (2) Bolder lead acid, (3) Energizer NiMH, (4) Sanyo NiCd, and (5) Energizer NiCd. The test methods and results are reviewed. There is also a review of the issues concerning lead acid batteries and conclusions.

  19. Optimal economy-based battery degradation management dynamics for fuel-cell plug-in hybrid electric vehicles

    Martel, François; Kelouwani, Sousso; Dubé, Yves; Agbossou, Kodjo


    This work analyses the economical dynamics of an optimized battery degradation management strategy intended for plug-in hybrid electric vehicles (PHEVs) with consideration given to low-cost technologies, such as lead-acid batteries. The optimal management algorithm described herein is based on discrete dynamic programming theory (DDP) and was designed for the purpose of PHEV battery degradation management; its operation relies on simulation models using data obtained experimentally on a physical PHEV platform. These tools are first used to define an optimal management strategy according to the economical weights of PHEV battery degradation and the secondary energy carriers spent to manage its deleterious effects. We then conduct a sensitivity study of the proposed optimization process to the fluctuating economic parameters associated with the fuel and energy costs involved in the degradation management process. Results demonstrate the influence of each parameter on the process's response, including daily total operating costs and expected battery lifetime, as well as establish boundaries for useful application of the method; in addition, they provide a case for the relevance of inexpensive battery technologies, such as lead-acid batteries, for economy-centric PHEV applications where battery degradation is a major concern.

  20. Exhaust System Reinforced by Jet Flow

    Pedersen, Lars Germann; Nielsen, Peter V.

    Since 1985 the University of Aalborg and Nordfab A/S have been working on an exhaust principle which is quite different from traditional exhaust systems. The REEXS principle (Reinforced Exhaust System), which originally was designed for the agricultural sector, is particularly well-suited for ind...

  1. Exhaust emission control and diagnostics

    Mazur, Christopher John; Upadhyay, Devesh


    A diesel engine emission control system uses an upstream oxidation catalyst and a downstream SCR catalyst to reduce NOx in a lean exhaust gas environment. The engine and upstream oxidation catalyst are configured to provide approximately a 1:1 ratio of NO to NO2 entering the downstream catalyst. In this way, the downstream catalyst is insensitive to sulfur contamination, and also has improved overall catalyst NOx conversion efficiency. Degradation of the system is determined when the ratio provided is no longer near the desired 1:1 ratio. This condition is detected using measurements of engine operating conditions such as from a NOx sensor located downstream of the catalysts. Finally, control action to adjust an injected amount of reductant in the exhaust gas based on the actual NO to NO2 ratio upstream of the SCR catalyst and downstream of the oxidation catalyst.

  2. Research on Battery Charging-Discharging in New Energy Systems

    Che Yanbo


    Full Text Available As an energy storage component, the battery plays increasingly important role in new energy industry. Charging and discharging system is the vital part of the application of the battery, but the charge and discharge are always designed separately and carried by different part in the traditional application. Additionally, most battery discharge mode and method are always simplified which cannot ensure to meet the demand of power utilization. In the actual energy storage system, the design of the energy converter, which make the power storage and supply as a whole and the design of the charge and discharge method, will play an important role in efficient utilization of the battery system. As a part of the new energy system, the study makes battery and the charging and discharging system as a whole to store energy, which can store and release electric energy high efficiently according to the system state and control the bidirectional flow of energy precisely. Using TMS320F2812 as the control core, the system which integrates charging and discharging with battery monitoring can achieve the bidirectional Buck/Boost power control. It can achieve three-stage charging and selective discharging of the battery. Due to the influence of the diode reverse recovery time, current oscillation will appear. In order to eliminate the oscillation, we can set the circuit to work in critical conduction mode. The experimental result shows that the system can achieve the charging and discharging control of lead-acid battery and increase the battery life time further.

  3. Electrophysiologic Study of Exhaustive Exercise

    MA Babaee Bigi


    Full Text Available Background: Exhaustive exercise is well known to pose a variety ofhealth hazards, such as sudden cardiac death reported in ultra-marathon runners.Depressed parasympathetic tone is associated with increased risk of suddencardiac death, thus parasympathetic withdrawal in post-exercise phase may be ahigh risk period for sudden death. To date, the effect on cardiacelectrophysiology after exhaustive strenuous exercise has not been described.The aim of this study was to evaluate the impact of severe exhaustive exerciseon cardiac electrophysiology.Methods: The subjects in ranger training were invited to participatein this prospective study. The parameters measured consisted of PR interval, QRSduration, and macro T wave alternans as well as corrected QT, QTc dispersion,Tpeak –Tend interval and Tpeak –Tend dispersion.Results: The study group consisted of 40 consecutive male rangers whocompleted training and the control group (22 healthy age and height matched malesubjects. In regard to electrocardiographic criteria, no differences were foundbetween rangers before and after training program. In respect of therepolarization markers, there were no significant differences between therangers before and after training program.

  4. Alkaline battery operational methodology

    Sholklapper, Tal; Gallaway, Joshua; Steingart, Daniel; Ingale, Nilesh; Nyce, Michael


    Methods of using specific operational charge and discharge parameters to extend the life of alkaline batteries are disclosed. The methods can be used with any commercial primary or secondary alkaline battery, as well as with newer alkaline battery designs, including batteries with flowing electrolyte. The methods include cycling batteries within a narrow operating voltage window, with minimum and maximum cut-off voltages that are set based on battery characteristics and environmental conditions. The narrow voltage window decreases available capacity but allows the batteries to be cycled for hundreds or thousands of times.

  5. Ecological and biomedical effects of effluents from near-term electric vehicle storage battery cycles


    An assessment of the ecological and biomedical effects due to commercialization of storage batteries for electric and hybrid vehicles is given. It deals only with the near-term batteries, namely Pb/acid, Ni/Zn, and Ni/Fe, but the complete battery cycle is considered, i.e., mining and milling of raw materials, manufacture of the batteries, cases and covers; use of the batteries in electric vehicles, including the charge-discharge cycles; recycling of spent batteries; and disposal of nonrecyclable components. The gaseous, liquid, and solid emissions from various phases of the battery cycle are identified. The effluent dispersal in the environment is modeled and ecological effects are assessed in terms of biogeochemical cycles. The metabolic and toxic responses by humans and laboratory animals to constituents of the effluents are discussed. Pertinent environmental and health regulations related to the battery industry are summarized and regulatory implications for large-scale storage battery commercialization are discussed. Each of the seven sections were abstracted and indexed individually for EDB/ERA. Additional information is presented in the seven appendixes entitled; growth rate scenario for lead/acid battery development; changes in battery composition during discharge; dispersion of stack and fugitive emissions from battery-related operations; methodology for estimating population exposure to total suspended particulates and SO/sub 2/ resulting from central power station emissions for the daily battery charging demand of 10,000 electric vehicles; determination of As air emissions from Zn smelting; health effects: research related to EV battery technologies. (JGB)

  6. Experimental research on charging characteristics of a pressure-controlled VRLA battery in high-temperature environments

    Hua ZHU; Jin-jun TAN; Zhang-lu XU; Ji-sen XU


    Valve-regulated-lead-acid (VRLA) battery charging performed in high-temperature environments is extremely risky under overcharge conditions, and may lead to a subsequent thermal runaway. A new pressure-controlled charging method was adopted and the charging characteristics of the pressure-controlled VRLA battery in high-temperature environments were ex-perimentally studied. The concept was tested in a large temperature gradient to obtain more details about the effects of users' accustomed charging and discharging modes on battery capacity.' The premature capacity loss (PCL) phenomenon under high temperature exposure was analyzed. The results showed that the capacity loss could be recovered by charging using a large current.

  7. Economic Optimization of Component Sizing for Residential Battery Storage Systems

    Holger C. Hesse


    Full Text Available Battery energy storage systems (BESS coupled with rooftop-mounted residential photovoltaic (PV generation, designated as PV-BESS, draw increasing attention and market penetration as more and more such systems become available. The manifold BESS deployed to date rely on a variety of different battery technologies, show a great variation of battery size, and power electronics dimensioning. However, given today’s high investment costs of BESS, a well-matched design and adequate sizing of the storage systems are prerequisites to allow profitability for the end-user. The economic viability of a PV-BESS depends also on the battery operation, storage technology, and aging of the system. In this paper, a general method for comprehensive PV-BESS techno-economic analysis and optimization is presented and applied to the state-of-art PV-BESS to determine its optimal parameters. Using a linear optimization method, a cost-optimal sizing of the battery and power electronics is derived based on solar energy availability and local demand. At the same time, the power flow optimization reveals the best storage operation patterns considering a trade-off between energy purchase, feed-in remuneration, and battery aging. Using up to date technology-specific aging information and the investment cost of battery and inverter systems, three mature battery chemistries are compared; a lead-acid (PbA system and two lithium-ion systems, one with lithium-iron-phosphate (LFP and another with lithium-nickel-manganese-cobalt (NMC cathode. The results show that different storage technology and component sizing provide the best economic performances, depending on the scenario of load demand and PV generation.

  8. Modeling, Design and Simulation of Stand-Alone Photovoltaic Power Systems with Battery Storage

    Abd Essalam BADOUD; Mabrouk KHEMLICHE


    Stand alone renewable energy based on photovoltaic systems accompanied with battery storage system are beginning to play an important role over the world to supply power to remote areas. The objective of the study reported in this paper is to elaborate and design a bond graphs model for sizing stand-alone domestic solar photovoltaic electricity systems and simulating the performance of the systems in a tropical climate. The systems modelled consist of an array of PV modules, a lead-acid batte...

  9. Multispectral imaging of aircraft exhaust

    Berkson, Emily E.; Messinger, David W.


    Aircraft pollutants emitted during the landing-takeoff (LTO) cycle have significant effects on the local air quality surrounding airports. There are currently no inexpensive, portable, and unobtrusive sensors to quantify the amount of pollutants emitted from aircraft engines throughout the LTO cycle or to monitor the spatial-temporal extent of the exhaust plume. We seek to thoroughly characterize the unburned hydrocarbon (UHC) emissions from jet engine plumes and to design a portable imaging system to remotely quantify the emitted UHCs and temporally track the distribution of the plume. This paper shows results from the radiometric modeling of a jet engine exhaust plume and describes a prototype long-wave infrared imaging system capable of meeting the above requirements. The plume was modeled with vegetation and sky backgrounds, and filters were selected to maximize the detectivity of the plume. Initial calculations yield a look-up chart, which relates the minimum amount of emitted UHCs required to detect the presence of a plume to the noise-equivalent radiance of a system. Future work will aim to deploy the prototype imaging system at the Greater Rochester International Airport to assess the applicability of the system on a national scale. This project will help monitor the local pollution surrounding airports and allow better-informed decision-making regarding emission caps and pollution bylaws.

  10. High rate partial-state-of-charge operation of VRLA batteries

    Moseley, Patrick T.

    The world market for 12 V SLI batteries currently stands at around US$ 12 billion. The lack of a serious challenge from other battery types has allowed lead-acid products to serve this market exclusively, with minimal demand for product improvement through research and development, and a sharp competition has, over time, cut sales prices to commodity levels. The electrochemical storage of energy in automobiles now faces the possibility of a major change, in the form of the proposed 36/42 V electrical systems for vehicles that remain primarily powered by internal combustion engines, and of the hybrid electric vehicle. The duty cycle for these two applications sees the battery held at a partial-state-of-charge (PSoC) for most of its life and required to supply, and to accept, charge at unprecedented rates. The remarkable advances achieved with VRLA battery technology for electric vehicles during the past 8-10 years will be of only passing value in overcoming the challenges posed by high rate PSoC service in 36/42 V and HEV duty. This is because the failure modes seen in PSoC are quite different from those faced in EV (deep cycle) use. The replacement of the 12 V SLI will not take place rapidly. However, if the applications which take its place are to be satisfied by a lead-acid product (probably VRLA), rather than by a battery of a different chemistry, a program of development as successful as that mounted for deep cycle duty will be required. The present phase of the Advanced Lead-Acid Battery Consortium (ALABC) R&D program has begun to shed light on those aspects of the function of a VRLA battery which currently limit its life in high rate PSoC duty. The program is also pursuing the several technologies which show promise of overcoming those limits, including multiple tab plate design, mass transport facilitation and minor component (both beneficial and detrimental impurity) management. This paper presents a brief review of the changes which are taking place in

  11. Health and environmental effects document for batteries: 1980


    An evaluation is presented of the ecological and health effects of the near-term electric storage batteries (lead/acid, nickel/zinc, and nickel/iron) as related to electric and hybrid vehicle applications. The storage battery technology is considered in its totality, and emissions are estimated for the complete cycle. For estimating quantities of various emissions, the market penetration is assumed to be 3 x 10/sup 6/ Pb/acid battery-powered vehicles and 8 x 10/sup 6/ each of the Ni/Zn and Ni/Fe battery-powered vehicles on the road by the year 2000. Ecological effects are assessed using the Estimated Permissible Concentration (EPC) approach. Pb, S, Cu, Ni, Cd, Zn, and Sb appear to be the most hazardous emission constituents and exceed EPC values for protection of ecology in one or more of the battery-related industries. More definitive, quantitative estimates of damage to the biota and to the ecosystem are not feasible because of paucity of relevant information. Health effects as a result of increased levels of lead, arsenic, and cadmium in the environment and risks of exposure to arsine, stibine, and antimony trioxide released during charging are assessed. Health effects among the occupationally exposed are also assessed using the toxicological models. Acute and chronic effects of exposure to stibine, arsine, and antimony trioxide are described.

  12. Solar battery energizer

    Thompson, M. E.


    A battery energizer for button batteries, such as zinc-silver oxide or zinc-mercuric oxide batteries, that are normally considered unchargeable, provides for energizing of the batteries in a safe and simple manner. A solar cell having a maximum current output (e.g., 20 milliamps) is operatively connected to terminals for releasably receiving a button battery. A light emitting diode, or like indicator, provides an indication of when the battery is fully energized, and additionally assists in preventing overenergization of the battery. The solar cell, terminals, LED, and the like can be mounted on a nonconductive material mounting plate which is mounted by a suction cup and hook to a window, adjacent a light bulb, or the like. A battery charger for conventional dry cell rechargeable batteries (such as nickel-cadmium batteries) utilizes the solar cells, and LED, and a zener diode connected in parallel with terminals. An adaptor may be provided with the terminal for adapting them for use with any conventional size dry cell battery, and a simple dummy battery may be utilized so that less than the full complement of batteries may be charged utilizing the charger.

  13. Desulphurization of exhaust gases in chemical processes

    Asperger, K.; Wischnewski, W.


    The sulfur content of exhaust gases can be reduced by: desulphurization of fuels; modification of processes; or treatment of resultant gases. In this paper a few selected examples from the chemical industry in the German Democratic Republic are presented. Using modified processes and treating the resultant gases, the sulphuric content of exhaust gases is effectively reduced. Methods to reduce the sulfur content of exhaust gases are described in the field of production of: sulphuric acid; viscose; fertilizers; and paraffin.

  14. Magnet Design and Analysis of a 40 Tesla Long Pulse System Energized by a Battery Bank

    Lv, Y. L.; Peng, T.; Wang, G. B.; Ding, T. H.; Han, X. T.; Pan, Y.; Li, L.


    A 40 tesla long pulse magnet and a battery bank as the power supply have been designed. This is now under construction at the Wuhan National High Magnetic Field Center. The 22 mm bore magnet will generate smooth pulses with duration 1 s and rise time 0.5 s. The battery bank consists of 945 12V/200 Ah lead-acid battery cells. The magnet and battery bank were optimized by codes developed in-house and by ANSYS. The coil was made from soft copper with internal reinforcement by fiber-epoxy composite; it is divided into two sections connected in series. The inner section consists of helix coils with each layer reinforced by Zylon composite. The outer section will be wound from copper sheet and externally reinforced by carbon fiber composite.

  15. Performance simulation and analysis of a fuel cell/battery hybrid forklift truck

    Hosseinzadeh, Elham; Rokni, Masoud; Advani, Suresh G.


    The performance of a forklift truck powered by a hybrid system consisting of a PEM fuel cell and a lead acid battery is modeled and investigated by conducting a parametric study. Various combinations of fuel cell size and battery capacity are employed in conjunction with two distinct control...... strategies to study their effect on hydrogen consumption and battery state-of-charge for two drive cycles characterized by different operating speeds and forklift loads. The results show that for all case studies, the combination of a 110 cell stack with two strings of 55 Ah batteries is the most economical...... choice for the hybrid system based on system size and hydrogen consumption. In addition, it is observed that hydrogen consumption decreases by about 24% when the maximum speed of the drive cycle is decreased from 4.5 to 3 m/s. Similarly, by decreasing the forklift load from 2.5 to 1.5 ton, the hydrogen...

  16. NAS battery demonstration at American Electric Power:a study for the DOE energy storage program.

    Newmiller, Jeff (Endecon Engineering, San Ramon, CA); Norris, Benjamin L. (Norris Energy Consulting Company, Martinez, CA); Peek, Georgianne Huff


    The first U.S. demonstration of the NGK sodium/sulfur battery technology was launched in August 2002 when a prototype system was installed at a commercial office building in Gahanna, Ohio. American Electric Power served as the host utility that provided the office space and technical support throughout the project. The system was used to both reduce demand peaks (peak-shaving operation) and to mitigate grid power disturbances (power quality operation) at the demonstration site. This report documents the results of the demonstration, provides an economic analysis of a commercial sodium/sulfur battery energy storage system at a typical site, and describes a side-by-side demonstration of the capabilities of the sodium/sulfur battery system, a lead-acid battery system, and a flywheel-based energy storage system in a power quality application.

  17. Promise and reality of post-lithium-ion batteries with high energy densities

    Choi, Jang Wook; Aurbach, Doron


    Energy density is the main property of rechargeable batteries that has driven the entire technology forward in past decades. Lithium-ion batteries (LIBs) now surpass other, previously competitive battery types (for example, lead-acid and nickel metal hydride) but still require extensive further improvement to, in particular, extend the operation hours of mobile IT devices and the driving mileages of all-electric vehicles. In this Review, we present a critical overview of a wide range of post-LIB materials and systems that could have a pivotal role in meeting such demands. We divide battery systems into two categories: near-term and long-term technologies. To provide a realistic and balanced perspective, we describe the operating principles and remaining issues of each post-LIB technology, and also evaluate these materials under commercial cell configurations.

  18. Ionene membrane battery separator

    Moacanin, J.; Tom, H. Y.


    Ionic transport characteristics of ionenes, insoluble membranes from soluble polyelectrolyte compositions, are studied for possible application in a battery separator. Effectiveness of the thin film of separator membrane essentially determines battery lifetime.

  19. Impedance and self-discharge mechanism studies of nickel metal hydride batteries for energy storage applications

    Zhu, Wenhua; Zhu, Ying; Tatarchuk, Bruce


    Nickel metal hydride battery packs have been found wide applications in the HEVs (hybrid electric vehicles) through the on-board rapid energy conservation and efficient storage to decrease the fossil fuel consumption rate and reduce CO2 emissions as well as other harmful exhaust gases. In comparison to the conventional Ni-Cd battery, the Ni-MH battery exhibits a relatively higher self-discharge rate. In general, there are quite a few factors that speed up the self-discharge of the electrodes in the sealed nickel metal hydride batteries. This disadvantage eventually reduces the overall efficiency of the energy conversion and storage system. In this work, ac impedance data were collected from the nickel metal hydride batteries. The self-discharge mechanism and battery capacity degradation were analyzed and discussed for further performance improvement.

  20. Exhaust gas bypass valve control for thermoelectric generator

    Reynolds, Michael G; Yang, Jihui; Meisner, Greogry P.; Stabler, Francis R.; De Bock, Hendrik Pieter Jacobus; Anderson, Todd Alan


    A method of controlling engine exhaust flow through at least one of an exhaust bypass and a thermoelectric device via a bypass valve is provided. The method includes: determining a mass flow of exhaust exiting an engine; determining a desired exhaust pressure based on the mass flow of exhaust; comparing the desired exhaust pressure to a determined exhaust pressure; and determining a bypass valve control value based on the comparing, wherein the bypass valve control value is used to control the bypass valve.

  1. 浅谈阀控式密封胶体电池技术(一)--胶体电池的定义探讨%Discussion on gel battery technologies of VRLA batteries

    赵杰权; 张骥小; 柳厚田


    In this paper, the concept of the gel battery is discussed from the principle, the development history, the gel electrolyte composition, the structure and characteristics of the valve-regulated lead-acid (VRLA) batteries containing the gel electrolyte. For the gel electrolyte VRLA battery, not only the sulfuric acid electrolyte is fixed effectively in the battery, but also the flooded design and the microporous plastic separator are adopted. The gel battery differs from AGM (Absorptive Glass Mat) battery in the fixed way of sulfuric acid electrolyte for VRLA batteries, the concept of which has been accepted widely by the VRLA battery industry. In this article, we discussed the principle and fundamental concept of the gel battery from different perspectives in the hope of achieving a more clear and uniifed understanding for gel battery.%本文从阀控式铅酸电池的原理,阳光电池的发展过程,胶体电池的组成、结构和特性等方面探讨了胶体电池的内涵。胶体电池不是指电池内是否含有硅凝胶电解液,而是指采用富液式设计、微孔塑料隔板和用硅凝胶技术完全固定硫酸电解液的阀控式铅酸电池。

  2. Rechargeable batteries applications handbook


    Represents the first widely available compendium of the information needed by those design professionals responsible for using rechargeable batteries. This handbook introduces the most common forms of rechargeable batteries, including their history, the basic chemistry that governs their operation, and common design approaches. The introduction also exposes reader to common battery design terms and concepts.Two sections of the handbook provide performance information on two principal types of rechargeable batteries commonly found in consumer and industrial products: sealed nickel-cad

  3. Micro Calorimeter for Batteries

    Santhanagopalan, Shriram [National Renewable Energy Laboratory (NREL), Golden, CO (United States)


    As battery technology forges ahead and consumer demand for safer, more affordable, high-performance batteries grows, the National Renewable Energy Laboratory (NREL) has added a patented Micro Calorimeter to its existing family of R&D 100 Award-winning Isothermal Battery Calorimeters (IBCs). The Micro Calorimeter examines the thermal signature of battery chemistries early on in the design cycle using popular coin cell and small pouch cell designs, which are simple to fabricate and study.

  4. Battery systems engineering

    Rahn, Christopher D


    A complete all-in-one reference on the important interdisciplinary topic of Battery Systems Engineering Focusing on the interdisciplinary area of battery systems engineering, this book provides the background, models, solution techniques, and systems theory that are necessary for the development of advanced battery management systems. It covers the topic from the perspective of basic electrochemistry as well as systems engineering topics and provides a basis for battery modeling for system engineering of electric and hybrid electric vehicle platforms. This original

  5. Battery Aging and the Kinetic Battery Model

    Jongerden, M.R.; Haverkort, Boudewijn R.H.M.


    Batteries are omnipresent, and with the uprise of the electrical vehicles will their use will grow even more. However, the batteries can deliver their required power for a limited time span. They slowly degrade with every charge-discharge cycle. This degradation needs to be taken into account when c

  6. Battery Aging and the Kinetic Battery Model

    Jongerden, M.R.; Haverkort, Boudewijn R.H.M.

    Batteries are omnipresent, and with the uprise of the electrical vehicles will their use will grow even more. However, the batteries can deliver their required power for a limited time span. They slowly degrade with every charge-discharge cycle. This degradation needs to be taken into account when

  7. Life-cycle energy analyses of electric vehicle storage batteries. Final report

    Sullivan, D; Morse, T; Patel, P; Patel, S; Bondar, J; Taylor, L


    The results of several life-cycle energy analyses of prospective electric vehicle batteries are presented. The batteries analyzed were: Nickel-zinc; Lead-acid; Nickel-iron; Zinc-chlorine; Sodium-sulfur (glass electrolyte); Sodium-sulfur (ceramic electrolyte); Lithium-metal sulfide; and Aluminum-air. A life-cycle energy analysis consists of evaluating the energy use of all phases of the battery's life, including the energy to build it, operate it, and any credits that may result from recycling of the materials in it. The analysis is based on the determination of three major energy components in the battery life cycle: Investment energy, i.e., The energy used to produce raw materials and to manufacture the battery; operational energy i.e., The energy consumed by the battery during its operational life. In the case of an electric vehicle battery, this energy is the energy required (as delivered to the vehicle's charging circuit) to power the vehicle for 100,000 miles; and recycling credit, i.e., The energy that could be saved from the recycling of battery materials into new raw materials. The value of the life-cycle analysis approach is that it includes the various penalties and credits associated with battery production and recycling, which enables a more accurate determination of the system's ability to reduce the consumption of scarce fuels. The analysis of the life-cycle energy requirements consists of identifying the materials from which each battery is made, evaluating the energy needed to produce these materials, evaluating the operational energy requirements, and evaluating the amount of materials that could be recycled and the energy that would be saved through recycling. Detailed descriptions of battery component materials, the energy requirements for battery production, and credits for recycling, and the operational energy for an electric vehicle, and the procedures used to determine it are discussed.

  8. Electric Vehicle Battery Challenge

    Roman, Harry T.


    A serious drawback to electric vehicles [batteries only] is the idle time needed to recharge their batteries. In this challenge, students can develop ideas and concepts for battery change-out at automotive service stations. Such a capability would extend the range of electric vehicles.

  9. Battery charging system

    Carollo, J.A.; Kalinsky, W.A.


    A battery charger utilizes three basic modes of operation that includes a maintenance mode, a rapid charge mode and time controlled limited charging mode. The device utilizes feedback from the battery being charged of voltage, current and temperature to determine the mode of operation and the time period during which the battery is being charged.

  10. Electric Vehicle Battery Challenge

    Roman, Harry T.


    A serious drawback to electric vehicles [batteries only] is the idle time needed to recharge their batteries. In this challenge, students can develop ideas and concepts for battery change-out at automotive service stations. Such a capability would extend the range of electric vehicles.

  11. Technologies of Batteries Used in Coal Mine Vehicles%煤矿车辆用蓄电池技术



    The paper introduced characteristics of various batteries used in trackless auxiliary haulage vehicles of coal mine including special type lead-acid battery of coal miné, flame-proof and start lead-acid battery, flame-proof and fixed lead-acid battery and new type lithium iron phosphate battery, and analyzed existed problems of the batteries in application and corresponding solutions.It pointed out development direction of batteries used in coal mine vehicles at present, namely large-scale trackless auxiliary haulage vehicles can also use special type lead-acid battery of coal mine, small-scale trackless auxiliary haulage vehicles would use new type lithium iron phosphate battery, and electric start and air start flame-proof diesel locomotives can use combined power supply of new type lithium iron phosphate battery and super capacitor.%介绍了煤矿无轨辅助运输车辆中使用的各种蓄电池的特点,包括煤矿特殊型铅酸蓄电池、隔爆启动型铅酸蓄电池、隔爆型固定式铅酸蓄电池、新型磷酸铁锂电池,分析了各种蓄电池在应用中存在的问题及相应的解决办法,指出了目前煤矿车辆用蓄电池的发展方向,即大型无轨辅助运输车辆还会使用煤矿特殊型铅酸蓄电池,小型无轨辅助运输车辆将开始使用新型磷酸铁锂电池,电启动和气启动防爆柴油机车可使用新型磷酸铁锂电池和超级电容的组合电源.

  12. 电动汽车蓄电池的充电方法和充电设备%Charging equipment and method of electric vehicle battery

    李俄收; 朱会田; 吴文民


    电动汽车常用的蓄电池有铅酸蓄电池、镉镍电池、氢镍电池、锂离子电池等,由于它们的结构及充电特性不同,充电时的方法也各异,这些蓄电池使用的充电设备可以是车载式、非车载式,也可以是接触式和感应式的.%Batteries of electric vehicles are commonly used lead-acid battery, Ni-Cd battery, Ni-MH battery, lithium-ion battery and so on. As a result of their construction and charging characteristics are different, methods of charging are different. Charging equipments of these batteries may take different form of vehicle-mounted, non-vehicle-mounted,contacted and the induction.

  13. Local Exhaust Optimization and Worker Exposure

    Heiselberg, Per; Pedersen, Morten; Plath, Thomas

    This paper describes a process of optimisation of exhaust efficiency and of minimisation of worker exposure at a semiautomatic printing machine at a printing office.......This paper describes a process of optimisation of exhaust efficiency and of minimisation of worker exposure at a semiautomatic printing machine at a printing office....

  14. Vital exhaustion and risk for cancer

    Bergelt, Corinna; Christensen, Jane Hvarregaard; Prescott, Eva;


    Vital exhaustion, defined as feelings of depression and fatigue, has previously been investigated mainly as a risk factor for cardiovascular disease. The authors investigated the association between depressive feelings and fatigue as covered by the concept of vital exhaustion and the risk...

  15. 49 CFR 393.83 - Exhaust systems.


    ... 49 Transportation 5 2010-10-01 2010-10-01 false Exhaust systems. 393.83 Section 393.83... NECESSARY FOR SAFE OPERATION Miscellaneous Parts and Accessories § 393.83 Exhaust systems. (a) Every motor... shall have a system to direct the discharge of such fumes. No part shall be located where its location...

  16. Radiation characteristics of intermittence exhaust noise

    ZHAO Shengdun; SHANG Chunyang; ZHAO Zhigang; SHI Weixiang


    Aerodynamic characteristics, the noise characteristics in the course of intermittence exhaust are investigated and the expressions for sound pressure level of the noise generated by single-pole source and quadrupole source in the intermittence exhaust noise are established. The effects of all parameters in pneumatic system on the noise are also comprehensively studied.

  17. 40 CFR 1065.130 - Engine exhaust.


    ... emission constituents. (2) Minimize the number of bends in the laboratory crankcase tubing and maximize the radius of any unavoidable bend. (3) Use laboratory crankcase exhaust tubing that meets the engine... point, or first point of dilution. If laboratory exhaust tubing consists of several different outside...

  18. JPL's electric and hybrid vehicles project: Project activities and preliminary test results. [power conditioning and battery charge efficiency

    Barber, T. A.


    Efforts to achieve a 100 mile urban range, to reduce petroleum usage 40% to 70%, and to commercialize battery technology are discussed with emphasis on an all plastic body, four passenger car that is flywheel assisted and battery powered, and on an all metal body, four passenger car with front wheel drive and front motor. For the near term case, a parallel hybrid in which the electric motor and the internal combustion engine may directly power the drive wheels, is preferred to a series design. A five passenger car in which the electric motor and the gasoline engine both feed into the same transmission is discussed. Upgraded demonstration vehicles were tested using advanced lead acid, nickel zinc, nickel iron, and zinc chloride batteries to determine maximum acceleration, constant speed, and battery behavior. The near term batteries demonstrated significant improvement relative to current lead acid batteries. The increase in range was due to improved energy density, and ampere hour capacity, with relatively 1 small weight and volume differences.

  19. Health effects of exhaust particles

    Pihlava, T.; Uuppo, M.; Niemi, S.


    This report introduces general information about diesel particles and their health effects. The purpose of this report is to introduce particulate matter pollution and present some recent studies made regarding the health effects of particulate matter. The aim is not to go very deeply into the science, but instead to keep the text understandable for the average layman. Particulate matter is a complex mixture of extremely small particles and liquid droplets. These small particles are made up of a number of components that include for example acids, such as nitrates and sulphates, as well as organic chemicals, metals and dust particles from the soil. Particulate matter comes from several sources, such as transportation emissions, industrial emissions, forest fires, cigarette smoke, volcanic ash and climate variations. Particles are divided into coarse particles with diameters less than 10 ..m, fine particles with diameters smaller than 2.5 ..m and ultra-fine particles with diameters less than 0.1 ..m. The particulate matter in diesel exhaust gas is a highly complex mixture of organic, inorganic, solid, volatile and partly volatile compounds. Many of these particles do not form until they reach the air. Many carcinogenic compounds have been found in diesel exhaust gas and it is considered carcinogenic to humans. Particulate matter can cause several health effects, such as premature death in persons with heart or lung disease, cancer, nonfatal heart attacks, irregular heartbeat, aggravated asthma, decreased lung function and an increase in respiratory symptoms, such as irritation of the airways, coughing or difficulty breathing. It is estimated that in Finland about 1300 people die prematurely due to particles and the economic loss in the EU due to the health effects of particles can be calculated in the billions. Ultra-fine particles are considered to be the most harmful to human health. Ultrafine particles usually make the most of their quantity and surface area

  20. Energy Optimization for a Weak Hybrid Power System of an Automobile Exhaust Thermoelectric Generator

    Fang, Wei; Quan, Shuhai; Xie, Changjun; Tang, Xinfeng; Ran, Bin; Jiao, Yatian


    An integrated starter generator (ISG)-type hybrid electric vehicle (HEV) scheme is proposed based on the automobile exhaust thermoelectric generator (AETEG). An eddy current dynamometer is used to simulate the vehicle's dynamic cycle. A weak ISG hybrid bench test system is constructed to test the 48 V output from the power supply system, which is based on engine exhaust-based heat power generation. The thermoelectric power generation-based system must ultimately be tested when integrated into the ISG weak hybrid mixed power system. The test process is divided into two steps: comprehensive simulation and vehicle-based testing. The system's dynamic process is simulated for both conventional and thermoelectric powers, and the dynamic running process comprises four stages: starting, acceleration, cruising and braking. The quantity of fuel available and battery pack energy, which are used as target vehicle energy functions for comparison with conventional systems, are simplified into a single energy target function, and the battery pack's output current is used as the control variable in the thermoelectric hybrid energy optimization model. The system's optimal battery pack output current function is resolved when its dynamic operating process is considered as part of the hybrid thermoelectric power generation system. In the experiments, the system bench is tested using conventional power and hybrid thermoelectric power for the four dynamic operation stages. The optimal battery pack curve is calculated by functional analysis. In the vehicle, a power control unit is used to control the battery pack's output current and minimize energy consumption. Data analysis shows that the fuel economy of the hybrid power system under European Driving Cycle conditions is improved by 14.7% when compared with conventional systems.

  1. Electrochemical accumulators batteries; Accumulateurs electrochimiques batteries

    Ansart, F.; Castillo, S.; Laberty- Robert, C.; Pellizon-Birelli, M. [Universite Paul Sabatier, Lab. de Chimie des Materiaux Inorganiques et Energetiques, CIRIMAT, UMR CNRS 5085, 31 - Toulouse (France)] [and others


    It is necessary to storage the electric power in batteries to join the production and the utilization. In this domain progresses are done every days in the technics and also in the available materials. These technical days present the state of the art in this domain. Many papers were presented during these two days giving the research programs and recent results on the following subjects: the lithium batteries, the electrolytes performances and behaviour, lead accumulators, economic analysis of the electrochemical storage market, the batteries applied to the transportation sector and the telephones. (A.L.B.)

  2. Batteries: from alkaline to zinc-air.

    Dondelinger, Robert M


    There is no perfect disposable battery--one that will sit on the shelf for 20 years, then continually provide unlimited current, at a completely constant voltage until exhausted, without producing heat. There is no perfect rechargeable battery--one with all of the above characteristics and will also withstand an infinite overcharge while providing an equally infinite cycle life. There are only compromises. Every battery selection is a compromise between the ideally required characteristics, the advantages, and the limitations of each battery type. General selection of a battery type to power a medical device is largely outside the purview of the biomed. Initially, these are engineering decisions made at the time of medical equipment design and are intended to be followed in perpetuity. However, since newer cell types evolve and the manufacturer's literature is fixed at the time of printing, some intelligent substitutions may be made as long as the biomed understands the characteristics of both the recommended cell and the replacement cell. For example, when the manufacturer recommends alkaline, it is usually because of the almost constant voltage it produces under the devices' design load. Over time, other battery types may be developed that will meet the intent of the manufacturer, at a lower cost, providing longer operational life, at a lower environmental cost, or with a combination of these advantages. In the Obstetrical Doppler cited at the beginning of this article, the user had put in carbon-zinc cells, and the biomed had unknowingly replaced them with carbonzinc cells. If the alkaline cells recommended by the manufacturer had been used, there would have been the proper output voltage at the battery terminals when the [table: see text] cells were at their half-life. Instead, the device refused to operate since the battery voltage was below presumed design voltage. While battery-type substitutions may be easily and relatively successfully made in disposable

  3. Lifetime Improvement by Battery Scheduling

    Jongerden, M.R.; Schmitt, Jens B.; Haverkort, Boudewijn R.H.M.


    The use of mobile devices is often limited by the lifetime of their batteries. For devices that have multiple batteries or that have the option to connect an extra battery, battery scheduling, thereby exploiting the recovery properties of the batteries, can help to extend the system lifetime. Due to

  4. Lifetime improvement by battery scheduling

    Jongerden, M.R.; Haverkort, Boudewijn R.H.M.


    The use of mobile devices is often limited by the lifetime of its battery. For devices that have multiple batteries or that have the option to connect an extra battery, battery scheduling, thereby exploiting the recovery properties of the batteries, can help to extend the system lifetime. Due to the

  5. Lifetime Improvement by Battery Scheduling

    Jongerden, M.R.; Schmitt, Jens B.; Haverkort, Boudewijn R.H.M.

    The use of mobile devices is often limited by the lifetime of their batteries. For devices that have multiple batteries or that have the option to connect an extra battery, battery scheduling, thereby exploiting the recovery properties of the batteries, can help to extend the system lifetime. Due to

  6. Lifetime improvement by battery scheduling

    Jongerden, M.R.; Haverkort, Boudewijn R.H.M.

    The use of mobile devices is often limited by the lifetime of its battery. For devices that have multiple batteries or that have the option to connect an extra battery, battery scheduling, thereby exploiting the recovery properties of the batteries, can help to extend the system lifetime. Due to the

  7. Exhaustion and the Pathologization of Modernity.

    Schaffner, Anna Katharina


    This essay analyses six case studies of theories of exhaustion-related conditions from the early eighteenth century to the present day. It explores the ways in which George Cheyne, George Beard, Richard von Krafft-Ebing, Sigmund Freud, Alain Ehrenberg and Jonathan Crary use medical ideas about exhaustion as a starting point for more wide-ranging cultural critiques related to specific social and technological transformations. In these accounts, physical and psychological symptoms are associated with particular external developments, which are thus not just construed as pathology-generators but also pathologized. The essay challenges some of the persistently repeated claims about exhaustion and its unhappy relationship with modernity.

  8. Modeling, Design and Simulation of Stand-Alone Photovoltaic Power Systems with Battery Storage

    Abd Essalam BADOUD


    Full Text Available Stand alone renewable energy based on photovoltaic systems accompanied with battery storage system are beginning to play an important role over the world to supply power to remote areas. The objective of the study reported in this paper is to elaborate and design a bond graphs model for sizing stand-alone domestic solar photovoltaic electricity systems and simulating the performance of the systems in a tropical climate. The systems modelled consist of an array of PV modules, a lead-acid battery, and a number of direct current appliances. This paper proposes the combination of lead acid battery system with a typical stand alone photovoltaic energy system under variable loads. The main activities of this work purpose to establish library graphical models for each individual component of standalone photovoltaic system. Control strategy has been considered to achieve permanent power supply to the load via photovoltaic/battery based on the power available from the sun. The complete model was simulated under two testing including sunny and cloudy conditions. Simulation of the system using Symbols software was performed and the results of simulation show the superior stable control system and high efficiency. These results have been contrasted with real measured data from a measurement campaign plant carried on electrical engineering laboratory of Grenoble using various interconnection schemes are presented.

  9. An analysis of float service life test data of VRLA batteries

    Burgess, W.L. [Exide Electronics, Raleigh, NC (United States)


    This paper describes a statistical method for analyzing data from float service life tests of VRLA batteries. The purpose of this work was to develop a model with the following characteristics. First, it would allow test data from different batteries and test conditions to be pooled, as long as they were from the same design. Secondly, it would provide estimates at discharge rates other than the ones actually used in the test. Finally, it was desired for the model to be able to predict the time to various capacities of interest to a better resolution than the typical 3-5 years to 80% (of rated) capacity given by the battery manufacturers. The batteries in this analysis are valve regulated lead acid (VRLA) types, ranging in capacity from 4 Ah to 17 Ah, from two manufacturers. The float service life of a battery will be divided into two distinct time periods. The first being that time, from the beginning of the test, when the capacity of the battery is relatively constant. The second period is defined as that when the battery capacity begins to decrease much more rapidly until end of life is reached. (orig.)

  10. A refuelable zinc/air battery for fleet electric vehicle propulsion

    Cooper, John F.; Fleming, Dennis; Hargrove, Douglas; Koopman, Ronald; Peterman, Keith


    We report the development and on-vehicle testing of an engineering prototype zinc/air battery. The battery is refueled by periodic exchange of spent electrolyte for zinc particles entrained in fresh electrolyte. The technology is intended to provide a capability for nearly continuous vehicle operation, using the fleet's home base for 10 minute refuelings and zinc recycling instead of commercial infrastructure. In the battery, the zinc fuel particles are stored in hoppers, from which they are gravity fed into individual cells and completely consumed during discharge. A six-celled (7V) engineering prototype battery was combined with a 6 V lead/acid battery to form a parallel hybrid unit, which was tested in series with the 216 V battery of an electric shuttle bus over a 75 mile circuit. The battery has an energy density of 140 Wh/kg and a mass density of 1.5 kg/L. Cost, energy efficiency, and alternative hybrid configurations are discussed.

  11. Current Situation and Development Trend of Standards of Lithium Batteries for Electric Vehides

    Meng Xiangfeng; Wen Baozhong


    Traction battery is one of the most significant systems in electric vehicles.Its general performance,cycle characteristics and safety performance have crucial influence on the economical efficiency,dynamic property and safety of the vehicle.Therefore traction battery has always been the key area in researches of electric vehicles and its standardization. 1.Main performance indicators of traction batteries As the energy storage device of electric vehicles,the performance of traction battery is very important for the complete vehicle.Requirements of traction battery for electric vehicles should have the following characteristics as high power,high energy,high energy density/specific energy,high power density/specific power,low cost,long life length,abuse resistance,high reliability,good temperature property,short charging time,nice interchangeability etc.Traction batteries used at present are mainly lead-acid cells,nickel-hydride cells and lithium-ion cells.Although none of them can meet all requirements,lithium battery is widely regarded the most promising one with optimal comprehensive performance in recent time.

  12. A new state of charge determination method for battery management system

    ZHU Chun-bo 朱春波; WANG Tie-cheng 王铁成; HURLEY W G


    State of Charge (SOC) determination is an increasingly important issue in battery technology. In addition to the immediate display of the remaining battery capacity to the user, precise knowledge of SOC exerts additional control over the charging/discharging process which in turn reduces the risk of over-voltage and gassing, which degrade the chemical composition of the electrolyte and plates. This paper describes a new approach to SOC determination for the lead-acid battery management system by combining Ah-balance with an EMF estimation algorithm, which predicts the battery' s EMF value while it is under load. The EMF estimation algorithm is based on an equivalent-circuit representation of the battery, with the parameters determined from a pulse test performed on the battery and a curve-fitting algorithm by means of least-square regression. The whole battery cycle is classified into seven states where the SOC is estimated with the Ah-balance method and the proposed EMF based algorithm. Laboratory tests and results are described in detail in the paper.

  13. A desalination battery.

    Pasta, Mauro; Wessells, Colin D; Cui, Yi; La Mantia, Fabio


    Water desalination is an important approach to provide fresh water around the world, although its high energy consumption, and thus high cost, call for new, efficient technology. Here, we demonstrate the novel concept of a "desalination battery", which operates by performing cycles in reverse on our previously reported mixing entropy battery. Rather than generating electricity from salinity differences, as in mixing entropy batteries, desalination batteries use an electrical energy input to extract sodium and chloride ions from seawater and to generate fresh water. The desalination battery is comprised by a Na(2-x)Mn(5)O(10) nanorod positive electrode and Ag/AgCl negative electrode. Here, we demonstrate an energy consumption of 0.29 Wh l(-1) for the removal of 25% salt using this novel desalination battery, which is promising when compared to reverse osmosis (~ 0.2 Wh l(-1)), the most efficient technique presently available.

  14. Potassium Secondary Batteries.

    Eftekhari, Ali; Jian, Zelang; Ji, Xiulei


    Potassium may exhibit advantages over lithium or sodium as a charge carrier in rechargeable batteries. Analogues of Prussian blue can provide millions of cyclic voltammetric cycles in aqueous electrolyte. Potassium intercalation chemistry has recently been demonstrated compatible with both graphite and nongraphitic carbons. In addition to potassium-ion batteries, potassium-O2 (or -air) and potassium-sulfur batteries are emerging. Additionally, aqueous potassium-ion batteries also exhibit high reversibility and long cycling life. Because of potentially low cost, availability of basic materials, and intriguing electrochemical behaviors, this new class of secondary batteries is attracting much attention. This mini-review summarizes the current status, opportunities, and future challenges of potassium secondary batteries.

  15. A Desalination Battery

    Pasta, Mauro


    Water desalination is an important approach to provide fresh water around the world, although its high energy consumption, and thus high cost, call for new, efficient technology. Here, we demonstrate the novel concept of a "desalination battery", which operates by performing cycles in reverse on our previously reported mixing entropy battery. Rather than generating electricity from salinity differences, as in mixing entropy batteries, desalination batteries use an electrical energy input to extract sodium and chloride ions from seawater and to generate fresh water. The desalination battery is comprised by a Na 2-xMn 5O 10 nanorod positive electrode and Ag/AgCl negative electrode. Here, we demonstrate an energy consumption of 0.29 Wh l -1 for the removal of 25% salt using this novel desalination battery, which is promising when compared to reverse osmosis (∼ 0.2 Wh l -1), the most efficient technique presently available. © 2012 American Chemical Society.

  16. Batteries not included

    Valiante, U.


    Serious questions have arisen about the environmental damage caused by cadmium from rechargeable nickel cadmium batteries in municipal solid waste. Sweden, Belgium, several American states and Canadian provinces either have enacted, or are contemplating legislation to address disposal of cadmium-containing batteries. In a preemptive strike, industry is now developing its own recycling initiatives through the Rechargeable Battery Recycling Corporation (RBRC), established in the USA in 1996, and launched in Ontario in September 1997. The primary role of RBRC in Canada is to collect licensee funds from participating battery manufacturers and administer Ni-Cd battery recycling programs. RBRC is also tasked to establish consensus within provincial and federal regulatory bodies with regard to the issue of Ni-Cd battery waste management. Mounting concerns are expressed about conflicting statistics as to the volume of batteries collected for recycling, and more particularly, about the method of recycling that RBRC may be contemplating. The fear is that in the absence of a profitable incentive to battery distributors, or a profitable product that might result from the recycled material, combined with the pressure of the high cost of recycling Ni-Cd batteries, many of the recovered batteries could end up in landfills sites for hazardous wastes. This is especially likely since Ni-Cd batteries are not banned from landfill sites in Ontario. It is the view of this author that while RBRC`s `charge up to recycle` program makes all the right noises, it lacks a meaningful approach to actually increase diversion, measure results, or to prevent Ni-Cd rechargeable batteries from entering the solid waste stream.

  17. Polyoxometalate flow battery

    Anderson, Travis M.; Pratt, Harry D.


    Flow batteries including an electrolyte of a polyoxometalate material are disclosed herein. In a general embodiment, the flow battery includes an electrochemical cell including an anode portion, a cathode portion and a separator disposed between the anode portion and the cathode portion. Each of the anode portion and the cathode portion comprises a polyoxometalate material. The flow battery further includes an anode electrode disposed in the anode portion and a cathode electrode disposed in the cathode portion.

  18. Lithium battery management system

    Dougherty, Thomas J [Waukesha, WI


    Provided is a system for managing a lithium battery system having a plurality of cells. The battery system comprises a variable-resistance element electrically connected to a cell and located proximate a portion of the cell; and a device for determining, utilizing the variable-resistance element, whether the temperature of the cell has exceeded a predetermined threshold. A method of managing the temperature of a lithium battery system is also included.

  19. Exhaustivity and intonation: a unified theory

    Westera, M.


    This dissertation presents a precise, unified and explanatory theory of human conversation, centered on two broad phenomena: exhaustivity implications and intonational meaning. In a nutshell: (i) speakers have two types of communicative intentions, namely information sharing and attention sharing, (

  20. Atmospheric scavenging of solid rocket exhaust effluents

    Fenton, D. L.; Purcell, R. Y.


    Solid propellant rocket exhaust was directly utilized to ascertain raindrop scavenging rates for hydrogen chloride. Two chambers were used to conduct the experiments; a large, rigid walled, spherical chamber stored the exhaust constituents, while the smaller chamber housing all the experiments was charged as required with rocket exhaust HCl. Surface uptake experiments demonstrated an HCl concentration dependence for distilled water. Sea water and brackish water HCl uptake was below the detection limit of the chlorine-ion analysis technique used. Plant life HCl uptake experiments were limited to corn and soybeans. Plant age effectively correlated the HCl uptake data. Metallic corrosion was not significant for single 20 minute exposures to the exhaust HCl under varying relative humidity. Characterization of the aluminum oxide particles substantiated the similarity between the constituents of the small scale rocket and the full size vehicles.

  1. Two phase exhaust for internal combustion engine

    Vuk, Carl T [Denver, IA


    An internal combustion engine having a reciprocating multi cylinder internal combustion engine with multiple valves. At least a pair of exhaust valves are provided and each supply a separate power extraction device. The first exhaust valves connect to a power turbine used to provide additional power to the engine either mechanically or electrically. The flow path from these exhaust valves is smaller in area and volume than a second flow path which is used to deliver products of combustion to a turbocharger turbine. The timing of the exhaust valve events is controlled to produce a higher grade of energy to the power turbine and enhance the ability to extract power from the combustion process.

  2. Electronically configured battery pack

    Kemper, D.


    Battery packs for portable equipment must sometimes accommodate conflicting requirements to meet application needs. An electronically configurable battery pack was developed to support two highly different operating modes, one requiring very low power consumption at a low voltage and the other requiring high power consumption at a higher voltage. The configurable battery pack optimizes the lifetime and performance of the system by making the best use of all available energy thus enabling the system to meet its goals of operation, volume, and lifetime. This paper describes the cell chemistry chosen, the battery pack electronics, and tradeoffs made during the evolution of its design.

  3. Ballistic negatron battery

    Prasad, M.S.R. [Koneru Lakshmiah Univ.. Dept. of Electrical and Electronics Engineering, Green fields, Vaddeswaram (India)


    If we consider the Statistics there is drastic increase in dependence of batteries from year to year, due to necessity of power storage equipment at homes, power generating off grid and on grid Wind, PV systems, etc.. Where wind power is leading in renewable sector, there is a need to look at its development. Considering the scenario in India, most of the wind resource areas are far away from grid and the remaining areas which are near to grid are of low wind currents which is of no use connecting these equipment directly to grid. So, there is a need for a power storage utility to be integrated, such as the BNB (Ballistic Negatron Battery). In this situation a country like India need a battery which should be reliable, cheap and which can be industrialized. So this paper presents the concept of working, design, operation, adaptability of a Ballistic Negatron Battery. Unlike present batteries with low energy density, huge size, more weight, more charging time and low resistant to wear level, this Ballistic Negatron Battery comes with, 1) High energy storage capability (many multiples more than the present most advanced battery). 2) Very compact in size. 3) Almost negligible in weight compared to present batteries. 4) Charges with in very less time. 5) Never exhibits a wear level greater than zero. Seems like inconceivable but adoptable with simple physics. This paper will explains in detail the principle, model, design, construction and practical considerations considered in making this battery. (Author)

  4. Battery Thermal Characterization

    Keyser, Matthew; Saxon, Aron; Powell, Mitchell; Shi, Ying


    This poster shows the progress in battery thermal characterization over the previous year. NREL collaborated with U.S. DRIVE and USABC battery developers to obtain thermal properties of their batteries, obtained heat capacity and heat generation of cells under various power profiles, obtained thermal images of the cells under various drive cycles, and used the measured results to validate thermal models. Thermal properties are used for the thermal analysis and design of improved battery thermal management systems to support achieve life and performance targets.

  5. Battery Thermal Characterization

    Keyser, Matthew A [National Renewable Energy Laboratory (NREL), Golden, CO (United States)


    The operating temperature is critical in achieving the right balance between performance, cost, and life for both Li-ion batteries and ultracapacitors. The chemistries of advanced energy-storage devices - such as lithium-based batteries - are very sensitive to operating temperature. High temperatures degrade batteries faster while low temperatures decrease their power and capacity, affecting vehicle range, performance, and cost. Understanding heat generation in battery systems - from the individual cells within a module, to the inter-connects between the cells, and across the entire battery system - is imperative for designing effective thermal-management systems and battery packs. At NREL, we have developed unique capabilities to measure the thermal properties of cells and evaluate thermal performance of battery packs (air or liquid cooled). We also use our electro-thermal finite element models to analyze the thermal performance of battery systems in order to aid battery developers with improved thermal designs. NREL's tools are used to meet the weight, life, cost, and volume goals set by the U.S. Department of Energy for electric drive vehicles.

  6. Double Resonant Topology for 72V Battery Charger used in a Hybrid Electric Locomotive - Study and Experimental Validation



    This work deals with the study, adaptation and experimental validation of a 9kW lead-acid battery charger used to feed the 72VDC bus inside the hybrid electric locomotive demonstrator in the frame of the French research project PLATHEE. The topology of the charger is based on a high frequency double resonant series-parallel circuit which allows soft switching, losses minimization, reduction of passive component weight and facilitates system integration. Specific charging and floating modes we...

  7. Fuel consumption and exhaust emissions of aircrafts

    Buechler, R. [Institute of Flightmechanics, Braunschweig (Germany)


    The reduction of contamination of sensitive atmospheric layers by improved flight planning steps, is investigated. Calculated results have shown, that a further development of flight track planning allows considerable improvements on fuel consumption and exhaust emissions. Even if air traffic will further increase, optimistic investigations forecast a reduction of the environmental damage by aircraft exhausts, if the effects of improved flight track arrangement and engine innovations will be combined. (R.P.) 4 refs.

  8. Sorption dehumidification of natural gas exhaust

    Lazzarin, R.M.; Longo, G.A. (Padua Univ. (Italy)); Piccininni, F. (Politecnico di Bari (Italy). Ist. di Fisica Tecnica)


    The calorific value of natural gas can be fully utilized only if the water vapour in the exhaust gases is condensed. This can be achieved in condensing boilers. Another possibility is to dry the exhaust before discharge by sorption dehumidification. The sorbent can be regenerated directly by the boiler. The vapour developed in the regenerator can be condensed in a condenser with useful effect. Simulations given an efficiency higher than 97% with respect to the Gross Calorific value. (author).

  9. Exhaust Gas Energy Recovery Technology Applications

    Wagner, Robert M [ORNL; Szybist, James P [ORNL


    Exhaust waste heat recovery systems have the potential to significantly improve vehicle fuel economy for conventional and hybrid electric powertrains spanning passenger to heavy truck applications. This chapter discusses thermodynamic considerations and three classes of energy recovery technologies which are under development for vehicle applications. More specifically, this chapter describes the state-of-the-art in exhaust WHR as well as challenges and opportunities for thermodynamic power cycles, thermoelectric devices, and turbo-compounding systems.

  10. Substitution among exhaustible resources and intergenerational equity

    Hartwick, J.M.


    Hartwick (American Econ. Rev., 66 (Dec. 1977)) showed that implicit in R.M. Solow's model of intergenerational equity and exhaustible resources (Rev. Econ. Studies (Symposium, 1974) 29-46) was the savings-investment rule: society should invest in reproducible capital precisely the current returns from the use of flows of exhaustible resources in order to maintain per capita consumption constant. Population was assumed to remain constant. Solow and Hartwick assumed that there was only one exhaustible resource. Beckmann (American Econ. Rev., 65, 695-99 (Sept 1975)) investigated optimal growth in models with many exhaustible resources. In this paper the case of many exhaustible resources is considered and results are derived on substitution among resources and on the nature of paths of development. One of Beckmann's results on substitution is analyzed. The approach is first to analyze efficient paths under the assumption of general savings functions and then to analyze efficient paths under the assumption of the special savings function referred to above. Results indicate the Solow's existence theorem remains valid for the case of many exhaustible resources and some light is shed on the existence of paths for production functions not of the Cobb-Douglas form. 12 references.

  11. Sodium/sulfur battery engineering for stationary energy storage. Final report

    Koenig, A.; Rasmussen, J. [Silent Power, Inc., Salt Lake City, UT (United States)


    The use of modular systems to distribute power using batteries to store off-peak energy and a state of the art power inverter is envisioned to offer important national benefits. A 4-year, cost- shared contract was performed to design and develop a modular, 300kVA/300-kWh system for utility and customer applications. Called Nas-P{sub AC}, this system uses advanced sodium/sulfur batteries and requires only about 20% of the space of a lead-acid-based system with a smaller energy content. Ten, 300-VDC, 40-kWh sodium/sulfur battery packs are accommodated behind a power conversion system envelope with integrated digital control. The resulting design facilities transportation, site selection, and deployment because the system is quiet and non-polluting, and can be located in proximity to the load. This report contains a detailed description of the design and supporting hardware development performed under this contract.

  12. Cognitive impairment in patients with stress-related exhaustion.

    Jonsdottir, I H; Nordlund, A; Ellbin, S; Ljung, T; Glise, K; Währborg, P; Wallin, A


    Patients who seek medical care for stress-related mental health problems frequently report cognitive impairments as the most pronounced symptom. The purpose of the present study was to compare cognitive function in patients with stress-related exhaustion with that in healthy controls, using a comprehensive battery of cognitive tests. We also explored whether neuropsychological findings were related to severity of illness measured using the Shirom-Melamed burnout questionnaire and hospital anxiety and depression scale. Thirty-three patients (15 males) and 37 healthy controls (11 males), mean age 46 years [standard deviation (SD) 3.9] and 47 years (SD 4.3), respectively, were included in the final analysis. Five cognitive domains were assessed: (1) speed, attention and working memory, (2) learning and episodic memory, (3) executive functions, (4) visuospatial functions and (5) language. The most pronounced difference between patients and controls was seen on executive function, when tested with a multidimensional test, including aspects of speed, control and working memory. The patients also performed poorer on Digit span, measuring attention span and working memory as well as on learning and episodic memory, when measured as delayed recall and the difference between immediate and delayed recall. Delayed recall was the only test that was significantly related to severity of burnout symptoms among the patients. This could reflect poor cognitive sustainability in the patients with the highest burnout scores, as this particular test was the last one performed during the test session. This study clearly shows that cognitive impairment should be considered when evaluating and treating patients who seek medical care for stress-related exhaustion.

  13. 46 CFR 119.430 - Engine exhaust pipe installation.


    ... exhaust systems must ensure minimum risk of injury to personnel. Protection must be provided in compliance... in bulkhead penetration glands for dry exhaust systems. A wet exhaust pipe may be welded to a steel... 46 Shipping 4 2010-10-01 2010-10-01 false Engine exhaust pipe installation. 119.430 Section...

  14. 46 CFR 182.430 - Engine exhaust pipe installation.


    ... installation. (a) The design of all exhaust systems must ensure minimum risk of injury to personnel. Protection... be used in bulkhead penetration glands for dry exhaust systems. A wet exhaust pipe may be welded to a... 46 Shipping 7 2010-10-01 2010-10-01 false Engine exhaust pipe installation. 182.430 Section...

  15. 14 CFR 29.1125 - Exhaust heat exchangers.


    ... 14 Aeronautics and Space 1 2010-01-01 2010-01-01 false Exhaust heat exchangers. 29.1125 Section 29... exchangers. For reciprocating engine powered rotorcraft the following apply: (a) Each exhaust heat exchanger... is subject to contact with exhaust gases; and (4) No exhaust heat exchanger or muff may have...

  16. 14 CFR 25.1125 - Exhaust heat exchangers.


    ... 14 Aeronautics and Space 1 2010-01-01 2010-01-01 false Exhaust heat exchangers. 25.1125 Section 25... exchangers. For reciprocating engine powered airplanes, the following apply: (a) Each exhaust heat exchanger... provisions wherever it is subject to contact with exhaust gases; and (4) No exhaust heat exchanger or...

  17. Battery energy storage system

    Tol, C.S.P.; Evenblij, B.H.


    The ability to store electrical energy adds several interesting features to a ships distribution network, as silent power, peak shaving and a ride through in case of generator failure. Modern intrinsically safe Li-ion batteries bring these within reach. For this modern lithium battery applications t

  18. Computing Battery Lifetime Distributions

    Cloth, L.; Haverkort, Boudewijn R.H.M.; Jongerden, M.R.

    The usage of mobile devices like cell phones, navigation systems, or laptop computers, is limited by the lifetime of the included batteries. This lifetime depends naturally on the rate at which energy is consumed, however, it also depends on the usage pattern of the battery. Continuous drawing of a

  19. Battery thermal management unit

    Sanders, Nicholas A.


    A battery warming device has been designed which uses waste heat from an operating internal combustion engine to warm a battery. A portion of the waste heat is stored in the sensible and latent heat of a phase change type material for use in maintaining the battery temperature after the engine is shut off. The basic design of the device consists of a Phase Change Material (PCM) reservoir and a simple heat exchanger connected to the engineer's cooling system. Two types of units were built, tested and field trialed. A strap-on type which was strapped to the side of an automotive battery and was intended for the automotive after-market and a tray type on which a battery or batteries sat. This unit was intended for the heavy duty truck market. It was determined that both types of units increased the average cranking power of the batteries they were applied to. Although there were several design problems with the units such as the need for an automatic thermostatically controlled bypass valve, the overall feeling is that there is a market opportunity for both the strap-on and tray type battery warming units.

  20. Hydrophobic, Porous Battery Boxes

    Bragg, Bobby J.; Casey, John E., Jr.


    Boxes made of porous, hydrophobic polymers developed to contain aqueous potassium hydroxide electrolyte solutions of zinc/air batteries while allowing air to diffuse in as needed for operation. Used on other types of batteries for in-cabin use in which electrolytes aqueous and from which gases generated during operation must be vented without allowing electrolytes to leak out.

  1. Computing Battery Lifetime Distributions

    Cloth, Lucia; Jongerden, Marijn R.; Haverkort, Boudewijn R.


    The usage of mobile devices like cell phones, navigation systems, or laptop computers, is limited by the lifetime of the included batteries. This lifetime depends naturally on the rate at which energy is consumed, however, it also depends on the usage pattern of the battery. Continuous drawing of a

  2. Silicon Betavoltaic Batteries Structures

    V.N. Murashev


    Full Text Available For low-power miniature energy creation sources the particular interest is nickel Ni63. This paper discusses the main types of betavoltaic battery structures with the prospects for industrial application using - isotope of nickel Ni63. It is shown that the prospects for improving the effective efficiency are planar multijunction betavoltaic batteries.

  3. Battery energy storage system

    Tol, C.S.P.; Evenblij, B.H.


    The ability to store electrical energy adds several interesting features to a ships distribution network, as silent power, peak shaving and a ride through in case of generator failure. Modern intrinsically safe Li-ion batteries bring these within reach. For this modern lithium battery applications t

  4. Battery energy storage system

    Tol, C.S.P.; Evenblij, B.H.


    The ability to store electrical energy adds several interesting features to a ships distribution network, as silent power, peak shaving and a ride through in case of generator failure. Modern intrinsically safe Li-ion batteries bring these within reach. For this modern lithium battery applications

  5. 浅谈阀控式密封胶体电池技术(二)--胶体电池和AGM电池的比较%Discussion on gel battery technologies of VRLA batteries--Comparisons between gel battery and AGM battery

    赵杰权; 张骥小; 柳厚田


    阀控式铅酸蓄电池包含胶体电池和 AGM电池。本文从设计、结构和性能方面系统地比较了胶体电池和 AGM电池的差异。从设计上看,两种电池在电解液的固定方式、电解液用量、电解液浓度、极群装配要求、氧气传输通道等方面均有明显不同。从结构上看,它们的外观尺寸、隔板性能、硫酸电解液分布、极板的类型等亦有较大差异。电池的设计和结构决定了电池的性能:胶体电池在使用寿命、深循环性能、耐过充电能力、浮充特性、耐用性、热失控风险、自放电等方面具有明显优势;而 AGM电池的体积相对较小,在初始容量和大电流放电性能方面更好。%There are two types of valve-regulated lead-acid (VRLA) batteries: gel battery and AGM (Absorbed Glass Mat) battery. In this paper, the differences of the gel battery and AGM battery are compared from each other with respect to the design, structure, and performance. In terms of the design, gel battery and AGM battery are distinct from the electrolyte ifxed way, electrolyte quantity, electrolyte concentration, assembly requirements, and oxygen transmission channel. In regard to the battery structure, these two types of batteries are different in the battery size, separator, electrolyte distribution, and plate type. The battery performance is determined by the design and battery structure. The gel battery offers clear advantages in service life, deep cyclic endurance, overcharging endurance, lfoating characteristic, robustness, self-discharge, and thermal runaway. Compared to gel battery, AGM battery is relatively smaller in size and offers better initial capacity and better high-current discharge performance.

  6. Battery Pack Thermal Design

    Pesaran, Ahmad


    This presentation describes the thermal design of battery packs at the National Renewable Energy Laboratory. A battery thermal management system essential for xEVs for both normal operation during daily driving (achieving life and performance) and off-normal operation during abuse conditions (achieving safety). The battery thermal management system needs to be optimized with the right tools for the lowest cost. Experimental tools such as NREL's isothermal battery calorimeter, thermal imaging, and heat transfer setups are needed. Thermal models and computer-aided engineering tools are useful for robust designs. During abuse conditions, designs should prevent cell-to-cell propagation in a module/pack (i.e., keep the fire small and manageable). NREL's battery ISC device can be used for evaluating the robustness of a module/pack to cell-to-cell propagation.

  7. Electrolytes for advanced batteries

    Blomgren, G.E. [Energizer, Westlake, OH (United States)


    The choices of the components of the electrolyte phase for advanced batteries (lithium and lithium ion batteries) are very sensitive to the electrodes which are used. There are also a number of other requirements for the electrolyte phase, which depend on the cell design and the materials chosen for the battery. The difficulty of choice is compounded when the cell is a rechargeable one. This paper looks at each of these requirements and the degree to which they are met for lithium and lithium ion batteries. The discussion is broken into sections on anode or negative electrode stability requirements, cathode or positive electrode stability requirements, conductivity needs, viscosity and wetting requirements. The effects of these properties and interactions on the performance of batteries are also discussed. (orig.)

  8. Assessment of industrial hazardous waste practices, storage and primary batteries industries. Final report, Apr--Sep 1974

    McCandless, L.C.; Wetzel, R.; Casana, J.; Slimak, K.


    This report, which covers battery manufacturing operations, is one of a series of several studies which examine land-destined wastes from selected industries. The battery industry is divided into two groups by the Bureau of Census: Standard Industrial Classification (SIC) 3691 Storage Batteries (such as lead--acid automobile batteries) and SIC 3692 Primary Batteries (such as carbon--zinc flashlight batteries). The battery industry was studied because heavy metals such as mercury, cadmium, zinc, and lead are used in some of its manufacturing processes. These metals can be toxic in certain concentrations and forms. The potentially hazardous wastes destined for land disposal from the battery industry consist of industrial processing wastes, reject cells, and sludges from water pollution control devices. The amount of sludges destined for land disposal is expected to experience a large short term increase as water effluent guidelines are implemented. The impact of water effluent guidelines on land disposal of wastes is the largest single factor in determining future trends for this industry.

  9. Performance of Installed Cooking Exhaust Devices

    Singer, Brett C.; Delp, William W.; Apte, Michael G.; Price, Philip N.


    The performance metrics of airflow, sound, and combustion product capture efficiency (CE) were measured for a convenience sample of fifteen cooking exhaust devices, as installed in residences. Results were analyzed to quantify the impact of various device- and installation-dependent parameters on CE. Measured maximum airflows were 70% or lower than values noted on product literature for 10 of the devices. Above-the-cooktop devices with flat bottom surfaces (no capture hood) – including exhaust fan/microwave combination appliances – were found to have much lower CE at similar flow rates, compared to devices with capture hoods. For almost all exhaust devices and especially for rear-mounted downdraft exhaust and microwaves, CE was substantially higher for back compared with front burner use. Flow rate, and the extent to which the exhaust device extends over the burners that are in use, also had a large effect on CE. A flow rate of 95 liters per second (200 cubic feet per minute) was necessary, but not sufficient, to attain capture efficiency in excess of 75% for the front burners. A-weighted sound levels in kitchens exceeded 57 dB when operating at the highest fan setting for all 14 devices evaluated for sound performance.

  10. Electric Ground Support Equipment Advanced Battery Technology Demonstration Project at the Ontario Airport

    Tyler Gray; Jeremy Diez; Jeffrey Wishart; James Francfort


    The intent of the electric Ground Support Equipment (eGSE) demonstration is to evaluate the day-to-day vehicle performance of electric baggage tractors using two advanced battery technologies to demonstrate possible replacements for the flooded lead-acid (FLA) batteries utilized throughout the industry. These advanced battery technologies have the potential to resolve barriers to the widespread adoption of eGSE deployment. Validation testing had not previously been performed within fleet operations to determine if the performance of current advanced batteries is sufficient to withstand the duty cycle of electric baggage tractors. This report summarizes the work performed and data accumulated during this demonstration in an effort to validate the capabilities of advanced battery technologies. This report summarizes the work performed and data accumulated during this demonstration in an effort to validate the capabilities of advanced battery technologies. The demonstration project also grew the relationship with Southwest Airlines (SWA), our demonstration partner at Ontario International Airport (ONT), located in Ontario, California. The results of this study have encouraged a proposal for a future demonstration project with SWA.

  11. A unified discharge voltage characteristic for VRLA battery capacity and reserve time estimation

    Pascoe, P.E.; Anbuky, A.H. [Invensys Energy Systems NZ Limited, Christchurch (New Zealand)


    Determining the capacity and discharge reserve time of a valve regulated lead acid battery is a highly non-trivial task. This is due to the dependence of the capacity and discharge reserve time on the discharge operating conditions as well as the battery condition. Operating conditions include discharge rate, ambient temperature and initial state of charge (SOC), while battery conditions include battery state of health and battery type. A simple approach is presented for estimating the SOC and discharge reserve time throughout a discharge. In addition, an estimation of capacity can be made at the completion of a shallow discharge. The approach employs a unified discharge characteristic that is shown to be robust to variations in operating conditions as well as battery condition. The approach provides a good degree of accuracy without the cost of complexity. Results are presented that demonstrate the estimation of the SOC to be well within 10% throughout the discharge and the reserve time (and capacity) to be within 10% from the early stages of the discharge. (author)

  12. Mathematical Storage-Battery Models

    Chapman, C. P.; Aston, M.


    Empirical formula represents performance of electrical storage batteries. Formula covers many battery types and includes numerous coefficients adjusted to fit peculiarities of each type. Battery and load parameters taken into account include power density in battery, discharge time, and electrolyte temperature. Applications include electric-vehicle "fuel" gages and powerline load leveling.

  13. Characterization and analysis of diesel exhaust odor

    Partridge, P.A.; Shala, F.J.; Cernansky, N.P.; Suffet, I.H.


    An analytical method was developed to determine which compound or compounds in the oxygenated fraction of diesel exhaust were changing in intensity and number with respect to the odor correlation between human sensory panels and diesel exhaust samples as developed at Arthur D. Little, Inc. A sample fractionation with silica Sep-Pak cartridges and gas chromatography analysis procedures were developed to analyze exhaust odor samples. By use of a chromatographic computer profiling method, correlations were developed indicating a linear relation between log (odor intensity) and log (concentration) of specific character impact peaks (which may or may not be odorous themselves). Excellent correlations were obtained with the character impact peaks identified as benzaldehyde and a methylbenzaldehyde isomer in this study. Correlation coefficients of 0.97 and 0.90, respectively, were obtained for the sample set. 17 references, 5 figures, 2 tables.

  14. Life cycle assessment of five batteries for electric vehicles under different charging regimes

    Rantik, M. [Chalmers Univ. of Technology, Goeteborg (Sweden). Dept. of Transportation and Logistics


    Life Cycle Assessment (LCA) methodology is used in this study to assess the environmental impact of five candidate batteries for electric vehicles under different conditions of charging. The entire lifetime of a passenger electric vehicle is considered as the basis for all batteries. Five different battery systems are considered. The four of them are electrically recharged - Lead-Acid, Nickel-Cadmium, Nickel-Metal hydride and Sodium-Nickel chloride whereas one system comprises batteries that are recharged mechanically (Zinc-Air). One specific battery from these five systems is selected. The results are representative of these particular batteries and not of the battery systems to which they belong. The study includes three scenarios, the basic scenario and two fast charging scenarios. The difference between the scenarios is in the phase of the battery's use and involves the charging regimes. Consequently, the other stages of the battery's life are identical in all three scenarios. The basic scenario implies normal overnight charging is used during the entire lifetime of an electric vehicle. In the first fast charging scenario, fast charging is combined with normal charging. The second fast charging scenario involves the exclusive use of fast charging. In both fast charging scenarios the user's behaviour is considered. In this study, it is believed that it is the violation of fast charging rules, set by the battery manufacturer rather than the fast charging technique, that will be critical for the cycle life of the battery. Due to low energy efficiency of the batteries and losses in the charging procedure, the use of energy for operating the electric vehicle seems to be a major contributor to the total environmental impact of the system. Significant resource constraints may prevent mass production of certain batteries or lead to increased prices of others. Use of fast charging increases the number of batteries used during the lifetime of the electric

  15. Monitoring of occupational exposure to diesel exhaust

    Scheepers, P.


    In Chapter 1 the origin and toxicity of incomplete combustion products of diesel fuel are discussed. Chapter 2 deals with methods that can be used for the identification and quantitation of airborne diesel exhaust-derived contaminants in the working place (environmental monitoring). Chemical substances may be used as indicators for source apportionment or markers for toxicity. A short-term in vitro bioassay may be used for (semi)quantitative determination of the mutagenic potency of diesel exhaust-derived airborne contaminants. Results are presented that support the use of 1-nitropyrene as a marker for the mutagenic activity of diesel exhaust particulate extracts. In Chapter 3 the development of methods for the determination of diesel exhaust-derived metabolites in biological samples is described. The application of new Salmonella typhimurium strains for the detection of urinary metabolites of nitroarenes is investigated. An immunoassay is presented as a method that may be used to track down persons with high occupational exposure to diesel exhaust. The possibilities for measurement of early biological effects are explored in Chapter 4. A method for the determination of hemoglobin adducts was used to investigate the role of the intestinal micro flora in the formation of such adducts derived from diesel exhaust constituents in rats equipped with a human micro flora. The formation of hemoglobin adducts is compared to the formation of DNA adducts in rats treated with two model compounds, in the presence or absence of a micro flora. The applicability of the described methods is discussed in Chapter 5. Prospects and recommendations for future research are given. 23 figs., 41 tabs., 660 refs., 4 appendices

  16. Brain glycogen supercompensation following exhaustive exercise.

    Matsui, Takashi; Ishikawa, Taro; Ito, Hitoshi; Okamoto, Masahiro; Inoue, Koshiro; Lee, Min-Chul; Fujikawa, Takahiko; Ichitani, Yukio; Kawanaka, Kentaro; Soya, Hideaki


    Brain glycogen localized in astrocytes, a critical energy source for neurons, decreases during prolonged exhaustive exercise with hypoglycaemia. However, it is uncertain whether exhaustive exercise induces glycogen supercompensation in the brain as in skeletal muscle. To explore this question, we exercised adult male rats to exhaustion at moderate intensity (20 m min(-1)) by treadmill, and quantified glycogen levels in several brain loci and skeletal muscles using a high-power (10 kW) microwave irradiation method as a gold standard. Skeletal muscle glycogen was depleted by 82-90% with exhaustive exercise, and supercompensated by 43-46% at 24 h after exercise. Brain glycogen levels decreased by 50-64% with exhaustive exercise, and supercompensated by 29-63% (whole brain 46%, cortex 60%, hippocampus 33%, hypothalamus 29%, cerebellum 63% and brainstem 49%) at 6 h after exercise. The brain glycogen supercompensation rates after exercise positively correlated with their decrease rates during exercise. We also observed that cortical and hippocampal glycogen supercompensation were sustained until 24 h after exercise (long-lasting supercompensation), and their basal glycogen levels increased with 4 weeks of exercise training (60 min day(-1) at 20 m min(-1)). These results support the hypothesis that, like the effect in skeletal muscles, glycogen supercompensation also occurs in the brain following exhaustive exercise, and the extent of supercompensation is dependent on that of glycogen decrease during exercise across brain regions. However, supercompensation in the brain preceded that of skeletal muscles. Further, the long-lasting supercompensation of the cortex and hippocampus is probably a prerequisite for their training adaptation (increased basal levels), probably to meet the increased energy demands of the brain in exercising animals.

  17. Exhaust gas system for space heating equipment. Abgassystem fuer Raumheizgeraete

    Schulz, D.; Kramp, A.


    The invention concerns an exhaust gas system for space heating equipment, particularly for equipment operated by liquid gas and used in caravans and similar vehicles. According to the invention, the exhaust gas system consists of a double walled pipe and a damming valve. This exhaust gas system makes it possible to cool the exhaust gas and therefore prevents too much heating at the outlet of the exhaust chimney and the penetration through the appropriate roof. If the outlet opening of the exhaust chimney should be blocked, the exhaust gases are taken to the outside through the space between the double-walled pipe via the damming valve. The usual non-return valve only operates if there is direct return flow in the exhaust chimney and therefore in the inner exhaust gas pipe of the double-walled pipe. This considerably increases the working safety of the whole system of space hating.

  18. Effect of EGR on the exhaust gas temperature and exhaust opacity in compression ignition engines

    Avinash Kumar Agrawal; Shrawan Kumar Singh; Shailendra Sinha; Mritunjay Kumar Shukla


    In diesel engines, NOx formation is a highly temperature-dependent phenomenon and takes place when the temperature in the combustion chamber exceeds 2000 K. Therefore, in order to reduce NOx emissions in the exhaust, it is necessary to keep peak combustion temperatures under control. One simple way of reducing the NOx emission of a diesel engine is by late injection of fuel into the combustion chamber. This technique is effective but increases fuel consumption by 10–15%, which necessitates the use of more effective NOx reduction techniques like exhaust gas recirculation (EGR). Re-circulating part of the exhaust gas helps in reducing NOx, but appreciable particulate emissions are observed at high loads, hence there is a trade-off between NOx and smoke emission. To get maximum benefit from this trade-off, a particulate trap may be used to reduce the amount of unburnt particulates in EGR, which in turn reduce the particulate emission also. An experimental investigation was conducted to observe the effect of exhaust gas re-circulation on the exhaust gas temperatures and exhaust opacity. The experimental setup for the proposed experiments was developed on a two-cylinder, direct injection, air-cooled, compression ignition engine. A matrix of experiments was conducted for observing the effect of different quantities of EGR on exhaust gas temperatures and opacity.

  19. Lithium Sulfuryl Chloride Battery.

    Primary batteries , Electrochemistry, Ionic current, Electrolytes, Cathodes(Electrolytic cell), Anodes(Electrolytic cell), Thionyl chloride ...Phosphorus compounds, Electrical conductivity, Calibration, Solutions(Mixtures), Electrical resistance, Performance tests, Solvents, Lithium compounds

  20. Thermal battery degradation mechanisms

    Missert, Nancy A. [Sandia National Lab. (SNL-NM), Albuquerque, NM (United States); Brunke, Lyle Brent [Sandia National Lab. (SNL-NM), Albuquerque, NM (United States)


    Diffuse reflectance IR spectroscopy (DRIFTS) was used to investigate the effect of accelerated aging on LiSi based anodes in simulated MC3816 batteries. DRIFTS spectra showed that the oxygen, carbonate, hydroxide and sulfur content of the anodes changes with aging times and temperatures, but not in a monotonic fashion that could be correlated to phase evolution. Bands associated with sulfur species were only observed in anodes taken from batteries aged in wet environments, providing further evidence for a reaction pathway facilitated by H2S transport from the cathode, through the separator, to the anode. Loss of battery capacity with accelerated aging in wet environments was correlated to loss of FeS2 in the catholyte pellets, suggesting that the major contribution to battery performance degradation results from loss of active cathode material.

  1. High temperature battery. Hochtemperaturbatterie

    Bulling, M.


    To prevent heat losses of a high temperature battery, it is proposed to make the incoming current leads in the area of their penetration through the double-walled insulating housing as thermal throttle, particularly spiral ones.

  2. Verification test for an electric vehicle using capacitor-battery series connection for battery load levelling; Denchi no fuka heijunka no tame no kyapashita to denchi no chokuretsu setsuzoku hoshiki wo saiyoshita denki jidosha no jissho shiken

    Miyaoka, K.; Takehara, J.; Kato, S. [Chugoku Electric Power Co. Inc., Hiroshima (Japan)


    For the prolongation of the distance that an electric vehicle (EV) can cover on a single charge and of the service life of the EV battery unit, a system is developed, in which the battery unit and the capacitor unit are connected in series for the levelling-off of battery peak loads, and the system is tested aboard a running real vehicle. Installed on the real vehicle is a battery unit that is a series connection of 20 12V-38Ah seal-type lead-acid batteries, each battery consisting of two cells connected in parallel. Driving the vehicle is a DC brushless motor capable of a maximum operation of 9000rpm. Also installed is a capacitor unit that is a parallel connection of 40 2.3V-1800F capacitors, each capacitor consisting of two capacitors connected in parallel. Findings are described below. In a 0-400m acceleration test, 22.5 seconds is recorded with the capacitor unit in operation, meaning an improvement of 0.7 seconds. The maximum speed remains unchanged at 110km/h, which agrees with the pre-calculated value. Although the battery peak load reduction rate in a 15-mode drive pattern marks 23%, the distances covered on a single charge in this drive pattern turn out to be almost the same whether the capacitor unit is in operation or not. 3 refs., 15 figs., 3 tabs.

  3. Comparative toxicity and mutagenicity of biodiesel exhaust

    Biodiesel (BD) is commercially made from the transesterification of plant and animal derived oils. The composition of biodiesel exhaust (BE) depends on the type of fuel, the blend ratio and the engine and operating conditions. While numerous studies have characterized the health ...

  4. Comparative toxicity and mutagenicity of biodiesel exhaust

    Biodiesel (BD) is commercially made from the transesterification of plant and animal derived oils. The composition of biodiesel exhaust (BE) depends on the type of fuel, the blend ratio and the engine and operating conditions. While numerous studies have characterized the health ...

  5. Propagation of light through ship exhaust plumes

    Iersel, M. van; Mack, A.; Eijk, A.M.J. van; Schleijpen, H.M.A.


    Looking through the atmosphere, it is sometimes difficult to see the details of an object. Effects like scintillation and blur are the cause of these difficulties. Exhaust plumes of e.g. a ship can cause extreme scintillation and blur, making it even harder to see the details of what lies behind the

  6. Infrared spectroradiometer for rocket exhaust analysis

    Herget, W. F.


    Infrared spectroradiometer measures high-resolution spectral absorption, emission, temperature, and concentration of chemical species in radically symmetric zones of the exhaust plumes of large rocket engines undergoing static firing tests. Measurements are made along predetermined lines of sight through the plume.

  7. Examination of VRLA cells sampled from a battery energy storage system (BESS) after 30-months of operations



    Valve-Regulated Lead-Acid (VRLA) batteries continue to be employed in a wide variety of applications for telecommunications and Uninterruptible Power Supply (UPS). With the rapidly growing penetration of internet services, the requirements for standby power systems appear to be changing. For example, at last year's INTELEC, high voltage standby power systems up to 300-vdc were discussed as alternatives to the traditional 48-volt power plant. At the same time, battery reliability and the sensitivity of VRLAS to charging conditions (e.g., in-rush current, float voltage and temperature), continue to be argued extensively. Charge regimes which provide off-line charging or intermittent charge to the battery have been proposed. Some of these techniques go against the widely accepted rules of operation for batteries to achieve optimum lifetime. Experience in the telecom industry with high voltage systems and these charging scenarios is limited. However, GNB has several years of experience in the installation and operation of large VRLA battery systems that embody many of the power management philosophies being proposed. Early results show that positive grid corrosion is not accelerated and battery performance is maintained even when the battery is operated at a partial state-of-charge for long periods of time.

  8. Sea-water battery for subsea control systems

    Hasvold, Øistein; Henriksen, Henrich; Melv˦r, Einar; Citi, Gianfederico; Johansen, Bent Ø.; Kjønigsen, Tom; Galetti, Robin

    This paper describes a power source for the autonomous control system of a subsea well (SWACS) in the Ionian Sea. The unit was deployed in Jan. 1996 at a depth of 180 m. The 650 kWh sea-water battery uses anodes made from commercial magnesium alloys, sea-water as the electrolyte and oxygen dissolved in the sea-water as oxidant. The inert cathodes are made from carbon fibers. The system is composed of six, two-metre high sea-water cells integrated in a steel structure, a d.c./d.c. converter and a valve regulated lead-acid accumulator enclosed in a titanium container together with a monitoring unit which transfers data to the surface via an acoustic link.

  9. Yoga reduces perceived stress and exhaustion levels in healthy elderly individuals.

    Lindahl, Eric; Tilton, Katherine; Eickholt, Nicole; Ferguson-Stegall, Lisa


    This study investigated whether a 7-week yoga intervention could improve physical function, perceived stress, and mental/emotional wellness in elderly participants. 8 participants (66.5 ± 0.3 years) attended 2 60-min Hatha yoga sessions/week for 7 weeks, and performed pre- and post-intervention assessments. Balance was assessed using a 5-test battery. Flexibility was measured by sit-and-reach and shoulder flexibility tests. Functional mobility tests included 8-ft up-and-go, 5 chair stands, and 4-m walk. Participants completed SF-12, exhaustion level, and Perceived Stress Scale (PSS) questionnaires. SF-12 Mental Component Summary scores, exhaustion levels, and PSS scores improved post-intervention. No differences were found for physical function measures. Yoga participation can improve mental/emotional wellness, exhaustion levels, and stress levels in elderly individuals, even without measurable improvements in physical function. Clinicians and health practitioners who work with the elderly should consider yoga as a potential therapeutic modality for improving important aspects of quality of life in this population. Copyright © 2016 Elsevier Ltd. All rights reserved.

  10. Strain measurement based battery testing

    Xu, Jeff Qiang; Steiber, Joe; Wall, Craig M.; Smith, Robert; Ng, Cheuk


    A method and system for strain-based estimation of the state of health of a battery, from an initial state to an aged state, is provided. A strain gauge is applied to the battery. A first strain measurement is performed on the battery, using the strain gauge, at a selected charge capacity of the battery and at the initial state of the battery. A second strain measurement is performed on the battery, using the strain gauge, at the selected charge capacity of the battery and at the aged state of the battery. The capacity degradation of the battery is estimated as the difference between the first and second strain measurements divided by the first strain measurement.

  11. High temperature sensors for exhaust diagnosis

    Svenningstorp, Henrik


    One of the largest problems that we will have to deal with on this planet this millennium is to stop the pollution of our environment. In many of the ongoing works to reduce toxic emissions, gas sensors capable of enduring rough environments and high temperatures, would be a great tool. The different applications where sensors like this would be useful vary between everything from online measurement in the paper industry and food industry to measurement in the exhaust pipe of a car. In my project we have tested Schottky diodes and MlSiCFET sensor as gas sensors operating at high temperatures. The measurement condition in the exhaust pipe of a car is extremely tough, not only is the temperature high and the different gases quite harmful, there are also a lot of particles that can affect the sensors in an undesirable way. In my project we have been testing Schottky diodes and MlSiCFET sensors based on SiC as high temperature sensors, both in the laboratory with simulated exhaust and after a real engine. In this thesis we conclude that these sensors can work in the hostile environment of an engines exhaust. It is shown that when measuring in a gas mixture with a fixed I below one, where the I-value is controlled by the O{sub 2} concentration, a sensor with a catalytic gate metal as sensitive material respond more to the increased O{sub 2} concentration than the increased HC concentration when varying the two correspondingly. A number of different sensors have been tested in simulated exhaust towards NO{sub x}. It was shown that resistivity changes in the thin gate metal influenced the gas response. Tests have been performed where sensors were a part of a SCR system with promising results concerning NH{sub 3} sensitivity. With a working temperature of 300 deg C there is no contamination of the metal surface.

  12. Electric vehicle batteries. Development status for the promising candidates; Elbilsbatterier. Utvecklingsstatus foer de fraemsta kandidaterna

    Andersson, Bo; Johansson, Arne [Catella Generics AB, Jaerfaella (Sweden)


    One driver for the EV and HEV programme of KFB is to study the effects of a large scale introduction of electric vehicles in the future. Catella Generics was contracted to investigate and report on the development status for EV batteries and the success potential for the different candidates, their development obstacles and alternative usage and on the links between different players. The batteries studied in greater detail have been evaluated according to special criteria like performance, cost, ruggedness, resource efficiency, safety and environmental impact and how that will influence their likely success. Models for the evaluation of EV batteries have been developed by the car manufacturers and authorities. We have based our investigation on the criteria established by USABC and the modifications made by PNGV for the energy storage in hybrid electric vehicles. Some basic conclusions reported as a result of this investigation are listed below: Lead-acid may have a role as energy storage in HEVs. Ni/Cd batteries are attractive from a technical standpoint, but questioned based on the environmental concern for cadmium. Ni/MH batteries are attracting a great attention in the medium term. Na/NiCl{sub 2} batteries have been successful in the German demonstration programme. Lithium batteries have a great potential in the long term. Metal/air batteries have been operated without problems, however there need for a special infrastructure is a major draw-back. Fuel cells and ultra capacitors are new alternative power sources for propulsion of EVs, however these are not included in this report.

  13. COBE battery overview: History, handling, and performance

    Yi, Thomas; Tiller, Smith; Sullivan, David


    The following topics are presented in viewgraph format: Cosmic Background Explorer (COBE) mission background; battery background and specifications; cell history; battery mechanical/structural design; battery test data; and flowcharts of the various battery approval procedures.

  14. 46 CFR 111.33-9 - Ventilation exhaust.


    ... REQUIREMENTS Power Semiconductor Rectifier Systems § 111.33-9 Ventilation exhaust. The exhaust of each forced-air semiconductor rectifier system must: (a) Terminate in a location other than a hazardous...

  15. Nonaqueous magnesium electrochemistry and its application in secondary batteries.

    Aurbach, Doron; Weissman, Idit; Gofer, Yosef; Levi, Elena


    A revolution in modern electronics has led to the miniaturization and evolution of many portable devices, such as cellular telephones and laptop computers, since the 1980s. This has led to an increasing demand for new and compatible energy storage technologies. Furthermore, a growing awareness of pollution issues has provided a strong impetus for the science and technology community to develop alternatives with ever-higher energy densities, with the ultimate goal of being able to propel electric vehicles. Magnesium's thermodynamic properties make this metal a natural candidate for utilization as an anode in high-energy-density, rechargeable battery systems. We report herein on the results of extensive studies on magnesium anodes and magnesium insertion electrodes in nonaqueous electrolyte solutions. Novel, rechargeable nonaqueous magnesium battery systems were developed based on the research. This work had two major challenges: one was to develop electrolyte solutions with especially high anodic stability in which magnesium anodes can function at a high level of cycling efficiency; the other was to develop a cathode that can reversibly intercalate Mg ions in these electrolyte systems. The new magnesium batteries consist of Mg metal anodes, an electrolyte with a general structure of Mg(AlX(3-n)R(n)R')(2) (R',R = alkyl groups, X = halide) in ethereal solutions (e.g., tetrahydrofuran, polyethers of the "glyme" family), and Chevrel phases of MgMo(3)S(4) stoichiometry as highly reversible cathodes. With their practical energy density expected to be >60 Wh/Kg, the battery systems can be cycled thousands of times with almost no capacity fading. The batteries are an environmentally friendly alternative to lead-acid and nickel-cadmium batteries and are composed of abundant, inexpensive, and nonpoisonous materials. The batteries are expected to provide superior results in large devices that require high-energy density, high cycle life, a high degree of safety, and low

  16. Lithium use in batteries

    Goonan, Thomas G.


    Lithium has a number of uses but one of the most valuable is as a component of high energy-density rechargeable lithium-ion batteries. Because of concerns over carbon dioxide footprint and increasing hydrocarbon fuel cost (reduced supply), lithium may become even more important in large batteries for powering all-electric and hybrid vehicles. It would take 1.4 to 3.0 kilograms of lithium equivalent (7.5 to 16.0 kilograms of lithium carbonate) to support a 40-mile trip in an electric vehicle before requiring recharge. This could create a large demand for lithium. Estimates of future lithium demand vary, based on numerous variables. Some of those variables include the potential for recycling, widespread public acceptance of electric vehicles, or the possibility of incentives for converting to lithium-ion-powered engines. Increased electric usage could cause electricity prices to increase. Because of reduced demand, hydrocarbon fuel prices would likely decrease, making hydrocarbon fuel more desirable. In 2009, 13 percent of worldwide lithium reserves, expressed in terms of contained lithium, were reported to be within hard rock mineral deposits, and 87 percent, within brine deposits. Most of the lithium recovered from brine came from Chile, with smaller amounts from China, Argentina, and the United States. Chile also has lithium mineral reserves, as does Australia. Another source of lithium is from recycled batteries. When lithium-ion batteries begin to power vehicles, it is expected that battery recycling rates will increase because vehicle battery recycling systems can be used to produce new lithium-ion batteries.

  17. Acoustically shielded exhaust system for high thrust jet engines

    Carey, John P. (Inventor); Lee, Robert (Inventor); Majjigi, Rudramuni K. (Inventor)


    A flade exhaust nozzle for a high thrust jet engine is configured to form an acoustic shield around the core engine exhaust flowstream while supplementing engine thrust during all flight conditions, particularly during takeoff. The flade airflow is converted from an annular flowstream to an arcuate flowstream extending around the lower half of the core engine exhaust flowstream so as to suppress exhaust noise directed at the surrounding community.

  18. Energy Efficient Waste Heat Recovery from an Engine Exhaust System


    AND DATES COVERED Master’s thesis 4. TITLE AND SUBTITLE ENERGY EFFICIENT WASTE HEAT RECOVERY FROM AN ENGINE EXHAUST SYSTEM 5. FUNDING NUMBERS 6...release. Distribution is unlimited. ENERGY EFFICIENT WASTE HEAT RECOVERY FROM AN ENGINE EXHAUST SYSTEM Aaron R. VanDenBerg Lieutenant, United...HEAT RECOVERY DEVICES Ships mainly extract heat and energy from exhaust gases by using a waste heat boiler located in the actual exhaust duct. The

  19. Conceptual design of a sodium sulfur cell for US electric-van batteries

    Binden, P.J. [Beta Power, Inc., Wayne, PA (United States)


    A conceptual design of an advanced sodium/sulfur cell for US electric-van applications has been completed. The important design factors included specific physical and electrical requirements, service life, manufacturability, thermal management, and safety. The capacity of this cell is approximately the same as that for the ``PB`` cell being developed by Silent Power Limited (10 Ah). The new cell offers a 50% improvement in energy capacity and nearly a 100% improvement in peak power over the existing PB cells. A battery constructed with such cells would significantly exceed the USABC`s mid-term performance specifications. In addition, a similar cell and battery design effort was completed for an advanced passenger car application. A battery using the van cell would have nearly 3 times the energy compared to lead-acid batteries, yet weigh 40% less; a present-day battery using a cell specifically designed for this car would provide 50% more energy in a package 60% smaller and 50% lighter.

  20. Electromechanical Battery EMB Mass Minimization taking into Account its Electrical Machines Rotor Energy

    Podgornovs Andrejs


    Full Text Available In this paper the electromechanical battery (EMB with synchronous machine is described. Theoretically, if electrical machines rotor stored energy is known, it is possible to reduce the flywheel mass of electromechanical battery. For example, the efficiency of energy recovery (kilowatt-hours out versus kilowatthours in in nowadays appliances exceeds 95 % which is considerably better than of any electrochemical battery, such as lead-acid battery. For the rotor stored energy amount calculation, it is necessary to find all geometrical dimensions of the electrical machine. To achieve this goal the iterative calculation method was used. Electromechanical battery mass was analyzed as a discharge process rotation speed function. Taking into account the rotor stored energy, we can increase the minimum rotation speed thus reducing the electrical machine mass and increasing the flywheel mass, which provides EMB cost reduction. Additionally, the possibilities of using numerical approximation calculations of magnetization curves are discussed. Each iteration of numerical application necessary for the method for rapid calculation is essential when calculating the field problems. Nowadays there are a lot of computer added design programs for electromagnetic field calculation in different types of applications, electrical machines and apparatus. For the electromagnetic field calculation process some more commonly used magnetization curve approximation methods are described, and the machine calculation time is tested for different numbers of calculations.

  1. A hybrid PV-battery/diesel electricity supply on Peucang island: an economic evaluation

    Matthias Günther


    Full Text Available Renewable energy technologies are currently under a dynamic cost development. This case holds especially for solar technology that has reached price levels that were unimaginable until a short time ago. It also holds for battery technologies the application of which is related to the increasing usage of photovoltaic energy converters and the growing interest in electric vehicles. With the decreasing prices more and more possible application cases of renewable energy technologies become economically viable. A case study was done for a location on a small island located on the west tip of Java. The levelized electricity cost of a hybrid electricity supply system composed of a solar generator and battery in combination with the existing diesel generators was compared to the electricity generation cost of the existing system. Two different battery options were taken into account, lead-acid batteries and lithium-ion batteries. The results of this study can give a rough orientation also for other locations with similar characteristics.

  2. Driving rural energy access: a second-life application for electric-vehicle batteries

    Ambrose, Hanjiro; Gershenson, Dimitry; Gershenson, Alexander; Kammen, Daniel


    Building rural energy infrastructure in developing countries remains a significant financial, policy and technological challenge. The growth of the electric vehicle (EV) industry will rapidly expand the resource of partially degraded, ‘retired’, but still usable batteries in 2016 and beyond. These batteries can become the storage hubs for community-scale grids in the developing world. We model the resource and performance potential and the technological and economic aspects of the utilization of retired EV batteries in rural and decentralized mini- and micro-grids. We develop and explore four economic scenarios across three battery chemistries to examine the impacts on transport and recycling logistics. We find that EVs sold through 2020 will produce 120-549 GWh in retired storage potential by 2028. Outlining two use scenarios for decentralized systems, we discuss the possible impacts on global electrification rates. We find that used EV batteries can provide a cost-effective and lower environmental impact alternative to existing lead-acid storage systems in these applications.

  3. Single-Source Multi-Battery Solar Charger: Analysis and Stability Issues

    Alon Kuperman


    Full Text Available In this paper, dynamic analysis of a multi-battery dual mode charger, powered by a single solar array and suitable for lead-acid and lithium-ion cell-based batteries is presented. Each battery is interfaced to the solar array by means of a current-controlled buck power stage, operating either in constant power or constant voltage mode. Operation in former/latter charging mode implies regulating input/output voltage of the converter, which is a non-trivial situation since while feeding different batteries, all the converters share the same input terminals, connected to the solar array. It is revealed that when at least one of the batteries operates in constant power charging mode, open-loop instability occurs whenever converter input voltage is lower than maximum power point voltage of the solar array. Consequently, input voltage regulating controller must be designed to stabilize closed-loop dynamics for the worst case of instability, which is also derived. Moreover, it is shown that the dynamics of the converters operating under output voltage control are perceived as disturbances by input voltage control loop and must be properly rejected. Simple loop shaping design is proposed based on a PI controller, allowing stabilizing the system in case of worst case instability and rejecting output voltage control induced disturbances at the expense of non-constant, operating-point dependent closed-loop damping.

  4. Comparative life cycle assessment of battery storage systems for stationary applications.

    Hiremath, Mitavachan; Derendorf, Karen; Vogt, Thomas


    This paper presents a comparative life cycle assessment of cumulative energy demand (CED) and global warming potential (GWP) of four stationary battery technologies: lithium-ion, lead-acid, sodium-sulfur, and vanadium-redox-flow. The analyses were carried out for a complete utilization of their cycle life and for six different stationary applications. Due to its lower CED and GWP impacts, a qualitative analysis of lithium-ion was carried out to assess the impacts of its process chains on 17 midpoint impact categories using ReCiPe-2008 methodology. It was found that in general the use stage of batteries dominates their life cycle impacts significantly. It is therefore misleading to compare the environmental performance of batteries only on a mass or capacity basis at the manufacturing outlet ("cradle-to-gate analyses") while neglecting their use stage impacts, especially when they have different characteristic parameters. Furthermore, the relative ranking of batteries does not show a significant dependency on the investigated stationary application scenarios in most cases. Based on the results obtained, the authors go on to recommend the deployment of batteries with higher round-trip efficiency, such as lithium-ion, for stationary grid operation in the first instance.

  5. 几种新技术铅蓄电池的研究进展%Research Progress of Several New Technologies Lead Storage Batteries



    Lead acid battery has the disadvantages of low energy, short cycle life and high power performance.The development of new technology and new structure has greatly improved the performance of battery, and expanded the application field of the battery.This article introduced the research and development, industrialization and application of several new technologies of lead storage batteries.%铅蓄电池存在比能量低、循环寿命短、高功率性能差等缺点,相关新技术、新结构的开发,极大地改善了电池性能,拓展了电池应用领域.文章介绍了几种铅蓄电池新技术的研究开发、产业化及应用情况.

  6. Study on recycling of heavy metals in waste batteries%废旧电池中重金属回收利用初探

    张允涛; 杨景良; 任立峥


    The harm and value of recycling heavy metals in lead-acid batteries, nickel-cadmium batteries and lithium ion batteries were analyzed. The recycling technologies of heavy metals in those batteries were described. The development of the related technologies was outlined. The questions of recycling heavy metals and sustainable development of economic and social were explored.%分析了铅酸电池、镉镍电池和锂离子电池中重金属的危害及回收利用的价值和意义,对其回收利用技术进行了阐述,对相关技术的发展情况进行概述,旨在探讨贵重金属的循环再利用和经济社会和谐可持续发展问题.

  7. Characterization of lithium batteries for application to photovoltaic systems; Caracterizacion de bater@as de litio para aplicaci@n a sistemas fotovoltaicos

    Guzman Ortiz, S.


    This master's thesis addresses the characterization of four different types of Battery technologies; the li-ion, the LiFePO4, the lead crystal and the lead acid. Because these devices are used in electric applications, calculations were made to assess the capacities and energies of the batteries while at different discharges ratios in runs from 5 to 50 hours, which are the most common on the photovoltaic sector. Also, we observed the behavior of the batteries when put through a rise of temperature to measure the fluctuations in the voltage, capacity and energy. Tests were performed at constant power to observe the behavior of the discharge intensity. When making the comparisons of the capacity and the energy, the LiFePO4 battery proved to be the best and better behavior in the tests at constant discharge rates. (Author)

  8. Type Analysis of Storage Battery Used on Urban Rail Vehicle%城轨车辆用蓄电池选型分析



    文章简述了城轨车辆蓄电池的主要用途,介绍了城市轨道交通车辆普遍应用的铅酸酸性蓄电池和隔镍碱性蓄电池的优、缺点,并对城轨车辆蓄电池选型提出建议。%This paper introduces the main use of the storage battery on urban rail vehicle, and the advantage and disadvan-tage of properly used Lead acid storage battery and Nickel cadmium alkaline storage battery. And gives opinion on type choosing of urban rail vehicle storage battery.

  9. A bi-directional DC/DC converter for hybrid wind generator/battery system with state machine control

    Hua, C.C.; Liao, Y.C. [National Yunlin Univ. of Science and Technology, Yunlin, Taiwan (China). Dept. of Electrical Engineering


    A bi-directional DC to DC converter used in a hybrid wind generator/lead-acid battery power system was presented. A state machine control strategy was used to control both the system power flow and load distribution. It was also used to increase the power capacity of the system. The battery was also charged or discharged through the bi-directional DC to DC converter. Multi-stage current charging control of the batteries was accomplished by adjusting the duty cycle of the power converter. This also improved the charging efficiency by the maximum power point tracking algorithm. It was concluded that the proposed control method can be readily extended to other renewable energy conversion systems. 6 refs., 13 figs.

  10. Battery charging control methods, electric vehicle charging methods, battery charging apparatuses and rechargeable battery systems

    Tuffner, Francis K [Richland, WA; Kintner-Meyer, Michael C. W. [Richland, WA; Hammerstrom, Donald J [West Richland, WA; Pratt, Richard M [Richland, WA


    Battery charging control methods, electric vehicle charging methods, battery charging apparatuses and rechargeable battery systems. According to one aspect, a battery charging control method includes accessing information regarding a presence of at least one of a surplus and a deficiency of electrical energy upon an electrical power distribution system at a plurality of different moments in time, and using the information, controlling an adjustment of an amount of the electrical energy provided from the electrical power distribution system to a rechargeable battery to charge the rechargeable battery.

  11. 46 CFR 52.25-20 - Exhaust gas boilers.


    ... 46 Shipping 2 2010-10-01 2010-10-01 false Exhaust gas boilers. 52.25-20 Section 52.25-20 Shipping COAST GUARD, DEPARTMENT OF HOMELAND SECURITY (CONTINUED) MARINE ENGINEERING POWER BOILERS Other Boiler Types § 52.25-20 Exhaust gas boilers. Exhaust gas boilers with a maximum allowable working...

  12. 14 CFR 25.941 - Inlet, engine, and exhaust compatibility.


    ... 14 Aeronautics and Space 1 2010-01-01 2010-01-01 false Inlet, engine, and exhaust compatibility. 25.941 Section 25.941 Aeronautics and Space FEDERAL AVIATION ADMINISTRATION, DEPARTMENT OF..., engine, and exhaust compatibility. For airplanes using variable inlet or exhaust system geometry, or...

  13. 14 CFR 23.1125 - Exhaust heat exchangers.


    ... 14 Aeronautics and Space 1 2010-01-01 2010-01-01 false Exhaust heat exchangers. 23.1125 Section 23... § 23.1125 Exhaust heat exchangers. For reciprocating engine powered airplanes the following apply: (a) Each exhaust heat exchanger must be constructed and installed to withstand the vibration, inertia,...

  14. 46 CFR 182.425 - Engine exhaust cooling.


    ... 46 Shipping 7 2010-10-01 2010-10-01 false Engine exhaust cooling. 182.425 Section 182.425 Shipping...) MACHINERY INSTALLATION Specific Machinery Requirements § 182.425 Engine exhaust cooling. (a) Except as... of this chapter. (b) The exhaust pipe cooling water system must comply with the requirements of...

  15. 40 CFR 202.22 - Visual exhaust system inspection.


    ... 40 Protection of Environment 24 2010-07-01 2010-07-01 false Visual exhaust system inspection. 202... Standards § 202.22 Visual exhaust system inspection. No motor carrier subject to these regulations shall operate any motor vehicle of a type to which this regulation is applicable unless the exhaust system...

  16. Used batteries - REMINDER


    With colder weather drawing in, it is quite likely that older car batteries will fail. On this subject, the Safety Commission wishes to remind everyone that CERN is not responsible for the disposal of used batteries from private vehicles. So please refrain from abandoning them on pavements or around or inside buildings. Used batteries can be disposed of safely, free-of-charge and without any damage to the environment at waste disposal sites (déchetteries) close to CERN in both France (Ain and Haute-Savoie) and in the Canton of Geneva in Switzerland (Cheneviers). Since the average car battery lasts a number of years, this only represents a small effort on your part over the whole lifetime of your vehicle. Most people don't need reminding that car batteries contain concentrated sulphuric acid, which can cause severe burns. Despite this, we frequently find them casually dumped in scrap metal bins! For more information, please contact R. Magnier/SC-GS 160879 We all have a responsibility for safety and th...

  17. Power supply system for traction batteries

    Perkuhn, E. (DETA Akkumulatorenwerk G.m.b.H., Bad Lauterberg (Germany, F.R.))


    Battery life is usually shortest in combined systems. The author discusses the causes of battery wear; if the battery is serviced correctly, it is mainly the charging process which is responsible. This process is described and explained. Battery chargers are mentioned where charging voltage and charging current are best adapted to the battery requirements. These battery chargers are also switched off automatically.

  18. A Martian Air Battery Project

    National Aeronautics and Space Administration — This project will investigate an entirely new battery chemistry by developing A Martian Air Battery. Specifically the project will explore the concept of a Martian...

  19. Jet Engine Exhaust Analysis by Subtractive Chromatography


    and J. J. Brooks. Development of a portable miniature collection system for the exposure as- sessment within the microenvironment for carcinogens ...65 A-2. Recovery of acrylonitrile from standard sample generation system ...... ............. 66 B-I. Jet engine exhaust sampling and analysis...7 n-Butane 0.16 2.6 minutes 8 Propylene oxide 3.14 52 minutes 9 Acrylonitrile 9.35 2.6 hours 10 Phenanthrene 1.9 x 106 61 years 11 4-Bromodiphenyl

  20. Operational test report, 500 CFM portable exhauster

    Nelson, O.D.


    A 500 cubic foot per minute (CFM) portable exhauster system was fabricated for use on 241-A-101 [a Hydrogen Watch List tank] during saltwell pumping activities. An operational test was performed on this unit during 9/20/96 through 1O/14/96 in the 241-A Tank Farm. This operational test was done in accordance with OTP-060-001 Rev 0 (See Appendix A of this report). The test was performed with exceptions.