Cathodic protection (CP) anodes and corrosion coating on two offshore pipelines were damaged during deep water installation. In-situ methods for deep-water inspection and repair of the pipelines` CP and coating systems were developed and used. High-pressure natural gas Pipeline. A design was 5.6 miles of 8.625 in. OD by 0.406 in. W.T. API SL, Grade X-42, seamless line pipe. Pipeline B design was 0.3 miles of similar specification pipe. Both pipelines were mill-coated with 14 mil of fusion-bonded epoxy (FBE) corrosion coating. Girth welds were field-coated with FBE.

Current global acceptance of the three layer polyethylene coating system for the exterior coating of steel pipelines (for almost any environment on-shore/off-shore for oil, gas or water pipelines) has helped to expand the present coating use. The focus of this paper will be on coating material changes by technology, to up-grade the end use of the coating system and to present those changes to the engineering and corrosion community to the benefit of the end user or client.

Statoil is the major operator of the oil and gas pipelines in the North Sea and the Norwegian Sea. Different coating systems have been used for external corrosion protection of the pipelines. The paper presents the company`s experience regarding cathodic protection design and fabrication and installation of anodes for deep water pipelines.

...2010-10-01 false Which pipelines must have coating for external corrosion control? 195...195.557 Which pipelines must have coating for external corrosion control? Except...submerged pipeline must have an external coating for external corrosion control if the...

...of Transportation, Pipeline and Hazardous Materials...Title: National Pipeline Mapping Program. OMB Control Number: 2137-0596...Each operator of a pipeline facility (except...on their pipeline system. This...

The use of anticorrosion coating is a common practice in industrial pipeline applications. Among the several coatings types to buried and submerged pipelines, over all, the Fusion Bonded Epoxy and Three Layer Polyethylene coating systems have been large employed. They have showed an excellent performance protecting the pipe metal from external corrosive environment, considerably decreasing the designed cathodic protection requirements, basically in the first years of pipeline operation. Coating system success depends on not only of a suitable design or of the materials technology, but also depends on the process parameters and the raw material characteristics exhibited during the application. In this paper will be presented in a theoretical approach how the process parameters and the raw materials characteristics may affect the three layer polyethylene anticorrosion coating final properties. (author)

Recently, fusion bonded epoxy coating has been widely used for external protection of pipeline. In general, cathodic protection are often used together with organic coating for protection of pipeline. Cathodic disbonding of organic coating occurs when cat...

...atmospheric corrosion, vandalism...Operating conditions of the pipeline...Potential natural forces inherent...spills due to corrosion, gouges...pipeline's coating & corrosion condition, and steel...butane, Natural Gas...

The major operator of oil and gas pipelines in the North and Norwegian Seas has used different coating systems for external corrosion protection. Presented herein is the company`s experience with cathodic protection design, fabrication, and installation of anodes for deep water pipelines. The cathodic protection (CP) systems for the pipelines are based on using sacrificial anodes. Because the design of the CP system and purchase of sacrificial anodes are carried out early in the development of projects, the CP and anode design are often not optimal. In many projects, flexibility is required during production and installation of anodes.

...Transportation (Continued) PIPELINE AND HAZARDOUS MATERIALS...TRANSPORTATION (CONTINUED) PIPELINE SAFETY TRANSPORTATION...HAZARDOUS LIQUIDS BY PIPELINE Corrosion Control § 195.565 How...you must install the system in accordance...

Pipelines must be kept from leaking during their Engineered Design Life (EDL). The most effective way to achieve this is by using a corrosion protection system consisting of protective coatings and cathodic protection (CP). The ideal pipeline coating will achieve this objective, with due considerations being given to operating conditions and life expectancy. A sound understanding of the fundamentals of substrate surface chemistry, corrosion theory, coating technology and cathodic protection principles are essential for designing such a coating and its integration with an optimum corrosion control system. This paper will examine some of the important fundamentals and conclusions will be drawn, which should help with the selection of an ideal coating system for different operating and environment conditions.

Stress corrosion cracking (SCC) is now recognized by operators worldwide as a significant threat to the safe operation of their pipeline systems. Gas, oil, and refined products lines have all been susceptible to this form of environmentally assisted cracking. As a result, operators and regulators have been incorporating data related to the development and prevalence of SCC into their risk management systems in order that they may effectively address this time-dependant threat. The National Association of Corrosion Engineers (NACE) published the first structured methodology for stress corrosion cracking direct assessment (SCCDA) in 2004 (RP0204-2004). Operators are now beginning to apply the methods outlined in the standard to assess their systems. Research and industry experience have shown that various pipeline coating systems can be more or less effective in preventing the formation and growth of SCC. Newer pipeline coatings, such as multi layer epoxy/extruded polyolefin systems have been widely regarded as effective coating systems to address the threat posed by SCC when they are properly applied. New field studies performed on a pipeline coated with a three layer epoxy/polyethylene system have raised the possibility that operators utilizing these types of coatings may need to reassess how they manage the SCC threat. (author)

...TRANSPORTATION (CONTINUED) PIPELINE SAFETY TRANSPORTATION...HAZARDOUS LIQUIDS BY PIPELINE Corrosion Control § 195.579 What...that would corrode the pipeline, you must investigate...part of the pipeline system that the...

Experiments have confirmed the effectiveness of inhibitors in controlling stress-corrosion cracking of pipeline steel. Tests with coated specimens showed that certain inhibitors incorporated into coating systems leach out at holidays and protect the bare steel. The inhibitors leach out at a rate that depends on the nature and size of the defect and on the soil composition. The formation of compact, calcareous deposits at holidays acts to physically prevent further inhibitor loss and to separate the pipe from the environment. Other tests proved that the addition of inhibitors to the soil above a buried pipeline is an impractical approach to corrosion control that could introduce toxic elements into the soil.

This paper described a risk control management tool that has been developed by Petrobras Petroleo, the largest Brazilian oil company and one of the world's leading oil companies. The system covers health, safety and environmental (HSE) issues regarding pipeline construction projects. The limitations of traditional safety management systems for coping with the critical problems related to environmental safety issues were discussed. In particular, this paper described how the HSE tool evaluates the risks resulting from the following aspects of onshore pipeline construction and assembly: establishing right-of-way and route locations, transporting pipe, developing the construction site, opening the trench, pipe laying, pipe bending, concrete external coating, welding, external anticorrosive coatings, pipe placement backfilling, hydrostatic testing, maintenance operations, and pipeline commissioning. 6 refs., 1 tab.

Pigging of long pipelines is a technique for in situ (field) coating, creating seamless internal structural linings. Originally developed for cleaning pipes, the system was adapted to apply internal anti-corrosion protection to pipes using a thin epoxy layer, which had some problems in weld coverage, stress cracking, poor cold weather curing and the inability to fill pitting corrosion metal loss. New coating materials, revised application methods and modified pigging equipment have made it possible to apply in situ liquid film coatings up to 1 mm thick, as an internal corrosion barrier to pipes, in a single application (similar to continuous screeding) resulting in a bonded 'GRP pipe within a steel pipe'. The method can be used for new projects on fully welded pipe lines avoiding coating problems associated with flange joints and/or couplings, or for refurbishment of old pipelines, varying from 150-900 mm diameter, up to 12 km long. Pipes can be buried, submerged, continuously welded or flanged. Many different pipes, such as oil platform to shore based pipelines, can all be treated using this method. Thick film polymer pigging techniques create new possibilities for Engineers to extend the life of pipeline systems, with significant cost savings compared to replacement pipe. (author)

...Continued) PIPELINE AND HAZARDOUS...CONTINUED) PIPELINE SAFETY LIQUEFIED...that the transfer system is ready for use, with connections and controls in proper positions, including if the system could contain a...transfers into a pipeline system will...

... TRANSPORTATION OF NATURAL AND OTHER GAS BY PIPELINE...temperatures for shut-in conditions, that the pipeline...protected against external corrosion by a non-shielding...thickness to meet design conditions. (2) If the carbon...disbondment, and coating condition must be provided...

The transport of liquid or gas fluids, such as water, fuel, chemical products, minerals, among others, through underground pipelines, is becoming more significant in the whole world, specially in Brazil, due to low cost, operational security and low physical interference at the surface. By the other hand, the ambient matters, the population's security in pipeline tracing and economic aspects lead to greater requirements in relation to the integrity of those installations. Corrosion is one of the most important causes of underground pipelines' deterioration and coating and cathodic protection are recommended to prevent it from occurring. However, both techniques must be considered in the pipeline project for it to be successful. At the present work the most important kinds of coating for underground pipelines are presented, as well as the applications, limitations, reference norms and the interface with the cathodic protection systems in relation to the efficiencies to be adopted and the expected performance. Is it also discussed the welded piping joints confection and the protection difficulties when the efficiencies are not corresponded to those foreseen in the cathodic protection systems project. (author)

...2010-10-01 false Control of the pressure...distribution systems. 192.197...Continued) PIPELINE AND HAZARDOUS...OTHER GAS BY PIPELINE: MINIMUM FEDERAL...STANDARDS Design of Pipeline Components § 192.197 Control of the pressure...distribution systems. (a)...

...to integrity of each pipeline segment. ...show how a program to control risk on pipeline segments that could...the integrity of the system is weakening despite...narrative description of pipeline system integrity,...

This paper reports that three years of effort by BP Engineering, working closely with the Miller Gas System Project, resulted in the development, testing and manufacture of a unique insulation and coating system used in construction of the St. Fergus-to-Boddam Pipeline. The 147-mile, 30-in. offshore pipeline has a design pressure of 175 bara and operates in the dense phase with a gas cricodenbar of 100 bara. Due to safety considerations, a design pressure of 35 bara was chosen for the onshore section, which is below the gas cricodenbar. The hydrocarbon dewpoint at this pressure is approximately 20 C. Gas pressures are reduced at the St. Fergus terminal and the gas is heated to give a pipeline inlet temperature between 40 C and 80 C, depending on flow conditions. The pipeline is insulated to avoid excessive heat loss and liquid dropout. The decision to insulate the pipeline was made with the knowledge that experience with insulated, buried pipelines has not been good. Considerable time and effort would be required if problems were to be avoided.

As part of a rapid-deployment emergency pipeline repair system. British Gas required a quick and efficient method of removing concrete weight coating from its 36-in. subsea trunk lines linking the Morecambe Bay and Rough fields with their respective onshore terminals. The latest generation of weight coating design was used on the pipelines to give maximum protection from trawl equipment and anchor damage. However, the high-integrity coating creates problems when the concrete must be removed for repair work. Various existing subsea removal techniques were examined at the Engineering Research Station's Subsea Test Centre at Blyth. These ranged from diver-held saws to high-explosive water jetting with grit entrainment. The removal times for a panel 1-m long varied from 12 to 24 hr and certain techniques damaged the pipeline. After analyzing the data from these trials, British gas decided to design and build its own concrete weight coating removal system based on diamond-tipped saws and hydraulic jackets. The system is detailed in this paper.

...Annual Report of Oil Pipeline Companies. Action...the FERC Form 6. OMB Control No: 1902-0022. Respondents: Oil pipelines. Frequency of Responses...Industry Classification System defines a small oil pipeline company as one...

...transportation or between a non-pipeline mode and a pipeline. These facilities do not...piping that are necessary to control pressure in the pipeline under § 195.406(b...dioxide enters the injection system, whichever is farther...

...TRANSPORTATION (CONTINUED) PIPELINE SAFETY TRANSPORTATION...NATURAL AND OTHER GAS BY PIPELINE: MINIMUM FEDERAL SAFETY STANDARDS Design of Pipeline Components § 192.203 Instrument, control, and sampling pipe...to permanently closed systems, such as...

...NATURAL AND OTHER GAS BY PIPELINE: MINIMUM FEDERAL SAFETY...STANDARDS Gas Distribution Pipeline Integrity Management...its gas distribution system developed from reasonably...characteristics of the pipeline's design and operations...history, corrosion control records,...

Fall 1979 marked the beginning of operations by Saipem S.p.A. to lay three 20-in. gas pipelines across the Mediterranean Sea from Tunisia to Sicily as part of the Algeria-Italy pipeline project. Saipem's Castoro Sei, the twin-hulled semisubmersible self-propelled lay vessel that recently completed the Straits of Messina section of the pipeline is making the 99-mile crossing, working in water depths of nearly 2000 ft along a 4-mile stretch of jagged seabed. The concrete-encased pipes are coated internally with epoxy resin and externally with a 0.14-in. layer of polyethylene. Zinc-anode systems, installed at 400-ft intervals along the lines, will protect the pipe from corrosion.

The economic transport of CO"2 rich fluids for carbon capture and sequestration requires the development of economical coatings for pipeline steel. A possible system is sodium orthovanadate (Na"3VO"4) embedded in a modified zinc phosphate coating with Mn-Mg additives. The effect of this coating on the inhibition corrosion on a mild steel surface was investigated at different pH and vanadate concentration. Weight loss and electrochemical polarization methods were applied to evaluate the corrosion rate and inhibition efficiency (@h). Mild steel and modified zinc phosphate coated steel were immersed in slightly acidic de-ionized water (HCl/H"2O) (pH 4) containing different sodium vanadate concentrations (0.0005, 0.001, 0.005M). The Mn-Mg-zinc phosphate-plus-vanadate coating has a high inhibit...

The invention relates to a pipeline vehicle designed for inspection and maintenance. Self-driven vehicle for pipelines characterized by comprising: a cylindrically designed vehicle body through which and/or around which the pipeline`s medium flows, a drive unit on the vehicle body which resiliently bears against the pipeline`s internal surface, a hydraulic system which powers the drive module, a power supply system for operation of the hydraulic system, and a controller which at least controls the vehicle`s movement in the pipeline. 20 figs.

This paper focuses on some of the issues necessary for pipeline operators to consider when addressing the challenge of managing the integrity of their systems. Topics are: Definition; business justification; creation and safeguarding of technical integrity; control and deviation from technical integrity; pipelines; pipeline failure assessment; pipeline integrity assessment; leak detection; emergency response. 6 figs., 3 tabs.

Operational flexibility and platform protection requirements on a North Sea gas pipeline are provided by a subsea valve control system. Topics considered in this paper include natural gas distribution systems, pipelines, offshore platforms, valves, control systems, and remote control.

Corrosion affects many oil and gas facilities. It is the principal cause of leaks of products and rupture of storage tanks and pipelines, resulting sometimes in catastrophic damages (human damages, pollution of the natural environment, additional costs for repair, prolonged stop of pumping). Growing environmental concerns regarding the use of heavy metals in anti-corrosion coating formulations led to a new coating strategy using intrinsically conducting polymers (ICPs) as key components. (ICPs) as a new materials class provides a unique set of new properties and coatings based on these polymers are able to meet high demands and are outperforming even the best conventional anti-corrosion coating systems. This new generation of high-potential coatings can provide a significant cost reduction for the oil and gas industry, due to the specific properties of the ICPs which can work indefinitely as a redox catalysts and provide continuous protection as long as the mechanical integrity of the polymer films remains intact. Our paper focuses on the development of a nonconventional coating based on a specific conducting polymer which is never used before in any coating formulations. The developed coating is able to provide high anticorrosion performances with safety, environmental benefits and costs reduction. (auth)

The Northwest Pipeline Corporation has found a corrosion control program on its 1485-mile system saves upwards of $75 per foot in replacement costs, while corrosion costs run about one percent of investment in other remote areas. An original coating with hot asphalt, fiberglass mesh, and felt outer wrap over the ditch dating from 1955 was upgraded with cathodic protection in 1959-60. The company uses graphite anodes in conventional beds and Duriron type M anodes in deep beds. There are four major coating types on the system: hot applied enamels, extruded coatings, tape, and thin film epoxies. Scheduled maintenance and inspection tasks are a major part of the corrosion control program which includes operator training.

Stress corrosion cracking (SCC) is a common phenomenon that occurs on the outer surfaces of buried pipelines. This paper investigated aspects of SCC on 3 transmission pipelines on the West-East Gas Pipeline Project in China. The study was comprised of 3 different investigations: (1) an investigation of SCC cases on constructed pipelines; (2) an evaluation of SCC sensitivity of pipeline steels in typical soil environments; and (3) an analysis of soil environments and operation conditions of western pipelines. The study included a review of pipeline corrosion investigations, as well as an examination of pipeline failure cases. Investigative digs were conducted at 21 sites to test soil chemistries. Slow strain rate stress were conducted to evaluate SCC sensitivity of steel pipelines used in China. Potentiodynamic polarization tests were conducted to characterize the electrochemical behaviour of the X70 line pipe steel in different soil environments. Results of the study showed that the environmental conditions in many locations in China contributed to SCC in pipelines. SCC was observed on the surface of X70 steel pipe specimens in both marsh and saline environments. Seasonal temperature changes also contributed additional stress on pipelines. The movement of soil bodies in mountainous areas also contributed to stress and coating damage. It was concluded that proper cathodic protection can alleviate concentrations of local solutions under disbanded coatings. Overprotection of SCC will accelerate the growth of cracks and the degradation of coatings. Samples gathered from the solutions found under the disbanded coatings of pipelines will be used to form part of a reference database for predicting SCC in oil and gas pipelines in the future. 2 refs., 4 tabs., 5 figs.

...requirements in the Federal Pipeline Safety Regulations...Mail: Docket Management System: U.S. Department...Delivery: Docket Management System: U.S. Department...permit from Gulf South Pipeline Company, LP (GSPC...conduct risk Company, LP. control activities based on...

...programs for distribution pipelines.'' Section 9 further...natural gas distribution system to install an excess...in gas distribution systems. During the comment...President Obama signed the Pipeline Safety, Regulatory...collection; (2) OMB control number; (3)...

The bill would improve Federal laws relating to the Trans-Alaska Pipeline System in light of the recent Valdez oil spill and its environmental consequences. The bill explains provisions for the Trans-Alaska Pipeline System fund and liability; the Trans-Alaska Pipeline System trust fund; improvement of the pipeline system (establishes a Presidential task force); Alaska oil spill recovery institute; penalties; provisions applicable to Alaska natives; and state laws and programs.

An analytical model of expansion movements at the ends of pipelines is developed. A comparison with measurements on two North Sea pipelines shows that the analysis is consistent with observed behavior, and can be used to assess the results of corrective action. An alternative mechanism, creep deformation within the corrosion coating, is analyzed briefly.

The invention deals with a self-driven vehicle for offshore pipelines. The vehicle comprises a cylindrically designed vehicle body through which and/or around which the pipeline's medium flows, a drive unit on the vehicle body which resiliently bears against the pipeline's internal surface, a hydraulic system which powers the drive module, a power supply system for operation of the hydraulic system, and a controller which at least controls the vehicle's movement in the pipeline. 16 figs.

...pipeline is exposed, you must examine the exposed portion for evidence of external corrosion if the pipe is bare, or if the coating is deteriorated. If you find external corrosion requiring corrective action under § 195.585, you must investigate...

Based on EMAT technology, the RoCD{sup 2} tool fleet developed by ROSEN enables inspection of liquid and gas pipelines for cracks in the pipe wall and analysis of pipeline coating. With the unique high-resolution sensor configuration, pipelines totaling more than 2,000 km have been successfully inspected since 2005. Numerous field verifications carried out in North America, the Middle East and Europe have confirmed the reliability of this tool fleet. Correlating the EMAT data with the cathodic protection measurement data enables extended analysis of pipeline coatings. In addition, the combination of these data sets permits differentiation between coating defects and coating disbondment. This information constitutes an important parameter for SCC susceptibility models. (orig.)

This article discussed a new nanotechnology coating designed for use in oil and gas pipelines. Designed by Florida-based company Industrial Nanotech Inc., the Nansulate coating is comprised of a nanotechnology material that provides thermal insulation as well as protection against corrosion and mould growth. The coating is a water-based formula that is applied using brushes, rollers or airless sprayers. The coatings were developed to aid in the detection of corrosion under insulation. The product is now being used by companies based in Brazil, and was recently used to successfully reduce temperatures on a pipeline by 140 degrees C. Industrial Nanotech is also now designing a coating for an Arctic pipeline project. The coating is made from a material called Hydro-NM-Oxide. It was concluded that the material's low thermal conductivity is responsible for the thin film's insulating capability. 1 fig.

...address human factors and other aspects of control room management for certain pipelines where controllers use supervisory control and data acquisition (SCADA) systems. Under the final rule, pipeline operators must implement methods to...

...pipeline facility with a controller working in a control room who monitors and controls all or part of a pipeline facility through a SCADA system. Each operator must have and follow written control room management procedures that implement...

...2010-10-01 false Control center. 193.2441...Transportation (Continued) PIPELINE AND HAZARDOUS MATERIALS...TRANSPORTATION (CONTINUED) PIPELINE SAFETY LIQUEFIED NATURAL...Equipment § 193.2441 Control center. Each LNG plant...remotely actuated control system and each automatic...

...PLANS FOR ONSHORE OIL PIPELINES Response Plans ...expects to have pollution control responsibilities or...response zone onshore pipeline shall have a single...response management system including the functional...a manageable span of control, a clearly...

Monitoring of fluid transmission pipelines to determine movement of certain sections of the line as a result of ground subsidence, frost heaving or other motion is an important environmental and economic consideration with respect to pipeline operation and maintenance. An improved method is provided for determining the course of a subterranean or submarine pipeline in order to facilitate such monitoring. According to the invention, the pipeline curvature is measured by propelling an instrumented pipeline pig through the relevant section of the line and recording signals generated by one or more accelerometers mounted in the pig. At the time of pipeline installation, the course of the pipeline may be measured by recording the signals generated upon traversing the pipeline with the instrumented pig. Subsequent trips with the pig over the same section of the pipeline will provide signals indicating any change in course by comparing the recorded signals. Also according to the invention, a pipeline monitoring system is provided comprising a pipeline pig which includes instrumentation for measuring lateral curvature of the pipeline utilizing two orthogonally arranged accelerometers for recording lateral displacements of the pig as it moves through the pipeline. The pig also preferably includes means for measuring displacement of the pig from its launching point, such as a magnetometer which can sense magnetic anomalies caused by pipeline welds. 4 figs.

The following conclusions are drawn on the basis of the conducted studies: the broad introduction of developed corrosion inhibitors, bactericides, bacterial corrosion inhibitors and paints is being held up by the insufficient volume of their commercial production; among the chemical products used for corrosion protection, there are not sufficient reagents for the specific conditions of Western Siberia, Western Kazakhstan and the Far North; the prospects for increasing the effectiveness of using chemical reagents for dealing with corrosion is primarily associated with their deliveries to the oil fields in full volume and assortment and with the improvement in the technology for their use, the development of new products for specific conditions for extracting oil and for increasing the oil yield of strata and provision of technical systems for anticorrosion protection; an important problem in the branch is the delivery of pipes and other equipment with anticorrosive coatings, the development of a technology for connecting pipes in field conditions and the use of nonmetallic pipes; paint and enamel coatings of pipes with a diameter of up to 825 millimeters in works conditions are required along with the delivery by pipe rolling plants of pipes with internal coatings and, considering that in Western Siberia, the collectors in diameter and productivity are close to mainline pipelines, while the conditions of operation are more severe, the design and construction of the collectors should be accomplished based on the standards for main pipelines.

Laboratory test results that demonstrate the performance of a newly developed high temperature epoxy/coal tar enamel protective coating system are described. The epoxy/coal tar enamel coating system is unique in that it utilizes the latent heat of the applied coal tar enamel (260 degrees C) to cure the epoxy primer and to form a synergistic bond of the coal tar enamel and the epoxy to the steel. Plant and field applications also showed a high degree of success, demonstrating not only the maximum adhesion properties of epoxy, but also the outstanding water resistance of the coal tar enamel. The synergistic combination enables oil and natural gas pipelines to operate at temperatures up to 110 degrees C. 3 refs., 7 tabs., 1 fig.

This paper outlines some of the advantages of using centrifugal high pressure slurry pumps and discusses some areas of their pipeline application. Typical design features of this type of pump are outlined and some existing high pressure pump/pipeline installations are listed. The design of slurry pipeline systems is also discussed with particular reference to transport velocity, friction headloss and pump performance. Finally, the future of centrifugal slurry pumps in pipeline transport is examined with respect to both new applications and pump design.

A section of pipeline belonging to TransCanada Pipelines ruptured near Latchford, Ontario, in July of 1994. The rupture was a result of external corrosion which had reduced the wall thickness of the pipeline by up to 70% of the original thickness. The section of the line that ruptured had been constructed in 1972 and was coated with a mastic primer, a hot applied enamel coating , and an asbestos and kraft paper outer wrap. Asphalt coatings have been discontinued by the pipeline industry in general because of several important technical factors. A similar rupture occurred in October of 1996 near Williamstown, Ontario. The measures taken by TCPL following the ruptures were described. It was concluded that a metal loss in-line inspection program could identify areas where metal loss has reached unacceptable levels. 4 figs.

A first principles based equation for potential attenuation along a marine pipeline or riser that was cathodically polarized by multiple, equally spaced, identical galvanic anodes and that incorporated the electrolyte (anode), coating, and metallic path resistances, as well as the pipe polarization resistance, was derived. Finite different method (FDM) solutions for this equation showed that the potential profile consisted of a relatively abrupt polarization decay within the first several meters of an anode and an essentially constant potential beyond this for cases where anode spacing was {approximately}< 1 km (this distance varied with pipe and anode dimensions, properties, and exposure conditions). For anode spacings greater than this, metallic path resistance became important such that a potential gradient resulted along the entire pipe length. Comparison of the RDM solutions for the case of a pipeline of typical dimensions and marine exposure conditions with results from boundary element modeling (BEM) indicated excellent agreement between the two for situations where the metallic resistance was negligible. For cases where this term was not negligible (relatively large anode spacings), the FDM solutions were more accurate since BEM did not incorporate metallic path resistance. It was concluded that the derived equation has utility for design of pipeline cathodic protection systems and for analysis of data there from, particularly in cases where anode spacing is sufficiently large that metallic path resistance is non-negligible.

Pipelines 48 in. in diameter will carry natural gas through 833 miles of swamp, flatlands, jungles, sand dunes and rivers. Semiautomatic and automatic welding is used. In swampy locations the pipe is coated with a 5 in. layer of concrete. A fiberglass epoxy coating is applied to all pipe after welding. (FS)

The paper traces the development of the National Transmission System from its early beginnings when handling only Algerian Gas, and Gas from the Southern Basin of the North Sea, through the period of rapid expansion needed to deal with the Frigg field off Northern Scotland, to the current phase of expansion which is taking place to deal with the Morecambe Bay discovery and the development of the depleting Rough field for seasonal storage, off the North East coast of Britain. Experience gained over the years has highlighted the shortcomings - in the British context - of the original American Codes of Practice and Pipelining Recommendations (TD/1) have been drawn up to meet the needs of a highly populated, small, industrial country. These in turn have been kept under close scrutiny and recent changes in design philosophy calling for a revised 'bible' (TD/1 - second edition) are outlined in the paper. Field activities are also subject to development and change. Examples being, larger diameter pipes, new types of coating, options on welding processes etc. The use of epoxy powder coating, so far only popular in the American continent is now accepted in Britain and the philosophy of this acceptance is examined. The future integrity of pipelines calls not only for the adequate design of new lines, but also, and probably more important, in the light of governmental interest, for the need to qualify older lines for continued service. The whole question of surveillance, including the use of on-line inspection units is examined in detail.

The operation of buried natural gas pipelines in Arctic regions requires installation of gas chilling facilities at compressor stations. These facilities are required in order to cool compressed pipeline gases to temperatures below that of permanently frozen surrounding soil. If these pipeline gas temperatures are too high, the frozen ground around the pipelines will eventually thaw. This is undesirable for many reasons amongst which are ground settlement and possible catastrophic failure of the pipeline. This paper presents the results of a study which compared several alternative methods of gas chilling for possible application at one of the compressor stations on the proposed new Yamal-Center gas pipeline system in the Russian Arctic. This technical and economic study was performed by Gulf Interstate Engineering (GIE) for GAZPROM, the gas company in Russia that will own and operate this new pipeline system. Geotechnical, climatical and other information provided by GAZPROM, coupled with information developed by GIE, formed the basis for this study.

Pipeline deterioration by stress corrosion cracking (SCC) is an increasing challenge for the pipeline industry. Recent incidents and regulatory demands, emphasize the worldwide focus on this phenomenon. Coating disbondment is understood as a precursor to SCC by increasing the susceptibility of the pipeline for corrosion. ROSEN provides a High Resolution ILI-technology, based on a novel concept of an Electromagnetic Acoustic Transducer (EMAT). This technique allows both, the detection of SCC and the detection of disbonded coating, using two independent measurement methods. Thus, the technology combines proactive and reactive measures to improve the reliability of a pipeline that is susceptible to SCC. Data from a series of full-scale tests, obtained with the ILI-EMAT prototype, will be presented. Several tests were conducted on pipe containing natural SCC colonies. The improvement of SCC detection capability using the ROSEN inspection tool is demonstrated. (author)

The task is examined of forming a linear mathematical model for a branched pipeline system with distributed parameters. Based on the matrix-topological apparatus for the theory of chains, a technique was developed for formalized construction of the transfer functions of pipeline systems consisting of passive and active elements and containing both elements with distributed and with concentrated parameters. An example is presented of forming the mathematical model of the branched pipeline system containing elements with distributed parameters.

An improved thermal barrier coating system with good reliability and thermal performance is described. The report discusses the coating process, manufacturing, repair, deposition, and microstructure of the coatings.

Photon driven, direct conversion systems consist of a light absorber and a water splitting catalyst as a monolithic system; water is split directly upon illumination. This one-step process eliminates the need to generate electricity externally and subsequently feed it to an electrolyzer. These configurations require only the piping necessary for transport of hydrogen to an external storage system or gas pipeline. This work is focused on multiphoton photoelectrochemical devices for production of hydrogen directly using sunlight and water. Two types of multijunction cells, one consisting of a-Si triple junctions and the other GaInP{sub 2}/GaAs homojunctions, were studied for the photoelectrochemical decomposition of water into hydrogen and oxygen from an aqueous electrolyte solution. To catalyze the water decomposition process, the illuminated surface of the device was modified either by addition of platinum colloids or by coating with ruthenium dioxide. These colloids have been characterized by gel electrophoresis.

This paper regards to the concerning that the pipeline operators should take in to account to better understand and control the alternate current interference (AC- interference). Pipelines sharing rights-of-way with AC high voltage power lines are subjected to AC interference that can cause risk for personnel, operational safety and environment. The AC-interference shall be evaluated, in such way that mitigating action can be applied in order to assure the pipeline is operated in a safety way. The AC-interference evaluation should take in to account the pipeline and the electrical generation/transmission design data. Three approaches are considered: the coating integrity, the personnel chock hazards and the pipeline integrity. The coating integrity is affected by the possibility of high-voltage be induced on the pipeline during power line current fault. The operation and maintenance personnel can be prone to chock hazards (touch voltage and step voltage), depending upon the level of the induced voltage on the pipeline and the ground current. An induced voltage evaluation is then necessary to identify AC potentials in pipeline higher than the safe criteria. The pipeline integrity is concerning to the possibility of occurring alternate current corrosion (AC-corrosion) on the pipe wall. This kind of corrosion is still been investigated, and although it is less critical than the direct current corrosion, it can happen in specific situation. Parameters that affect AC-corrosion are discussed in this paper. Finely it is presented a brief guide to evaluate the possibility of occurring AC- interference in a pipeline and a mitigation measures summary. (author)

Highlights of this roundtable discussion, which focused on new pipelines and pipeline expansion projects, included discussions of the many new pipelines and pipeline expansion projects proposed over the past year. Among those discussed were: (1) the Northern Border Pipeline Company`s Chicago Project which began construction in 1997. The project consists of three compressor stations, a crossing of the Mississippi River, and a pipeline segment at Harper, Iowa. Another project by the same company is the 2000 project which is a system wide expansion of their North Hayden Line; (2) the Vector Pipeline project which has been designed to cost effectively link the Chicago supply hub to markets in eastern Canada, the northeastern U.S. markets, and the Mid-Atlantic; (3) TransCanada Pipeline`s 1999 expansion plans which include new projects to the midwest and the northeastern U.S., and (4) the Independence Pipeline. This pipeline project was considered a good example and provided insights on how to build a winning project. Trends in natural gas supply and demand for eastern Canada and northeastern U.S. also received much attention. tabs., figs.

This bibliography contains citations concerning the anticorrosive behavior of protective coatings based on such materials as ceramics, metals, and polymers. Topics include high- and low-temperature corrosion, surface structure, mechanical and chemical properties, applications, and performance evaluations. Paints and powder coatings, and methods of application are also considered. Protective coatings for specific applications such as gas turbines, coal gasification, power plants, papermaking, carbon steels, reinforced concrete, pipelines, antifouling coatings, and conversion coatings are examined in separate bibliographies. (This updated bibliography contains 227 citations, all of which are new entries to the previous edition.)

The bibliography contains citations concerning the anticorrosive behavior of protective coatings based on such materials as ceramics, metals, and polymers. Topics include high and low temperature corrosion, surface structure, mechanical and chemical properties, applications, and performance evaluations. Paints and powder coatings, and methods of application are also considered. Protective coatings for specific applications such as gas turbines, coal gasification, power plants, papermaking, carbon steels, reinforced concrete, pipelines, antifouling coatings, and conversion coatings are examined in separate bibliographies. (Contains 250 citations and includes a subject term index and title list.)

Pipe coating damage provide several considerations during pipeline contruction. This is an interesting subject to be investigated specially by people involved in that area. Some projects (Brazil and abroad) were established, considering land and sea transportation. These recent statistics show reduced incidence on Polyethylene damaging. On viewpoint of costs, Coal-Tar Enamel and FBE Coatings present the lower coating repair values for highway transported pipes. For sea transportation, repais on Polyethylene and FBE Coatings were the cheapest. Finally, this paper reccomends important nercessary cares to be taken as to minimize the occurrance of coating damage. (author)

The Maritimes and Northeast Pipeline (M and NP) extends from the eastern coast of Nova Scotia to the western border of New Brunswick and will deliver gas to the St. Croix River at the border between Maine, and New Brunswick from the Sable Offshore Energy Gas Plant at Goldboro, Nova Scotia. The pipeline is 30 inches in diameter and runs for a distance of 568 kms (i.e., Canadian portion; Total length is 1,048 kms). The Point Tupper lateral, which is paralleled by a natural gas liquids pipeline connects to the main line five km west of Goldboro. Corrosion control aspects include coatings and cathodic protection, with allowance for telluric currents. Soil resistivities, groundbed materials, coating material approval testing and abrasion coating application are also addressed. The possibility of additional laterals being added in the future is incorporated into the design. 7 figs.

An Astrometry Data Processing Pipeline has been developed and deployed at th e Space Telescope Science Institute (STScI). This pipeline is responsible for producing Hubble Space Telescope (HST) Astrometry Data Sets used to analyze astrometry observations and the operation of the HST Fine Guidance Sensors (FGS). Prior to the STScI Astrometry Data Processing Pipeline becoming operational, HST Astrometry Data Sets were produced by the Astrometry and Engineering Data Processing (AEDP) System at Goddard Spaceflight Center (GSFC). This paper describes the processing performed by the STScI Astrometry Pipeline and how the pipeline was designed and developed to reuse existing software components from the STScI OPUS system. OPUS is an STScI developed automated data pipeline system providing a distributed processing environment used to control and monitor applications executing in a sequential order. OPUS is described in detail in other htmladdnormallinkfoot{papers} {http://www.dpt.stsci.edu/dpt_papers/opus_bib.html}.

An increasing number of pipelines are constructed in remote regions affected by harsh environmental conditions. These pipeline routes often cross mountain areas which are characterized by unstable grounds and where soil texture changes between winter and summer increase the probability of hazards. Due to the long distances to be monitored and the linear nature of pipelines, distributed fiber optic sensing techniques offer significant advantages and the capability to detect and localize pipeline disturbance with great precision. Furthermore pipeline owner/operators lay fiber optic cable parallel to transmission pipelines for telecommunication purposes and at minimum additional cost monitoring capabilities can be added to the communication system. The Brillouin-based Omnisens DITEST monitoring system has been used in several long distance pipeline projects. The technique is capable of measuring strain and temperature over 100's kilometers with meter spatial resolution. Dedicated fiber optic cables have been developed for continuous strain and temperature monitoring and their deployment along the pipeline has enabled permanent and continuous pipeline ground movement, intrusion and leak detection. This paper presents a description of the fiber optic Brillouin-based DITEST sensing technique, its measurement performance and limits, while addressing future perspectives for pipeline monitoring. (author)

British Gas completed nearly 144 miles of a new 283-mile high-pressure, 42-in. pipeline in just 9 months, despite adverse weather, rocky ground, and two crossings of major rivers. In constructing the first long-distance 42-in. line in the UK, pipeline engineers chose epoxy-coated pipe for the first time, found rail delivery faster and cheaper than road transport of pipe sections, applied a new land-drainage technique to maintain existing land drainage and keep work sites water-free, and discovered that field-coating the butt joints with epoxy was an easy, clean method.

At constant inflow conditions, large-amplitude pressure and flow rate fluctuations may occur in a pipeline-riser system operating at relatively low liquid and gas flow rates. This cyclic flow instability has been referred to as severe slugging. This study is an experimental, theoretical and numerical investigation of severe slugging in a relatively long pipeline-riser system. The experiments were carried out in a 65m long, 50.8mm diameter horizontal steel pipeline connected to a 35m long, 50.8mm diameter Perspex pipeline which is inclined to -2.54^o from the horizontal, followed by a 15.5m high, 45mm vertical PVC riser operating at atmospheric end pressure. The experimental facility also included a 250l gas buffer vessel, placed upstream of the pipeline, to obtain extra pipeline compressib...

Two different mechanisms are discussed to explain the cracking of transmission lines. They are known as anodic and hydrogen-induced corrosion types. The essential influencing factors are discussed with the aid of field and laboratorium investigations. Conditions under which stress corrosion occurs in practice are outlined. The investigations of specimens taken from damaged pipelines indicate that the cathodic protection was locally not effective due to an inappropriate coating system. This process leads to weight loss corrosion in form of the formation of grooves, when high and fluctuating hoop stresses are present. At the tip of the cracklike groove the stress intensity is increased and promotes stress corrosion. Protective measures are discussed for old and new projected pipelines. (orig.) [Deutsch] Fuer Schaeden bei Gashochdruckleitungen werden zwei verschiedene Mechanismen diskutiert, die unter dem Begriff `anodische Korrosion` und `wasserstoffinduzierte Korrosion` bekannt sind. Es werden die wesentlichen Einflussgroessen beschrieben und durch Feldversuche und Laboratoriumsversuche quantifiziert. Dabei wird herausgestellt, unter welchen Bedingungen in der Praxis Rissschaeden auftreten koennen oder nicht. Vergleiche mit untersuchten Proben aus Schadensfaellen machen deutlich, dass in allen Faellen oertlich unzureichender kathodischer Schutz vorlag. Verantwortlich dafuer ist das System Rohr-Beschichtung. Dieser Vorgang fuehrt zu Materialabtrag, wobei unter schwellender Zugspannung oertlicher Korrosionsangriff in Form tiefer Graeben auftritt. An der Grabensohle sind die Spannungsintensitaetswerte erhoeht, so dass hier Spannungsrisskorrosion ausgeloest werden kann. Moegliche Schutzmassnahmen werden fuer alte und fuer neu zu verlegende Leitungen eroertert. (orig.)

Natural gas pipeline deregulation occurred de facto in 1985 when pipelines were allowed to become open access transporters. Prior to open access, natural gas pipelines functioned as merchant carriers that were required to bundle together gas and its transportation. Under the new system of open access, pipelines carry gas for their customers as contract carriers. Contract carriage gave pipeline customers direct access to transportation and created a connected pipeline grid. Open access enabled pipeline customers and natural gas brokers to exchange and combine transportation rights. By exchanging and combining transmission rights on several connecting pipelines, gas buyers and sellers were able to create connected topologies over which they could trade natural gas. This research has applied multivariate cointegration analysis to data from the natural gas industry to quantify the degree of competition in the open access pipeline network. The empirical results indicate that within and between production markets there is a high degree of competition, which implies allocative efficiency across production field markets. It is clear that deregulation has linked together numerous geographically dispersed spot markets and that open transportation satisfied the conditions necessary for gas traders to exploit price differentials across the pipeline network. This has led to an efficient allocation of gas across the production markets. New policies should aim to remove the remaining restrictions on open access transportation, especially in the city-gate markets.

Long-range plans for new pipeline facilities have slowed sharply and the pipeline companies have declared a virtual moratorium on awarding contracts for 1983 construction. Many projects have been canceled, applications have been denied by various regulatory agencies or have been postponed again. New crude trunklines, continuing activity in constructing CO/sub 2/ systems and the final approval to convert a natural gas transmission line to products service combine to improve the prospects for 1984 pipeline construction.

This paper reports the development and experimental evaluation of a robotized system devised to perform two kinds of measurements inside a pipeline: the thickness of the internal wall painting layer and the internal radius. The thickness measurement allows the inspection of the painting layer quality and by measuring several radii it is possible to estimate the pipeline transversal section shape. The proposed scheme is shown to yield very satisfactory results on an actual 14'' (inches) pipeline in a real site. (author)

The authors discuss how the Frigg gas transportation system has proved to be extremely reliable and safe over 10 yr of operation. Great emphasis is placed by the operator on pipeline inspections, both internal and external. Since development of the Frigg field, pipeline systems from various other North Sea fields have tied into the Frigg transmission network to transport gas to shore.

A new concept for transporting coal, the `coal log pipeline` (CLP) system is described. In this system, coal is pressed into cylinders (coal logs) that can be automatically injected into a pipeline and conveyed by flowing water. Comparative transportation cost data and CLP basic design criteria are also presented. 3 refs., 3 figs., 3 tabs.

A 300-mm butterfly valve in an industrial oxygen pipeline ignited during system start-up, resulting in three fatalities. The valve was apparently stuck and the operators used pipe tongs to open it. Afterwards, hand wheel torque required to open identical valves when subjected to 35-bar pressure difference was measured. Three test valves opened easily but a high torque was required with the fourth one. This was due to a damaged PTFE sliding layer of the free shaft main bearing.Several possible causes of the fire were identified. Frictional heating could have occurred at a foreign body wedged between the disc and valve body or Fire Safe seal, or at damaged free shaft bearing. The heated metal parts would have ignited the PTFE seat or coating of the free shaft bearing, respectively. In additi...

In Canada, fiberglass pipelines are being used to carry corrosive substances in upstream oil gathering systems. Unfortunately, these pipelines are subject to frequent failures. The aim of this paper is to present the work competed by Husky to better understand the factors responsible for failures in fiberglass pipelines and to develop a process to address this issue. A pipeline risk assessment was undertaken with a load-resistance methodology as well as a failure analysis and finally a technical analysis to find options to mitigate risks. Through these analyses Husky found that external interferences on fiberglass pipelines constitute the highest risk of failure and they developed a process including case by case backfilling procedures and a checklist for tie-in and repairs to minimize the risk. The different analyses carried out by Husky allowed them to create a process which helps in preventing fiberglass pipeline failures.

Pipeline transmission systems have been designed traditionally using steady state simulations. Steady state simulation provided sufficient values for simple systems, but is limited in dealing with surges in flow rates, loss of facilities and facility operation. A dynamic approach is required to test the capacity of a system for various fluids. This paper investigated the use of transient analysis of liquid pipelines in order to improve the design of these pipelines and to achieve operational benefits. The transient method and its use are discussed. Dynamic analysis was applied to the Keystone Pipeline Project. The purpose of the study was first to determine the system capacity and data for transportation of Heavy DilBit, and then to implement batch transportation of a volume of synthetic crude oil. It was found that the use of transient modeling in design and operational assessment of a liquid pipeline ensures system capability, control, safety and integrity.

This paper describes the known types of external corrosion which may affect high pressure gas pipelines. The following corrosion mechanisms are considered: Corrosion due to differential aeration elements, galvanic elements and stray currents, alternating current corrosion, high and near neutral pH stress corrosion cracking and hydrogen induced cracking. A concept is used which takes into account the corrosion system consisting of materials (pipe, coating), medium (soil, groundwater, etc.) and operating conditions (temperature, mechanical stress, cathodic protection, interference, etc.). The relevant corrosion protection measures are separately addressed for each type of corrosion. The considerations may be transferred to external corrosion of steel pipelines for transport of arbitrary products. (orig.) [Deutsch] Dieser Artikel beschreibt die bekannten Arten der Aussenkorrosion an erdverlegten Gashochdruckleitungen. Es werden betrachtet: Korrosion durch Belueftungselemente, Kontaktelemente und Streustrom, Wechselstromkorrosion, `High-` und `Near-neutral-pH`-Spannungsrisskorrosion und wasserstoffinduzierte Rissbildung. Dazu wird ein Konzept verwendet, bei dem das gesamte Korrosionssystem, bestehend aus Werkstoffen (Rohr, Umhuellung), Medium (Boden, Grundwasser etc.) und Betriebsbedingungen (Temperatur, mechanische Spannungen, kathodischer Korrosionsschutz, Beeinflussung etc.), beruecksichtigt wird. Die geeigneten Korrosionsschutzmassnahmen werden jeweils angegeben. Die Betrachtungen koennen auf die Aussenkorrosion von Rohrleitungen zum Transport beliebiger Produkte uebertragen werden. (orig.)

Electrochemical noise (EN), linear polarization resistance (LPR), and harmonic distortion analysis (HDA) were used with three-electrode probes to monitor the corrosion occurring in soil in dry and wet conditions near a gas pipeline under cathodic protection. The test site was a cathodic protection (CP) test station where impressed current CP was applied to a 2 in. (5.1 cm) diameter FBE coated steel pipe using an 84 in. (0.2 m) TA-2 high-silicon cast iron anode. Electrochemical measurements were made at three locations, two inside the CP field and one outside the CP field. Electrochemical measurements were first made with the CP system off to establish the baseline corrosion and then with increasing levels of CP. The degree of protection was based on polarized potential and the adequacy of protection was determined by depolarization measurements. CP of an adjacent pipeline did not affect the measurement of either corrosion rate or pitting factor when using buried soil corrosion probes and the EN, LPR, and HDA techniques.

Tactical military petroleum pipeline systems will play a vital role in any future conflict due to an increased consumption of petroleum products by our combined Armed Forces. The tactical pipeline must be rapidly constructed and highly mobile to keep pace with the constantly changing battle zone. Currently, the design of these pipeline system is time consuming and inefficient, which may cause shortages of fuel and pipeline components at the front lines. Therefore, a need for a computer program that will both automate and optimize the pipeline design process is quite apparent. These design needs are satisfied by developing a software package using Advance Basic (IBM DOS) programming language and made to run on an IBM-compatible personal computer. The program affords the user the options of either finding the optimum pump station locations for a proposed pipeline or calculating the maximum operating pressures for an existing pipeline. By automating the design procedure, a field engineer can vary the pipeline length, diameter, roughness, viscosity, gravity, flow rate, pump station pressure, or terrain profile and see how it affects the other parameters in just a few seconds. The design process was optimized by implementing a weighting scheme based on the volume percent of each fuel in the pipeline at any given time.

...Public Meetings on Improving Pipeline Leak Detection System Effectiveness and Understanding...PHMSA must complete. Reports on leak detection and automatic/remote control valves...encourage operators to expand the use of leak detection systems (LDS) and improve system...

A mechanism for external corrosion of pipelines of heating grids is described. The results are cited of a study of the corrosion activity of heat insulation coatings used in the USSR relative to the composition, structure and conditions of operation. The criteria of danger of external corrosion and electrochemical protection are given. Shielding method using anticorrosive and water insulating coatings are presented in detail. The characteristics of electrochemical protection of heat conduits are described.

The largest construction project in North America this year and next--the Alliance Pipeline--marks some advances for the US pipeline industry. With the Alliance Pipeline system (Alliance), mechanized welding and ultrasonic testing are making their debuts in the US as primary mainline construction techniques. Particularly in Canada and Europe, mechanized welding technology has been used for both onshore and offshore pipeline construction for at least 15 years. However, it has never before been used to build a cross-country pipeline in the US, although it has been tested on short segments. This time, however, an accelerated construction schedule, among other reasons, necessitated the use of mechanized gas metal arc welding (GMAW). The $3-billion pipeline will delivery natural gas from northwestern British Columbia and northeastern Alberta in Canada to a hub near Chicago, Ill., where it will connect to the North American pipeline grid. Once the pipeline is completed and buried, crews will return the topsoil. Corn and other crops will reclaim the land. While the casual passerby probably won't know the Alliance pipeline is there, it may have a far-reaching effect on the way mainline pipelines are built in the US. For even though mechanized welding and ultrasonic testing are being used for the first time in the United States on this project, some US workers had already gained experience with the technology on projects elsewhere. And work on this pipeline has certainly developed a much larger pool of experienced workers for industry to draw from. The Alliance project could well signal the start of a new era in US pipeline construction.

The achievements in the field of using pipe, pump, fitting part designs and insulating coatings made of reinforced and unreinforced polymer materials in the oil industry are examined. The achievements in the experience of using structures in pipelines of these materials in oil extraction abroad are correlated.

This paper describes a pressure control system that responds to pressure surges in a pipeline by changing the pipeline pressure in the direction opposite the pressure surge. It comprises: a pipeline; a valve coupled to the pipeline for varying the flow of fluid through the pipeline; a suction pressure sensor coupled to the pipeline upstream of the valve for sensing the suction pressure of the fluid within the pipeline; a discharge pressure sensor coupled to the pipeline down-stream of the valve for sensing the discharge pressure of the fluid within the pipeline; a suction controller coupled to the suction pressure sensor, the suction controller comparing the suction pressure sensed by the suction pressure sensor with a first predetermined pressure setpoint to determine when the suction pressure is lower than the first pressure setpoint by more than a first predetermined amount of at least approximately five psi; and a discharge controller coupled to the discharge pressure sensor. The discharge controller compares the discharge pressure sensed by the discharge pressure sensor with a second predetermined pressure setpoint to determine when the discharge pressure exceeds the second pressure setpoint by more than a second predetermined amount of at least approximately five psi, the valve being moved to a predetermined position in response to either the suction controller determining that the suction pressure is lower than the first pressure setpoint by more than the first predetermined amount or the discharge controller determining that the discharge pressure exceeds the second pressure setpoint by more than the second predetermined amount.

We describe a project that integrates a non-photorealistic rendering pipeline into an existing CAD system. The pipeline enables the customers of the CAD company to create aesthetically appealing renderings in addition to the classical CAD output. Since these customers are operating in the high-quali...

Summary form only given. An architecture is proposed for computer vision systems. The proposed machine has a pipeline of SIMD processing arrays in conjunction with a symbol processor. The symbol processor computes global properties of pictures, manipulates symbols for drawing inferences based on picture properties and stored knowledge base, and determines operations in the SIMD pipeline.

The decision by British Petroleum to develop offshore fields west of the Shetlands in water depths exceeding 500 meters within three and a half years of discovery posed a unique submarine pipeline installation challenge. This paper summarizes the salient features of a fast track program to install a diverless subsea pipeline system using rigid reeled pipe technology in an offshore frontier area.

The damage caused by Third Party Interference (TPI) is one of the major causes of pipeline failures. Consequently, new technologies for identifying activities that may cause damage to our pipelines are constantly being developed. A recently completed project sponsored by a number of pipeline operators has investigated the use of high-resolution satellites for the integrity management of onshore transmission pipelines. The sponsors were BG Technology (on behalf of Transco), Dansk Olie NatureGas, Gasunie, BP, Gaz de France, Distrigas, and the Health and Safety Executive. The project started with a general review of the satellite technologies available and their potential. The study was then focussed on the identification of activities that might result in damage to the pipeline and the potential of high-resolution optical satellites in identifying hazardous activities. A key element of the study was a comparison with existing surveillance systems, which generally involve regular aerial patrols of the pipeline route. To achieve this a survey was carried out to try and evaluate the costs and benefits of existing systems. In addition a simple model for analysing the cost benefit of pipeline surveillance was constructed, and a functional specification for a surveillance system drafted. Finally the performance of the IKONOS 2 high-resolution satellite system was tested in a controlled experiment using targets placed along a pipeline route. The results of this test were compared with a similar test of helicopter-based surveillance carried out by one of the sponsors. (author)

OPUS is the platform on which the telemetry pipeline at the Hubble Space Telescope Science Institute is running currently. OPUS was developed both to repair the mistakes of the past, and to build a system which could meet the challenges of the future. The production pipeline inherited at the Space Telescope Science Institute was designed a decade earlier, and made assumptions about the environment which were unsustainable. While OPUS was developed in an environment that required a great deal of attention to throughput, speed, efficiency, flexibility, robustness and extensibility, it is not just a ``big science'' machine. The OPUS platform, our baseline product, is a small compact system designed to solve a specific problem in a robust way. The OPUS platform handles communication with the OPUS blackboard; individual processes within this pipeline need have no knowledge of OPUS, of the blackboard, or of the pipeline itself. The OPUS API is an intermediate pipeline product. In addition to the pipeline platform and the GUI managers, the OPUS object libraries can give your mission finer control over pipeline processing. The OPUS platform, including a sample pipeline, is now available on CD-ROM. That package, designed to be run on the Solaris operating system, can help you decide whether OPUS can be used for your own mission.

The objective of this project is to qualify candidate alternatives to Aliphatic Isocyanate Polyurethane coatings under the specifications for the standard system. This project will compare coating performance of the proposed alternatives to existing coating systems or standards.

In modern cities most pipelines such as those for oil, gas, and water supply networks are buried underground. In order to prevent these lifeline infrastructures from being broken accidentally, monitoring systems are becoming indispensable. Recent reports show that most pipeline damage is caused by third-party activities. In this paper, a novel automatic pipeline monitoring system is proposed in order to prevent accidental third-party damage. In this study, potential threat to pipeline integrity is recognized by detecting the existence of road cutters, which actually prelude ground construction. Sound recognition technologies are used to identify road cutters by sound, which can easily be captured by small sensors installed along the pipelines. A pattern classification method based on the M...

This paper reports that construction of the Zeepipe Gas Pipeline Project is well under way, and will soon provide Europe with a secure supply of clean-burning natural gas. The new pipeline system will provide another outlet for the large reserves contained in the Norwegian sector of the North Sea. Zeepipe Phase 1 consists of a 500-mile, 40-in. pipeline from the Sleipner Field to a landfall at Zeebrugge, Belgium, and a 24-mile, 30-in. pipeline connecting the Statpipe to the Zeepipe system at the Sleipner Platform. Statoil's project organization for the Zeepipe project is also responsible for design and construction of a 142-mile, 20-in. condensate pipeline from Sleiper to Karsto, Norway, crossing the abyss of the Norwegian Trench on its route.

...the best allocation of our economic resources, the lowest prices, the highest...pipeline system to transport...pool their resources and share...determination of the price the United...permits the allocation of resources...substantial resource costs on...CM/ECF system which...

...2010-10-01 2010-10-01 false Control systems. 193.2619 Section 193...to Transportation (Continued) PIPELINE AND HAZARDOUS MATERIALS SAFETY... Maintenance § 193.2619 Control systems. (a) Each control...

of The COBS Code Generator ...... far a system can deviate from the defined architecture and still be classified ...... source pipeline protects the system from data coherence problems. ...... program. The optimal serial version is a highly optimized ...

...196 and 198 Pipeline Safety: Pipeline Damage Prevention Programs; Proposed Rule Federal...2137-AE43 Pipeline Safety: Pipeline Damage Prevention Programs AGENCY: Pipeline...adequacy of state pipeline excavation damage prevention law enforcement...

A capsule pipeline transports material or cargo in capsules propelled by fluid flowing through a pipeline. The cargo may either be contained in capsules (such as wheat enclosed inside sealed cylindrical containers), or may itself be the capsules (such as coal compressed into the shape of a cylinder or sphere). As the concept of capsule transportation is relatively new, the capsule pipelines need to be designed optimally for commercial viability. An optimal design of such a pipeline would have minimum pressure drop due to the presence of the solid medium in the pipeline, which corresponds to minimum head loss and hence minimum pumping power required to drive the capsules and the transporting fluid. The total cost for the manufacturing and maintenance of such pipelines is yet another important variable that needs to be considered for the widespread commercial acceptance of capsule transporting pipelines. To address this, the optimisation technique presented here is based on the least-cost principle. Pressure drop relationships have been incorporated to calculate the pumping requirements for the system. The maintenance and manufacturing costs have been computed separately to analyse their effects on the optimisation process. A design example has been included to show the usage of the model presented. The results indicate that for a specific throughput, there exists an optimum diameter of the pipeline for which the total cost for the piping system is at its minimum.

The current situation of the oil and gas pipeline industry in China was discussed with respect to its progress, existing problems and its prospects. The annual output of crude oil in China has increased in the past 50 years from 121,000 tons to 161 million tons, ranking fifth in the world. More than 21,000 km of pipelines have been constructed since 1970. A crude oil pipeline network was constructed in East China and a natural gas distribution system was constructed in the Sichuan Province and Chongqing City area. Recent oil and gas discoveries in West China have prompted officials to build more than 3000 km of pipeline to connect the reservoirs with large cities. This posed a challenge since line pipes of X60 - X70 grade steel was needed, for which the technical requirements were much higher than previously used. Technical reforms were conducted in five spiral submerged arc welded (SSAW) pipe mills and qualified products were produced. The success of manufacturing technology of high strength and high toughness SSAW pipe for maximum operational pressure was a breakthrough for the Chinese manufacturing industry. China is planning on building several more gas pipelines within the next 10 years to use more gas instead of coal as a fuel of choice. The largest forecasted pipeline project is a cross-country link from the Tarim Basin via Lanzhou, Xi'an Zhengzhou and Nanking to Shanghai. The total length will be 4200 km with a flow rate of 12 billion m{sup 3}/a. It is expected to be completed by 2004. The following international pipeline projects are also under consideration: three Sino-Russia natural gas pipelines, one Sino-Turkmenistan gas pipeline, one Sino-Russia crude oil pipeline, and one Sino-Kazakhstan crude oil pipeline. 4 refs., 3 tabs., 1 fig.

Wax deposition on pipelines is a serious problem for the production of crude oil. In this paper, phosphoric chemical conversion coatings were exploited to solve the problem. The chemical conversion coatings were fabricated on carbon substrate by surface modification technology at different temperature. A self-designed wax deposition apparatus based on cold-finger was used to study the wax-repellent properties of coatings, which indicated that all chemical conversion coatings showed superior wax-repellent performance to bare carbon substrate and the wax deposition reduction value of 80-95% was achieved by the chemical conversion coating obtained at room temperature. The microstructure and composition of coatings were evaluated by SEM and XRD, revealing that there existed much difference in ...

Design methods are available to counter effects of pipeline movement on subsea riser systems. Their application depends on environmental conditions, platform structure/constraints, in-service conditions, pipeline approach to the platform, and economics. Factors for selecting among the methods are discussed here. A hypothetical project, a 24-in. OD pipeline, is presented as an example. In this example, the seabed is prone to scouring, necessitating seabed preparation around the platform to ensure structural integrity of the riser system. Additionally, it is assumed that the system will be operated at high pressure (150 barg) and temperature (80 C) in 50 m of water.

An energy roof had been invented. For its construction all known roof elements, like tiles, betons stones, corrugated sheets, are applicable. On the waterproof surface fastener elements are provided. Their size are optimal selected to obtain a free space for the pipeline system. By this design the roof elements could be fastened as well as the pipeline system. This energy roof is applicable for older and newer houses and for every form of roofs. For repair the roof can be easily removed. The pipeline system is not fixed on the roof construction.

The Bolivia-Brazil Natural Gas Pipeline starts at Santa Cruz de La Sierra city, in Bolivia, and goes until Canoas City (RS) in Brazil, with a total extent of 3,150 km. The pipeline crosses in the 2,593 km established in Brazilian soil, the most diverse types of geology and geomorphology. Along the line, the right-of-way (ROW) also crosses a lot of roads, railways, rivers and lakes. During a routine inspection (foot patrol), signs of instability were detected at an embankment slope of a highway of the Santa Catarina state, at the pipeline crossing. An eventual failure of this slope could put the pipeline at risk. The aim of this paper is to present the aspects of the stabilizations phases, since field investigation, design, works, instrumentation, until monitoring. Emphasis is given to the design criteria to pipeline safety. The solution adopted is composite by soil nailing, a changing of slope inclination and superficial drainage system. (author)

The paper relates to an emergency preparedness analysis carried out for all the major Norwegian gas and oil pipelines that are operated by Statoil. 17 existing and future pipelines (mainly subsea) with a total length of more than 5.000 km were analysed. The overall objectives of the emergency preparedness are to avoid harmful effects on people and the environment, to analyse the economic consequences thereof, and to secure reliable gas and oil deliveries to customers. In order to assess the risk of pipeline damage several risk analyses were reviewed. This review revealed great variations in the data that are employed in the analyses. It is also clear that the risk is greatly overestimated in some of the earlier studies. However, based on up-to-date statistics, it is concluded that there is to be expected a damage somewhere in the pipeline system within a few years. For this reason an emergency preparedness for pipeline damage is established

This paper reported on a study that examined the buckling behaviour of a pipeline section subject to combined loading. The objective was to provide a better understanding of buckling mechanisms and failure under non-linear and large deformation. The Finite Element Method was used to evaluate the bending moment and strain capacity of pipeline under typical design condition and parameters. Buckled wavelength profiles and distributions of ovality of girth welded pipelines were of particular interest. Isotropic standard X70 steel was used for all analysis. The study showed that the main factors affecting buckled wave length and amplitude were pipeline diameter, diameter to thickness ratio and applied internal pressure. Applied compressive axial load and imperfection amplitude tended to shift the buckling point, and not the wave form of deformation. Similar observations were made about ovality measured at the peak moment. Ovality remained constant over the range of diameters studied. In this study, the pipeline was set to 3.5 diameters to simulate experimental conditions, but the buckled wave lengths showed a great degree of interference between the central buckle and buckles developed at the ends of a pressurized pipe. It was concluded that further study is needed involving larger pipeline in order to design a pipeline that minimizes material costs without jeopardizing the integrity of the pipeline system. 9 refs., 3 tabs., 12 figs.

The extensive network of high-pressure natural gas transmission pipelines covering the United States provides an important infrastructure for our energy independence. Early detection of pipeline leaks and infringements by construction equipment, resulting in corrosion fractures, presents an important aspect of our national security policy. The National Energy Technology Laboratory Strategic Center for Natural Gas (SCVG) is and has been funding research on various applicable techniques. The WVU research team has focused on monitoring pipeline background acoustic signals generated and transmitted by gas flowing through the gas inside the pipeline. In case of a pipeline infringement, any mechanical impact on the pipe wall, or escape of high-pressure gas, generates acoustic signals traveling both up and down stream through the gas. Sudden changes in flow noise are detectable with a Portable Acoustic Monitoring Package (PAMP), developed under this contract. It incorporates a pressure compensating microphone and a signal- recording device. Direct access to the gas inside the line is obtained by mounting such a PAMP, with a 1/2 inch NPT connection, to a pipeline pressure port found near most shut-off valves. An FFT of the recorded signal subtracted by that of the background noise recorded one-second earlier appears to sufficiently isolate the infringement signal to allow source interpretation. Using cell phones for data downloading might allow a network of such 1000-psi rated PAMP's to acoustically monitor a pipeline system and be trained by neural network software to positively identify and locate any pipeline infringement.

The new deposition process, combustion chemical vapor deposition, shows a great deal of promise in the area of thermal barrier coating systems. This technique produces dense, adherent coatings, and does not require a reaction chamber. Coatings can therefore be applied in the open atmosphere. The process is potentially suitable for producing high quality CVD coatings for use as interlayers between the bond coat and thermal barrier coating, and/or as overlayers, on top of thermal barrier coatings.

This paper presented Superior Energy Services' CoilTAC (Coil Thrust and Carry) system used with coiled tubing for flow assurance remediation in offshore oil and gas well flowlines and pipelines. This unique system is a direct method of extending the reach of coiled tubing for the remediation of plugged subsea pipelines. It has been successfully deployed for removal of waxy blockages and has great potential for hydrate plug removal in subsea production systems. CoilTAC- which minimizes the compression force on the coiled tubing - has been proven to extend upwards of five miles. CoilTAC allows for chemicals and fluids to be pumped down the pipeline while thrusting and cleaning in forward or reverse - increasing the rate of remediation.The tool makes it possible to effectively clean out surface and subsea pipelines of significant length from either a platform, or dynamically positioned vessel. CoilTAC was designed specifically to extend the reach of coiled tubing in horizontal pipelines beyond the limits of conventional coiled tubing. It has also been designed to pass through various critical bends and manifold piping, including bends of up to five times the pipeline diameter. The CoilTAC system includes a thruster with specially designed jetting nozzles to both clean and carry the coiled tubing into and out of long pipelines. As the number of subsea completions increases, flow assurance is becoming more important to all operators as they strive to maintain flow from individual wells. 4 figs.

Pipeline integrity management is essential for today's operators to operate their pipelines safety and cost effectively. The latest developments of pipeline integrity management around the world are involved with change of regulation, industry standard and innovation of technology. And who know the trend of PIM in the future, which can be answered in the paper. As a result, the concept of P4DM was set up firstly in the world. The paper analyzed the pipeline HSE management, pipeline integrity management (PIM) and asset integrity management (AIM), the problem of management was produced, and also the Pipeline 4-dimension Management (P4DM) theory was brought forward. According to P4DM, from the hierarchy of P4DM, the management elements, fields, space and time was analyzed. The main content is P4DM integrate the space geography location and time, control and manage the pipeline system in whole process, anywhere and anytime. It includes the pipeline integrity, pipeline operation and emergency, which is integrated by IT system. It come true that the idea, solution, technology, organization, manager alternately intelligently control the process of management. What the paper talks about included the definition of pipeline 4D management, the research develop of P4DM, the theory of P4DM, the relationship between P4DM and PIM, the technology basis of P4DM, how to perform the P4DM and conclusion. The P4DM was produced, which provide the development direction of PIM in the future, and also provide the new ideas for PetroChina in the field of technology and management. (author)

Signal processing in a modern radar system has coherent and noncoherent stages. The article is mainly concerned with pulse compression and details the loop components of the system using a transversal filter with real and imaginary parts and an alternative technique utilizing fast fourier transforms with a pipeline processor. Structural details are quoted for the pipeline architecture showing the system for complex multiplication, and methods of cross-linking and accumulation. 4 references.

Panhandle Eastern Corp.'s Texas Eastern Transmission Corp. has become the first US natural-gas pipeline company to install, under federal waiver, a fiber glass reinforcement on an in-service gas pipeline. The Clock Spring repair system was installed in August on six segments of Texas Eastern's 20-in. gas pipeline in Fayette County, Ohio, after the company had received a US Department of Transportation (DOT) waiver to use the system in place of conventional DOT-mandated repair methods. The paper describes the conventional methods, as well as comparing costs of both methods.

The dynamic of gas flow in a pipeline is described by partial differential equations with the independent variables space and time. An investigation is made on the so-called 'long pipeline model' with isothermal changes of state. Space variable discretisation yields a nonlinear system of ordinary differential equations. The linearisation with the Jacobian-matrix makes it possible to compute Eigenvalues, which help to classify the gas pipelines in periodical and nonperiodical systems. Finally the time dependence of pressure and flow is calculated analytically when a given disturbance is slow.

PETRONAS Gas Berhad (PGB), Malaysia currently operates one of Southeast Asia's largest onshore pipeline systems comprising more than 2,500 km of large diameter high pressure gas and liquid transmission, supply and lateral pipelines. Recognizing the value of a risk based approach to pipeline integrity management program, in 2002 PGB implemented a customized and fully integrated Risk and Integrity Management System (RIMS) which included software modules for: data management; semi-quantitative risk assessment; risk control cost benefit analyses; defect assessment; corrosion growth modeling; and reporting. As part of this project, a benchmarking study performed jointly with the contractor, PGB's pipeline integrity programs were also compared with a broad group of international pipeline operators. This study compared the relative ranking position of PGB pre- and post implementation of RIMS. It demonstrated that implementation of RIMS places PGB in a select group of first quartile international pipeline operators, with respect to the implementation of pipeline integrity management best practice. This paper describes the functionalities of RIMS system and how it has benefited PGB, which have been realized to date from its implementation. (author)

A bend detector is described for use on a pipeline pig assembly; the pipeline pig assembly comprising a front pig element and a rear pig element pivotally connected to each other by the bend detector, the front pig element having a longitudinally disposed housing with means for driving the pipeline assembly by the flow of a fluid through a pipeline system. The rear pig element has a longitudinally disposed housing with means for axially supporting the housing in the pipeline system. The detector includes a means for determining the distance traversed by the pipeline pig assembly through the pipeline system. The bend detector comprises a universal joint having a pair of yoke members being pivotally interconnected to a central member so as to oscillate about a pair of mutually perpendicular axes lying in a plane generally perpendicular to the axis of the pipeline, each of the yoke members having a yoke and a collar. The detector also includes a means for mounting each collar to the front pig element and the rear pig element, respectively, the central member being provided with a substantially longitudinal bore for receiving a hollow sleeve, a central opening in each collar thereby forming an axially aligned passageway with the hollow sleeve. A cable is received in the passageway and has its rear end anchored to the mounting means of the rear pig element, the forward end of the cable connected to an actuator shaft for a stylus for recording a bend along the pipeline system, whereby when the pig assembly traverses a bend. The front pig element pivots with respect to the rear pig element thereby pivoting the sleeve relative to the passageway and thereby exerting a pull on the cable causing the actuator shaft to move longitudinally rearward; thereby indicating the location and degree of the bend.

Keywords: incident database, safety performance assessment, data ... assessment, which uses the methodology described herein, is to establish a baseline metrics for ... Integrated Pipeline Information System (IPIS) also ..... analysis, modeling of flammable and toxic gas cloud dispersion, inherently safer design, reactive ...

...pipeline system a manual of written procedures for conducting...operations. The manual required by paragraph...section must include procedures for the following...operation. The manual required by paragraph...section must include procedures for the...

Nov 1, 2002 ... Government-wide information systems, and the secure exchange of information within the ... enlarge and to enhance the "pipeline" or .... suffered losses from 9/11 , Admiral Ron. Silva ..... known only to God—was buried on a ...

...proposed by Dominion Transmission, Incorporated (DTI) in the above-referenced docket. DTI requests authorization to construct pipeline facilities...would increase natural gas storage capacity along DTI's system by 125,000 dekatherms per day...

Several pipeline companies are making extensive use of small format (35 and 70 mm) photography in construction and operation of their systems. Here are the advantages and uses of low level oblique color film as described in case histories.

...the other direction. (2) Remote control valve or RCV means any valve...usually operated by the supervisory control and data acquisition (SCADA) system. The linkage between the pipeline control center and the RCV may be by...

...and data acquisition (SCADA) system. The linkage between the pipeline control center and the RCV may be by fiber optics, microwave, telephone lines, or satellite. High consequence area means: (1) A commercially navigable waterway,...

(refs. 9 to 12) include helium and carbon dioxide gases, liquid lithium and sodium , and fused ..... ment are generally under control, materials with longer lives would always be. _ desirable. ..... and gas pipeline systems can be extrapo- lated to ...

design and performance, the calibration pipeline, commanding, telemetry, and flight ... 2.9.4 Temperature Control System Operation – STANDBY MODE ..... ( modified) gas-filled lamps mounted on a small, 0.8-inch diameter integrating sphere.

SAP R/3-PM is combined with a Geographic Information System (GIS) to support the monitoring of gas pipelines. [German] Kopplung des Instandhaltungssystems SAP R/3-PM mit einem Geografischen Informationssystem (GIS) zur Unterstuetzung der Betriebsfuehrung von Gasrohrnetzen. (orig.)

The in Situ rehabilitation of the thermal isolated coating of heated pipelines required a technology development for material and equipment innovation, in such way, the coating rehabilitation was conducted keeping the continuous pipeline operation at 85 deg C. The new thermal coating is applied after the following services stages: dig the trench, purge the old thermal insulation, sand blasting of the steel pipe, application of a anticorrosive coating in the metallic substratum for continuous operation at 120 deg C, application of spacers around the steel pipe, fabrication of a polyethylene (PE) casing, cut and opening of the PE casing in its own longitudinal line, setting the PE casing over the spacers, closing of the PE casing by longitudinal thermoplastic welding with the automatic machine, boring a opening in the PE casing sidelong, injection of polyurethane foam inside of the PE casing, tampon the bores by thermoplastic weld, tying-in the PE casing with the next contiguous casing with electro fusion weld. The casing-bends are made from the PE casing cut in angles, like the specific project of each bend, the casing-bends are mounted outer the steel pipeline bends follows the same sequences of stages. (author)

Societe Nationale Elf Aquitaine has acquired more than 20 years' experience with in-line inspection of pipelines, using tools from seven service companies. The first in-line inspection operation carried out by one of the companies affiliated with Elf Aquitaine occurred in 1971 and used a Linalog tool. This inspection was to evaluate the extent of external corrosion attacks at the bottom of a 24-in. OD, 69-km uncoated pipeline laid directly on the ground in a desert area. Later periodic inspections, performed in 1980 and 1987 on the main pipeline, detected important external corrosions in some salty areas. These attacks occurred beneath disbondments of the over the ditch-applied bituminous enamel coating. Inspections also detected internal corrosion produced by accumulation of water at low points as a result of intermittent reductions of flow velocity and even to some flow stoppages. This paper reports on service inspection in the use of pigs.

It is proposed that the reliability, operability, and flexibility of the Retrieval Transfer System be substantially upgraded by replacing the planned single in-farm pipeline from the AN-AY-AZ-(SY) Tank Farm Complex to the AP Farm with three parallel pipelines outside the tank farms. The proposed system provides simplified and redundant routes for the various transfer missions, and prevents the risk of transfer gridlock when the privatization effort swings into full operation.

A system for the internal inspection of pipelines for carrying oil or gas, subsea or overland, includes an apparatus carrier, pressure-driven or self-propelled, carrying non-destructive examination apparatus moved through the pipeline to inspect the safety conditions of the pipeline wall material and surfaces. During its progression the carrier gradually deposits one or more expendable, thin optical fibres inside the pipeline. The fibres connect the carrier with a control station, situated outside the pipeline at the carrier launching end of the pipeline, through electro-optical signal converters installed in the carrier and in the control station. The system permits continuous on-line communication with the carrier over very long distances for generating instant visual displays and permanent records of the step-by-step results of the inspection, for controlling the functions of the non-destructive examination apparatus, and for controlling the rate of progression of the carrier. Upon completion of the inspection the optical fibres are discarded inside the pipeline for later removal, if necessary, by a routine in-service cleaning operation.

Installation by den norske stats oljeselskap A.S. (Statoil) of a powerful pipeline-modeling system on Zeepipe has allowed this major North Sea gas pipeline to meet the growing demands and seasonal variations of the European gas market. The Troll gas-sales agreement (TGSA) in 1986 called for large volumes of Norwegian gas to begin arriving from the North Sea Sleipner East field in october 1993. It is important to Statoil to maintain regular gas delivers from its integrated transport network. In addition, high utilization of transport capacity maximizes profits. In advance of operations, Statoil realized that state-of-the-art supervisory control and data acquisition (scada) and pipeline-modeling systems (PMS) would be necessary to meet its goals and to remain the most efficient North Sea operator. The paper describes the linking of Troll and Zeebrugge, contractual issues, the supervisory system, the scada module, pipeline modeling, real-time model, look-ahead model, predictive model, and model performance.

In 1979, Elf Aquitaine Norge A/S and Det norske Veritas started a project for development of an ultrasonic inspection pig for offshore gas pipelines. The project aimed at developing ultrasonic methods for wall thickness measurements suitable for a pig type inspection unit. The methods should be able to detect external as well as internal corrosion attacks, and give information for verification of pipeline integrity and analysis of possible corrosion attacks. The methods should further be capable of measuring during operational pressure in the pipeline, and not interfere with the normal gas production. The project consists of three main phases. In the first phase the measurement principles were developed. Based on these principles, the pigging system and data handling system were outlined. The second phase aimed at solving the technical problems associated with the operation of the measurement system in a pipeline. An on-stream pig was designed and built for evaluation of the system in an operational pipeline. The pig's capabilities and the accuracies of the measurements were tested in a 40 bar test section with artificial defects. In the third project phase the complete data handling and presentation system will be built and the on-stream pig will be developed into a pig unit for complete coverage of the pipeline. At the present stage, the phases one and two have been completed, and the presentation will describe the developed measurement system as well as test results and experiences.

In recent sea trials, the Seaway Sandpiper has proven the possibility of accurately covering subsea pipelines with backfill in water depths to 1500 ft. The dynamically positioned fallpipe ship carries 19,000 tons of backfill material that passes through a 16-in. polyethylene fallpipe to the exposed pipeline. A spider unit at the end of the fallpipe, equipped with an acoustic navigation system, enables the operator to align the backfill over the pipeline. Prior to the backfill operation, a remote-controlled subsea vehicle locates the exposed line and plots the course the ship should take along the line.

Multiphase schemes for oil and gas production systems are becoming more common as the development of marginal fields necessitates a reduction in capital costs. Prediction of flow regime within these pipelines and the characteristics of the flow, especially within the slugging regime is required in order to design the pipeline and the downstream separation and processing facilities. Test rig studies have been carried out on the effect of small changes in pipeline inclination on both the flow regime and the characteristics of slug flow. Results from tests on a 2-in. rig are presented.

Bias and Dark reference files are part of the basic reduction of the CCD data taken by the Space Telescope Imaging Spectrograph (STIS) aboard the Hubble Space Telescope (HST). At STScI, the STIS team has been creating these reference files using the Bias and Dark Pipeline. This pipeline system starts with automatic retrieval of bias and dark exposures from the HST archive after they have been ingested. After data retrieval, a number of automatic scripts is executed in a manner compatible with the OPUS pipeline architecture. We encourage any group looking to streamline a stepwise calibration process to look into this software.

Safety, environmental, and financial issues, and legal concerns surrounding the abandonment of pipeline systems were addressed. Regulatory requirements of the Alberta Energy and Utility Board (AEUB) and of the National Energy Board (NEB) were explained .Work done by the Pipeline Abandonment Committee was described, along with a discussion of some of the issues being addressed by the various subcommittees in areas such as contamination, subsidence, corrosion, and abandonment costs. The Committee`s plan to release a guideline document to assist companies with pipeline abandonment problems was announced.

A SCADA system for a single 3,000-mile-long strand of oil or gas pipeline may employ several thousand field devices to measure process parameters and operate equipment. Because of the vital tasks performed by these sensors and actuators, pipeline operators need accurate and timely information about their status and integrity. This paper describes a realtime scanner that provides situational awareness about SCADA devices and control operations. The scanner, with the assistance of lightweight, distributed sensors, analyzes SCADA network traffic, verifies the operational status and integrity of field devices, and identifies anomalous activity. Experimental results obtained using real pipeline control traffic demonstrate the utility of the scanner in industrial settings.

This invention is a pig unit designed to be forced through pipelines for hydrocarbons or other fluids, especially underwater pipelines, from pipes of smaller diameter to pipes of larger diameters. The device includes an expandable element for tight fitting against the inside walls of the pipes. The expandable element comprises a medium which can be at least partially hardened. When activated, this medium expands, then hardens in expanded state. Activation may be accomplished by means of electric induction, direct heat or radiation from a device external to the pipe. The invention is useful in typical pipeline systems used in offshore gas and oil production. 1 fig.

Onshore gas transmission lines are conjointly protected against external corrosion by cathodic protection (CP) and organic coatings. If both protection systems are simultaneously faulty, the pipe may be subjected to local loss of protection criteria. Consequently, the development of a corrosion due to the ground intrinsic corrosiveness may occur. To guarantee an optimal and safe use of its 31000 km buried gas transmission network, Gaz de France regularly inspects its pipelines. When indications of metal damage are suspected, excavations are realized to carry out a finer diagnosis and, if necessary, to repair. Whenever, corrosions are encountered, although it occurs very scarcely, it is necessary to evaluate its degree of gravity: activity, mechanism, and kinetics. Among corrosion defects, it is indeed essential to differentiate those active, from those older inactive at the time of excavation, since those last ones may possibly have been annihilated, by a PC reinforcement for instance. Eventually, the identification of the corrosion mechanism and its associated rate will provide an assessment of the risks encountered by other sections of the pipeline similar to that excavated. This study investigates to what extent the degree of gravity (activity, kinetics) of a corrosion can be determined by the characterization and identification of its associated corrosion products. Moreover, it will attempt to relate it to the close environment features as well as to the operating conditions of the pipe. The preliminary results presented in this paper consist in a laboratory study of the time evolution of corrosion products formed on the surface of ordinary low carbon steel samples. The specimens have been previously subjected to various polarization conditions in various aqueous media. The selected solutions are characteristic of ground waters. The main parameters considered for the definition of the media were its initial chemical composition, pH and dissolved gas composition. The corrosion products were characterized by Raman spectroscopy, SEM and X-rays diffraction. In-situ tests with the Raman spectrometer were carried out to monitor the corrosion products evolution with time. (authors)

Epoxy coatings have been used extensively for pipeline protection in the oil and gas industries over the past decades. Thank to their outstanding adhesive properties, epoxy resins are classically used for external coating of offshore pipelines although cathodic protection is applied. They provide corrosion protection while being used as neat coating or as primer layer in a three-layer coating. Protection of internal pipelines devoted to gas transport is another application of epoxy coatings. Whatever the case, the choice of the right epoxy formulation should be adapted to the service conditions, namely exposition medium and temperature, in order to provide efficient and sustainable corrosion protection. Epoxy resins constitute a wide family and classical formulations may not fulfill the requirements of today's challenges: as pipelines are require d to operate in more and more difficult conditions, coatings are expected to function in higher temperature conditions; additionally, practical conditions such as temporary injection of methanol make the environmental exposure of the epoxy coating harsher. Therefore, there is a need of a better knowledge of technical performance and limitations of high temperature epoxy resins. This paper examined the influence of the epoxy network architecture on their protection properties and durability while exposed to distilled / sea water at 110 deg. C and to methanol at room temperature. The objective was to investigate the link between resin chemistry and final performance with respect to anticorrosion applications. Five epoxy resin formulations mixed in stoichiometric proportions were cured and post-cured to infinite extent in order to achieve densely cross-linked networks exhibiting controlled and reproducible architectures. Gravimetric and pressurised differential scanning calorimetry (DSC) measurements were performed to evaluate the plasticization effect of both water and methanol on formulations under study. The related depressions of glass transition temperature were somewhat surprising while evaluated by in situ technique in comparison to classical dynamic mechanical analysis data. Besides, the coating performance under severe exposure conditions during 3000 hours were investigated by EIS. Laboratory results were presented and analysed: the benefits and limitations of the use of plasticized Tg values (not initial Tg) as key parameters for the prediction of coating performance were discussed. (authors)

The invention deals with a pipeline pig comprising a body provided with means for positioning the pig in a pipeline. The body will permit the fluid transported in the pipeline to flow through the pig without creating a substantial pressure drop. The pig is provided with a turbine driven by fluid flow therethrough, the turbine in turn driving wheels biased against the pipeline wall. The power transmission may be accomplished by a pump driven by the turbine, the pump output in turn driving hydraulic motors connected to the wheels. An hydraulic cylinder connected to the pump may be used for biasing the wheels against the pipeline. The drive system is preferably reversible, so that the pig may move both with and against the fluid flow in the pipeline. The pig may carry instrumentation for checking the condition of the pipeline, and power to this instrumentation may be provided by a generator driven by the turbine. Both the instrumentation and the reversing mechanism may be controlled by acoustical signals or an electronic computer included in the pig. 1 fig.

Enbridge operates the world's longest crude oil and products pipeline system. This presentation discussed the integration of carbon dioxide (CO{sub 2}) transportation and sequestration infrastructure in Canada. While CO{sub 2} sequestration is often seen as a solution to greenhouse (GHG) emissions, sequestration sites and the enhanced oil recovery (EOR) sites are not always close to major industrial CO{sub 2} sources. Potential pipeline corridors have been identified in British Columbia, Alberta, Saskatchewan, Ontario, Quebec, and the Maritime provinces. CO{sub 2} requirements for EOR are expected to decline over the next decade. In addition, the CO{sub 2} must be approximately 90 per cent pure for liquid transport in pipelines, and must be compressed before entering the pipeline. The initial pipeline corridor will be operational within a 3-year time-scale. Carbon sequestration will be necessary if Canada wishes to meet its commitment to the Kyoto Protocol. CO{sub 2} sequestration pilot projects include the Alberta saline aquifer pilot and Project Aquistore-Saskatchewan. It is expected that the cost of capturing, compressing, transporting, and sequestering the CO{sub 2} will range from $60 to $85 per tonne. Captured CO{sub 2} can be used in refrigerants and carbonated drinks as well as in pipeline slurries for transporting coke to steam assisted gravity drainage (SAGD) operations. It was concluded that the slurry pipeline may be used to provide hydrogen for refineries and upgraders from coke gasifiers. tabs., figs.

The primary corrosion mitigation of the external surface of high pressure steel gas pipelines is protective coatings with secondary protection usually by cathodic protection. Adhesion and resistance to cathodic disbondment of the coating is critical for its integrity and grit blasting is an important process in achieving this adhesion. The effect of surface roughness, from grit blasting, on the intergranular stress corrosion cracking resistance of X70 gas pipelines was investigated using slow strain rate testing in carbonate/bicarbonate solution at 75degreeC. The effect of orientation of test pieces with respect to the axial direction of pipes was also investigated.Time to failure ratios decreased with increasing surface roughness indicating reduced stress corrosion cracking resistance. Th...

The turbine blades in gas turbine engines need to be protected against high temperature oxidation and corrosion with a coating system. This coating system comprises of a Ni-based superalloy substrate, a NiCoCrAlY bond coating (BC) and an insulating ceramic thermal barrier coating (TBC). Good protect...

A large number of pipelines in the petroleum industry simultaneously transport gas and liquid. Transient behaviour of multiphase flow is frequently encountered in these pipelines. A common example is severe slugging that can occur in multiphase flow systems where a pipeline segment with a downward or even horizontal inclination is followed by a riser segment with an upward inclination. Transient flow conditions associated with severe slugging are relatively slow. Therefore, a transient drift flux model consisting of one momentum balance equation might suffice to express the dynamics of severe slugging. We present a transient drift flux model to simulate severe slugging phenomenon in pipeline-riser systems. The present model contains recently published correlations by Shi et al. for the dri...

Highly selective absorber coatings are necessary for the effective operation of state-of-the-art solar thermal collectors. The thin film gradient optical coating with its spectrally selective characteristics achieves high solar absorptance combined with low thermal emittance. Such complex multi-layer systems are produced in modular vacuum coating processes. Industrial air-to-air coating lines allow the continuous coating of metal bands in a pass-through process and provide absorber coatings which meet highest demands for efficiency, durability and esthetics. (orig.)

Safety inspection measures to ensure the integrity of Canadian oil and natural gas pipelines are described. There are some 550,000 kms of pipelines lying just beneath Canada`s surface soil. Parts of the system, which includes long-distance transmission lines and smaller production and distribution lines, were laid more than 75 years ago. The lines transport 67 different products including natural gas, crude oils, synthetics, condensates, refined products and their blends. Safety patrols of the established grid are the responsibility of the pipeline companies who are required by the National Energy Board to periodically patrol their pipelines for indications of leaks, construction activity near pipelines performed by others, and other conditions affecting the operation of the pipelines. Aircraft patrols equipped with detection gear and trained human eyes which are still considered irreplaceable, fly daily missions in a variety of aircraft, many of which can land near remote well sites to check equipment. Helicopters fly `twice tree-top height`. Video monitors attached to the outside frame of the aircraft contain infrared cameras which detect hot and cold signatures from the ground. These are observed on a video screen by a trained thermographer inside the aircraft, while the pilot scans the terrain looking for tell-tale changes in the palette of colors. Any change in color or appearance of the ground below that is even remotely suspicious is immediately reported by radio to the pipeline company for immediate action. Safety patrols are usually flown by specialist companies working on contract to the pipeline companies. A day in the life of one these aircraft and its crew are described to illustrate the painstaking and sometimes dangerous task of ensuring that any ruptures and leaks are detected and remedial action is taken as quickly as possible. Government statistics report more than 700 pipeline ruptures annually. 6 photos.

The invention deals with the design of an absorber with large surface for collecting solar energy or feed energy from the ambient air. The thermal energy will be transferred to the user by a heat transfer fluid. For this reason the pipeline and sheet tapes are cross mounted to form a netting system. By this installation principle a large surface of the collector with high mechanical stability could be realized. An effective heat transfer between sheet tapes and pipelines could be achieved.

The Black Mesa Pipeline is a 273 mile (439 km) long, 18-inch (457 mm) coal/water slurry pipeline, originating on the Black Mesa in the Northeastern part of Arizona, USA. The system delivers coal from the Peabody Coal Company`s Black Mesa open pit mine to the Mohave Generating Station which is a 1580 mw steam powered electric generating plant located in Laughlin, Nevada.

The NorFra pipeline, connecting Norwegian gas fields in the North Sea to the north of France, approaches the land under quite severe oceanographical conditions. Thanks to his TELEMAC software system, here applied to the simulation of waves, currents, sediment transport and seabed changes, the Laboratoire National d`Hydraulique (LNH) turned out to give a conclusive help for the design and installation of the pipeline in the landfall area. (authors)

Having the right people and products is a necessity if a company is to sell or service oilfield equipment successfully in the global marketplace. Garneau Inc. is a manufacturer of pipe coatings and pipeline equipment and has enjoyed a number of exporting successes in recent years. They have sold pipeline construction equipment to Iran and Turkey and have built a manufacturing plant in China. Having people with international experience and existing connections in export markets are major parts in Garneau`s overseas success. Garneau has over 30 years experience in external and internal pipe coating and in manufacturing pipeline construction equipment. It markets portable coating facilities, bending machines, and welding and cutting equipment. They can customize the equipment design they sell to their clients to suit their particular needs. Flexibility is another key to Garneau`s success in selling overseas: while most of the competition rents equipment to clients, Garneau is in a position to sell, lease or rent because of its manufacturing capabilities.

An infrastructure of new and existing pipelines and systems will be required to carry and to deliver hydrogen as an alternative energy source under the hydrogen economy. Carbon and low alloy steels of moderate strength are currently used in hydrogen delivery systems as well as in the existing natural gas systems. It is critical to understand the material response of these standard pipeline materials when they are subjected to pressurized hydrogen environments. The methods and results from a testing program to quantify hydrogen effects on mechanical properties of carbon steel pipeline and pipeline weld materials are provided. Tensile properties of one type of steel (A106 Grade B) in base metal, welded and heat affected zone conditions were tested at room temperature in air and high pressure (10.34 MPa or 1500 psig) hydrogen. A general reduction in the materials ability to plastically deform was noted in this material when specimens were tested in hydrogen. Furthermore, the primary mode of fracture was changed from ductile rupture in air to cleavage with secondary tearing in hydrogen. The mechanical test results will be applied in future analyses to evaluate service life of the pipelines. The results are also envisioned to be part of the bases for construction codes and structural integrity demonstrations for hydrogen service pipeline and vessels.

The natural gas pipeline transport is carried out by one or more compression stations. Each station possesses one or more compressors. The compressor's fuel is usually natural gas itself. The amount of natural gas consumed by the compressors fluctuates daily according to the demand at the city-gates. The daily operational result of a pipeline is known as imbalance. The imbalance is the difference between the natural gas entering into a in a pipeline and the volume delivered in the city-gates added to system use gas. The imbalance analyses in a pipeline that uses natural gas powered compressors requires the analyses of the system use gas. The aim of this work is to study the system use gas in the Bolivia-Brazil pipeline using the available data from the Superintendencia de Comercializacao e Movimentacao de Petroleo, seus Derivados e Gas Natural - ANP and compare the change of the volume consumed before and after the entry into operation of the Campinas-Rio gas pipeline. (author)

The supporting system necessary for the oil/gas field exploration in the polar region includes the transportation of material/equipment between the support base and production site, maintenance/repair of exploration/production equipment, salvage and other systems. For the transportation, ice breakers, supply boats, trucks, helicopters and aircrafts are used. To heighten the ice breaker in ice breaking capacity, there is progress in bow shape, paint coating and power source, of which the main feature is the adoption of spoon shaped bow and diesel or turbine engine. For the transportation of personnel and material/equipment, the aircraft, and long flight range and high transport capacity helicopter being used, the hovercraft and vertical take-off and landing aircraft will be further introduced in no distant future. Besides, Archimedian screw type amphibian vehicle is in expectation for the various work use, and manned or unmanned submarine boat for the submarine work/maintenance use, diving unit for the submarine maintenance/inspection use and submarine burying unit for the pipeline burying use are developed. 23 figures, 18 tables.

Infrared astronomical instruments require absorptive coatings on internal surfaces to trap scattered and stray photons. This is typically accomplished with any one of a number of black paints. Although inexpensive and simple to apply, paint has several disadvantages. Painted surfaces can be fragile, prone to shedding particles, and difficult to clean. Most importantly, the vacuum performance is poor. Recently a plasma enhanced chemical vapor deposition (PECVD) process was developed to apply thick (30 {micro}m) diamond-like carbon (DLC) based protective coatings to the interior of oil pipelines. These DLC coatings show much promise as an infrared black for an ultra high vacuum environment. The coatings are very robust with excellent cryogenic adhesion. Their total infrared reflectivity of < 10% at normal incidence approaches that of black paints. We measured outgas rates of <10{sup -12} Torr liter/sec cm{sup 2}, comparable to bare stainless steel.

The paper deals with the nonlinear buckling analysis of pipelines supported by frozen soil and subjected to differential soil movements. The adopted structural model affords a parametric examination of various loading factors generated by the overburden soil pressure, restrained thermal expansion of heat pipelines and possible load imperfections. The influence of time and temperature effects included by the mechanical properties of supporting soil is examined. Based on the obtained analytical solution, the critical condition for the pipelines is formulated, and the post-buckling response of the pipeline-soil system is examined in detail. The results of the nonlinear analysis are compared with those derived from the linear approach yielding an assessment of the small deformation theory.

Subsea pipelines provide a vital transportation service to transport natural oil or gas from offshore wells to an onshore location. Free-spanning damage is one of very common problems both in the design phase and during operation of pipelines. The objective of this paper is to identify free span locations and severities using a vibration-based method. Most vibration-based damage detection methods require the modal properties obtained from measured signals through the system identification techniques. However, for a long subsea pipeline without clear boundary, it may not be able to obtain its modal properties reliably. In this study, a signal-based damage detection method using wavelet packet energy is applied to assess pipeline bedding conditions. A damage index called average wavelet pack...

Through the New Jersey towns of Linden, Elizabeth, and Newark, Public Service Electric and Gas Co.`s 11-mile, 30-inch, Crown Central gas pipeline transports uninterruptible natural gas for two peak-shaving electric power-generating facilities, industrial manufacturing plants, commercial and residential customers. Since its completion in 1974, the safety of people, property, and equipment that border the pipeline right-of-way has been one of PSE and G`s major concerns. Over the years, major public transportation systems, industrial, and commercial businesses have expanded throughout the Newark Bay area and along PSE and G`s pipeline right-of-way, safety and reliability were the persuading factors that convinced PSE and G to investigate the use of intelligent pigs to evaluate the condition of the pipeline.

The National Energy Technology Laboratory of the US Department of Energy (under Award DE-FC26-02NT41645) and the NYSEARCH Committee of the Northeast Gas Association (previous the New York Gas Group), have sponsored research to develop a robotic pipeline inspection system capable of navigation through the typical physical and operational obstacles that make transmission and distribution pipelines unpiggable. The research contractors, Foster-Miller and GE Oil & Gas (PII North America) have performed an engineering study and developed a conceptual design that meets all the requirements for navigating and inspecting unpiggable transmission pipelines. Based on Foster-Miller's previous efforts developing the Pipe Mouse robot, the RoboScan inspection robot (Figure ES-1) meets the navigational and physical challenges of unpiggable pipelines through an innovative modular platform design, segmented MFL inspection modules and improvements to the inter-module coupling design.

The OPUS pipeline, which employs a blackboard architecture, has been processing Hubble Space Telescope (HST) data for nearly a year. OPUS was designed for both reusability and extensibility, as well as portability to different platforms and projects. OPUS contains a toolkit of resource files and programs which provide the users with the ability to customize their own pipeline. ASCII resource files can be used to define the configuration of the system, and to add processes to the pipeline dynamically. The OPUS callable routines provide applications with even more flexible methods for interfacing with the OPUS blackboard. This paper will discuss how the OPUS toolkit---both the resource files and the software libraries---is used to configure an OPUS data processing pipeline.