Use of plasma fuel systems at thermal power plants in Russia, Kazakhstan, China, and Turkey
Ustimenko, A.; Messerle, V.; Karpenko, Yu.
German National Library of Science and Technology (GetInfo) (German)
Use of Coal Drying to Reduce Water Consumed in Pulverized Coal Power Plants. Quarterly Report for the Period April 1, 2005 to June 30, 2005
Levy, E.; Lehigh Univ., Bethlehem, PA. Energy Research Center.
Use of Coal Drying to Reduce Water Consumed in Pulverized Coal Power Plants. (Quarterly Report, July 1, 2005-September 30, 2005)
Levy, E.; Lehigh Univ., Bethlehem, PA. Energy Research Center.
Toxic Emissions from the Combustion of Pulverized Coal
Levendis, Y. A.; Atal, A.; Courtemanche, B.
The comparison study on the operating condition of gasification power plant with various feedstocks
Jung, Su-Yong; Kim, Hyung-Taek; Shim, Hyun-Min
The Evolution of Char Surface Area along Pulverized Coal Combustion
Alvarez, D.; Borrego, A. G.
The Effect of Cofiring Pulverized Coal and Coal-Water Slurry Fuel Formulated from Waste Coal Fines on NO~x Emissions
Falcon Miller, S.; Morrison, J. L.; Scaroni, A. W.
The Application Study of Rich/Lean Stability Combustion Technology of Pulverized Coal
Zhou, J.; Yao, Q.; Cao, X.
The Analysis of Pulverized-Coal Flames in the System of Oxygen/Recycled Flue Gas Combustion
Watanabe, S.; Endo, Y.; Kiga, T.
Swelling and Char Structures from Density Fractions of Pulverized Coal
Yu, J.; Lucas, J.; Strezov, V.
Submicrometer Particle Formation and Control in a Bench-Scale Pulverized Coal Combustor
Zhuang, Y.; Biswas, P.
Study on the Effect of the Operating Condition on a Pulverized Coal-Fired Furnace Using Computational Fluid Dynamics Commercial Code
Kumar, M.; Sahu, S.G.
Study of the Flowability of Pulverized Coals
Lu, H.; Guo, X.; Gong, X.
Studies of the combustion rate and structure of pulverized fuels burned in the C.5 trials (1969) of the International Flame Research Foundation ; Pt. 1: Measurement and analysis of the combustion rate of anthracite
Smith, I. W.; International Flame Research Foundation
Stochastic Simulation of Pulverized Coal (PC) Processes
Salazar, J.M.; Diwekar, U.M.; Zitney, S.E.
Staged-Air Ratio Optimization within a Cold Small-Scale Model for a MBEL Down-Fired Pulverized-Coal 300 MW (electrical) Utility Boiler
Li, Z.; Kuang, M.; Zhu, Q.
Special Feature: Advanced Sensors and Instrumentation Systems for Combustion Processes
Simultaneous Combustion of Waste Plastics with Coal for Pulverized Coal Injection Application
Gupta, S.; Sahajwalla, V.; Wood, J.
Relationship between Textural Properties, Fly Ash Carbons, and Hg Capture in Fly Ashes Derived from the Combustion of Anthracitic Pulverized Feed Blends
Suarez-Ruiz, I.; Parra, J. B.
Reactivity of oil shale ashes in the binding of SO 2
Toom, M.; Kaljuvee, T.; Kuusik, R.
Prospects for using the technology of circulating fluidized bed for technically refitting Russian thermal power stations
Ryabov, G.; Folomeev, O.; Litun, D.
Primary Release of Alkali and Alkaline Earth Metallic Species during the Pyrolysis of Pulverized Biomass
Okuno, T.; Sonoyama, N.; Hayashi, J.-i.
Pressurized Pulverized Coal Cumbustion (PPCC) Combined Cycle Power Plants
Hourfar, D.; Teloken, R.; Griestop, T.
Preparation and Utilization of Pulverized Coal and Clean Coal Slurries in Combined Cycle Power Plants
Goldman, Y.; Timnat, Y. M.; Coal and Slurry Technology Association
On-line particle sizing of pulverized and granular fuels using digital imaging techniques
R M Carter; Y Yan
Numerical Simulation of Ash Vaporization during Pulverized Coal Combustion in the Laboratory-Scale Single-Burner Furnace
Sui, J.; Xu, M.; Qiu, J.
Numerical Prediction of Pulverized Coal Flame in Utility Boiler Furnaces
Belosevic, S.; Sijercic, M.; Crnomarkovic, N.
NO~x Formation in and Emissions from Radially Stratified Pulverized Coal Flames
Barta, L. E.; Lewis, P.; Beer, J. M.
NO~x Emission of Fine- and Superfine- Pulverized Coal Combustion in O~2/CO~2 Atmosphere
Jiang, X.; Huang, X.; Liu, J.
NO Emission Characteristics of Low-Rank Pulverized Bituminous Coal in the Primary Combustion Zone of a Drop-Tube Furnace
Fei, J.; Sun, R.; Yu, L.
Morphological Characterization of Superfine Pulverized Coal Particles. I. Fractal Characteristics and Economic Fineness
Liu, J.; Jiang, X.; Huang, X.
Morphological Characterization of Super Fine Pulverized Coal Particle. Part 4. Nitrogen adsorption and Small Angle X-ray Scattering Study
Modeling of Pulverized Coal Combustion in Cement Rotary Kiln
Wang, S.; Lu, J.; Li, W.
Mathematical Modeling of Swirling Pulverized Coal Flames: Whant Can Combustion Engineers Expect From Modeling?
Weber, R.; Peters, A. A. F.; Breithaupt, P. P.
Mathematical Modeling of Pulverized Coal Combustion in Axisymmetric Geometries
Fiveland, W. A.; Jessee, J. P.; ASME; Fuels and Combustion Technologies Division
Major Improvements in Pulverized Coal Plant Design
Regan, J. W.; Borio, R. W.; Palkes, M.
Low NOx Pulverized Fuel Burners: Summary of Plant Experience
King, J. L.; ASME; Environmental Control Division; ASME; Fuels and Combustion Technologies Division
Investigation on the Release Characteristics of Light Hydrocarbon during Pulverized Coal Pyrolysis
Fan, J.; Zhang, Z.; Jin, J.
Investigation of the Relationship between Particulate-Bound Mercury and Properties of Fly Ash in a Full-Scale 100 MWe Pulverized Coal Combustion Boiler
Li, S.; Cheng, C.-M.; Chen, B.
Investigation of the Diffuse Interfacial Layer of Superfine Pulverized Coal and Char Particles
Liu, J.; Jiang, X.; Huang, X.
Interparticle Desorption and Re-adsorption of Alkali and Alkaline Earth Metallic Species within a Bed of Pyrolyzing Char from Pulverized Woody Biomass
Sonoyama, N.; Okuno, T.; Masek, O.
Influence of the Staged-Air Declination Angle on Flow-Field Deflection in a Down-Fired Pulverized-Coal 300 MW~c Utility Boiler with Direct-Flow Split Burners
Kuang, M.; Li, Z.; Han, Y.
Influence of the Outer Secondary Air Vane Angle on the Flow Field of a Down-Fired Pulverized-Coal 300 MWe Utility Boiler with Swirl Burners
Li, Z.; Fan, S.; Su, W.
Improving the Performance of a 300 MW Down-Fired Pulverized-Coal Utility Boiler by Inclining Downward the F-Layer Secondary Air
Fang, Q.; Wang, H.; Zhou, H.
Impact of Petrographic Properties on the Burning Behavior of Pulverized Coal Using a Drop Tube Furnace
Biswas, S.; Choudhury, N.; Ghosal, S.
Ignition Characteristics of Pulverized Coal under High Oxygen Concentrations
Fan, Y.-s.; Zou, Z.; Cao, Z.
Ignition Behavior of Pulverized Coals: Experiments and Modeling
Chen, J. C.; Richardson, M. D.; Zheng, J.
IJPGC2000-15024 Evaluation of NOx Formation in Pulverized Coal Firing by Use of Nitrogen Isotope Ratios
Kiga, T.; Watanabe, S.; Yoshikawa, K.
Hg and Se Capture and Fly Ash Carbons from Combustion of Complex Pulverized Feed Blends Mainly of Anthracitic Coal Rank in Spanish Power Plants
Suarez-Ruiz, I.; Hower, J. C.; Thomas, G. A.
Formation processes and main properties of hollow aluminosilicate microspheres in fly ash from thermal power stations
Potemkin, G.; Drozhzhin, V.; Shpirt, M.
Formation of NO~x Precursors During Chinese Pulverized Coal Pyrolysis in an Arc Plasma Jet
Bao, W.-r.; Zhang, J.-c.; Li, F.
Flow Modifying Screens Applied to Pulverized Coal-Fired Utility Boilers
Oshinowo, L.; Kuhn, D. C. S.; Charles, M. E.
Fine Ash Formation during Pulverized Coal Combustion-A Comparison of O~2/CO~2 Combustion versus Air Combustion
Sheng, C.; Lu, Y.; Gao, X.
Fine Ash Formation during Pulverized Coal Combustion
Teramae, T.; Takarada, T.
Factors Influencing Ultrafine Particulate Matter (PM~0~.~1) Formation under Pulverized Coal Combustion and Oxyfiring Conditions
Carbone, F.; Beretta, F.; D Anna, A.
Factor of Explosiveness of Pulverized Fuel as a Basis for Classification of Natural Solid Fuels with Respect to Their Storageability in Open Coal Depots
Lavrent'ev, A. Yu.; Tolchinskii, E. N.
Experimental Studies on the Effect of the Pulverized Coal Concentration on Lean-Coal Combustion in a Lateral-Ignition Tiny-Oil Burner
Li, Z.; Liu, C.; Zhu, Q.
Experimental Research on No-Oil Ingition Technique of Pulverized Coal/Coal-Water-Slurry
Zhou, Z.; Fan, H.; Tu, J.
Experimental Research and Numerical Simulation on NO~x Release Characteristics along the Boiler during Pulverized Coal Combustion
Jin, J.; Fan, J.; Sha, Y.
Experimental Investigation on Pulverized Coal Reburning Crucially Related with Its Ignition Mode
Qi, Y.-F.; Zhang, M.-C.; Xiao, J.-Y.
Evaluation of a Mg-Based Additive for Particulate Matter (PM)~2~.~5 Reduction during Pulverized Coal Combustion
Ninomiya, Y.; Wang, Q.; Xu, S.
Evaluation of NOx Formation in Pulverized Coal Firing by Use of Nitrogen Isotope Ratios
Effects of Sampling Conditions on the Size Distribution of Fine Particulate Matter Emitted from a Pilot-Scale Pulverized-Coal Combustor
Lipsky, E.; Stanier, C. O.; Pandis, S. N.
Effect of the Occurrence and Composition of Silicate and Aluminosilicate Compounds on Ash Formation in Pilot-Scale Combustion of Pulverized Coal and Coal-Water Slurry Fuels
Falcone Miller, S.; Schobert, H. H.
Effect of the Occurrence and Composition of Iron Compounds on Ash Formation, Composition, and Size in Pilot-Scale Combustion of Pulverized Coal and Coal-Water Slurry Fuels
Miller, S. F.; Schobert, H. H.
Effect of Secondary Fuels and Combustor Temperature on Mercury Speciation in Pulverized Fuel Co-combustion: Part 1
Sable, S. P.; de Jong, W.; Meij, R.
Effect of Pressure on Char Formation during Pyrolysis of Pulverized Coal
Yu, J.; Harris, D.; Lucas, J.
Effect of Mineral Matter Particle Size on Ash Particle Size Distribution during Pilot-Scale Combustion of Pulverized Coal and Coal-Water Slurry Fuels
Effect of Fuel Particle and Droplet Size Distribution on Particle Size Distribution of Char and Ash during Pilot-Scale Combustion of Pulverized Coal and Coal-Water Slurry Fuels
Effect of Co-firing Straw with Two Coals on the Ash Deposition Behavior in a Down-Fired Pulverized Coal Combustor
Xu, X.G.; Li, S.-Q.; Li, G.-D.
Effect of Boiler Control Settings on Bottom Ash in a Pulverized Coal Boiler
Romero, C. E.; Levy, E. K.; Blankenship, D.
Effect of Air-Staging on Mercury Speciation in Pulverized Fuel Co-combustion: Part 2
Dry and Semi-Dry Methods for Removal of Ammonia from Pulverized Fuel Combustion Fly Ash
Gao, Y.; Chen, X.; Fujisaki, G.
Drastic SO~x Removal and Influences of Various Factors in O~2/CO~2 Pulverized Coal Combustion System
Liu, H.; Katagiri, S.; Okazaki, K.
Development of Blast-Furnace Gas Firing Burner for Cofiring Boilers with Pulverized Coal
Kiga, T.; Ito, T.; Nakamura, M.
Determination of the Mineral Distribution in Pulverized Coal Using Densitometry and Laser Particle Sizing
Zhang, H.; Mo, Y.-x.; Sun, M.
Conversion of Sulfur during Pulverized Oxy-coal Combustion
Fleig, D.; Andersson, K.; Johnsson, F.
Computational Modeling of CO/CO~2 Ratio Inside Single Char Particles during Pulverized Coal Combustion
Krishnamoorthy, G.; Veranth, J. M.
Complex technical and economic studies of combined-cycle units with flow gasifiers
Shchinnikov, P.; Nozdrenko, G.; Kuz’min, A.
Comparison of Fluidized Bed Boiler and Pulverized Coal Boilers Based on Environmentally Related Factors
Pope, F.; Ghayal, D. B.; Coal & Slurry Technical Association
Comparison of Chars Obtained under Oxy-Fuel and Conventional Pulverized Coal Combustion Atmospheres
Borrego, A.G.; Alvarez, D.
Combustion Characteristics of Fine- and Micro-pulverized Coal in the Mixture of O~2/CO~2
Huang, X.; Jiang, X.; Han, X.
Combustion Behaviour of Coal-Waste Flames in Pulverized Fuel Firing Systems
Gerhardt, T.; Cenni, R.; Spliethoff, H.
Combined Homo- and Heterogeneous Model for Mercury Speciation in Pulverized Fuel Combustion Flue Gases
Sable, S.P.; de Jong, W.; Spliethoff, H.
Cocombustion of Pulverized Coal with Waste Plastic and Tire Rubber Powders
Singh, S.; Nimmo, W.; Javed, M.T.
Coal Blending with Petroleum Coke in a Pulverized-Fuel Power Plant
Milenkova, K. S.; Borrego, A. G.; Alvarez, D.
Co-Firing Coal: Feedlot and Litter Biomass Fuels. Quarterly Progress Report No. 10. Feedlot and Litter Biomass Co-Firing in Pulverized Fuel and Fixed Bed Burners
Annamalai, K.; Sweeten, J.; Mukhtar, S.
Chemical Kinetic Simulation on Nitric Oxide Reduction During Natural Gas Reburning in Pulverized Coal Fired Boilers
Hura, H. S.; Breen, B. P.; ASME; Fuels and Combustion Technologies Division
Catalytic Effects of Main Metals in Coal Ash on Advanced Reburning of Pulverized Coal
Qiu, P.; Huang, H.; Zhang, J.
Behavior of Inorganic Materials During Pulverized Coal Combustion
Teramae, T.; Yamashita, T.; Ando, T.
Ash Deposition in a Pulverized Coal-Fired Power Plant after High-Calcium Lignite Combustion
Fernandez-Turiel, J.-L.; Georgakopoulos, A.; Gimeno, D.
Application of Optical Diagnostics Techniques to a Laboratory-Scale Turbulent Pulverized Coal Flame
Hwang, S. m.; Kurose, R.; Akamatsu, F.
Alkali Removal at about 1400 ^oC for the Pressurized Pulverized Coal Combustion Combined Cycle. 2. Sorbents and Sorption Mechanisms
Escobar, I.; Muller, M.
Alkali Removal at About 1400 ^oC for the Pressurized Pulverized Coal Combustion Combined Cycle. 1. Thermodynamics and Concept
Willenborg, W.; Muller, M.; Hilpert, K.
Advanced Pulverized Coal Plant Technology for More Efficient Coal-Fired Power Generation
Torrens, I. M.; Stenzel, W. C.; ASME; Power Division
Abrasion-Resistant Parts for Cat Crackers. Experience in Manufacture and Operation
Vlasov, V. V.; Zhidkov, A. B.; Denisov, D. E.
A diffusion-kinetic model for pulverized-coal combustion and heat-and-mass transfer in a gas stream
Boiko, E.; Pachkovskii, S.
A Simple Method for Predicting the Rate Constant of Pulverized-Coal Pyrolysis at Higher Heating Rate
Yu, J.; Zhang, M.
A Numerical Analysis of Pulverized Coal Combustion in a Multiburner Furnace
Hashimoto, N.; Kurose, R.; Tsuji, H.
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