| PDF | EFFECTS OF PREOXIDATION ON PYROLYSIS BEHAVIOR AND RESULTANT CHAR STRUCTURE OF CAKING COALS |
| | | Not available |
| PDF | INFLUENCE OF PARTICLE STRUCTURE CHANGES ON THE RATE OF COAL CHAR REACTION WITH CO2. |
| | | K.A. Debelak, m.a. Clark, J.T. Malito |
| PDF | AN ENTRAINED FLOW REACTOR WITH IN SITU FTIR ANALYSIS. |
| | | Peter R. Solomon, David G. Hamblen |
| PDF | COAL PYROLYSIS AT HIGH TEMPERATURES AND PRESSURES. |
| | | S.S. Tamhankar, J.T. Sears, C.Y. Wen |
| PDF | SIMULATION OF ENTRAINED FLOW HYDROPYROLYSIS REACTIONS. |
| | | A. Goyal, D. Gidaspow |
| PDF | THE EFFECT OF POTASSIUM CARBONATE ON THE GASIFICATION OF ILLINOIS NO. 6 COAL. |
| | | A.H. Pulsifer, J.F. McGehee |
| PDF | CATALYTIC EFFECTS OF ALKALI METAL SALTS IN THE GASIFICATION OF COAL CHAR. |
| | | D. W. McKee, C.L. Spiro, P. G. Kosky, E.J. Lamby |
| PDF | KINETICS OF POTASSIUM CATALYZED GASIFICATION. |
| | | P. Konoer, H.W. Wong |
| PDF | EVOLUTION AND REMOVAL OF POLLUTANTS FROM THE GASIFICATION OF A SUBBITUMINOUS COAL IN A FLUIDIZED BED REACTOR. |
| | | R.M. Felder, J.K. Ferrell, R.W. Rousseau, M.J. Purdy, R.M. Kelly |
| PDF | DIRECT METHANATION _ A NEW METHOD OF CONVERTING SYSTHESIS GAS TO SUBSTITUTE NATURAL GAS. |
| | | H.S. Meyer, V. L. Hill, Ab Flowers |
| PDF | VARIATIONS IN THE INORGANIC CHEMISTRY OF COAL. |
| | | W.S. Fyfe, B.I. Kronberg, J.R. Brown |
| PDF | ANALYSIS OF SUB_MICRON MINERAL MATTER IN COAL VIA SCANNING TRANSMISSION ELECTRON MICROSCOPY. |
| | | R.M. Allen, J.B. VanderSande |
| PDF | THE DETERMINATION OF MINERAL DISTRIBUTIONS IN BITUMINOUS COALS BY ELECTRON MICROSCOPY. |
| | | L.A. Harris |
| PDF | THE FATE OF ALKALIS IN COAL COMBUSTION. |
| | | G.W. Stewart, CD. Stinespring, P. Davidovita |
| PDF | COAL ASH SINTERING MODEL AND THE RATE MEASUREMENTS. |
| | | E. Raask |
| PDF | THE CAPTURE AND RETENTION OF SULFUR SPECIES BY CALCIUM COMPOUNDS DURING THE COMBUSTION OF PULVERIZED COAL. |
| | | P. L. Case, M.P. Heap, C.N. McKinnon, D.W. Pershing, R. Payne |
| PDF | TITANIUM AS A TRACER FOR DETERMINING COAL BURNOUT. |
| | | R.S. Pace, P.O. Hedman, L.D. Smoot |
| PDF | BED AGGLOMERATES FORMED BY ATMOSPHERIC FLUIDIZED BED COMBUSTION OF A NORTH DAKOTA LIGNITE. |
| | | S.A. Benson, F.R. Karner,, Gerald M. Goblirsch |
| PDF | EXPERIMENTAL RESEARCH ON LIGNITE FLUIDIZED BED COMBUSTION. |
| | | Yang Min_Shin, Yang Li_Dan, Bao Yi_Lln, Chin Yu_Kun |
| PDF | PILOT PLANT OF A COAL FIXED FLUIDIZED BED BOILER IN JAPAN. |
| | | S. Tamanuki. |
| PDF | RESEARCH AND DEVELOPMENT OF COAL_FIRED FLUIDIZED_BED BOILER. |
| | | Bao Dong_wen, Ruan Yi_shao |
| PDF | A DATA ACQUISITION AND CONTROL SYSTEM FOR A FLUIDIZED BED COMBUSTION UNIT. |
| | | D.W. Church, D.G. Pincock |
| PDF | SAMPLING SYSTEM FOR FLUIDIZED BED APPLICATIONS _ RESULTS OF FOUR YEARS OF TESTING ON B&W/EPRI's 6' x 6' FLUIDIZED BED TEST FACILITY. |
| | | K.L. Loudin, P.W. Maurer |
| PDF | THE INFLUENCE OF VARYING OPERATIONAL PARAMETERS ON BOTH THE COMBUSTION EFFICIENCY IN AND THE EMMISSION OF POLLUTANTS FROM FLUIDIZED BSD PLANTS. |
| | | Dr. H. Munzner, Dr. H. D. Schilling VDI, Essen |
| PDF | SULFUR CAPTURE AND NITROGEN OXIDE REDUCTION ON THE 6' x6' ATMOSPHERIC FLUIDIZED BED COMBUSTION TEST FACILITY. |
| | | T.M. Modrak, J.T. Lang |
| PDF | PARTICLE ENTRAINMENT AND NITRIC OXIDE REDUCTION IN THE FREEBOARD OF A FLUIDIZED COAL COMBUSTOR. |
| | | P.M. Walsh, T.Z. Chaung, A. Dutta, J.M. Beer,, A.F. Sarofim |
| PDF | "NOX" FORMATION AND KINETICS OF "NOX" REDUCTION IN FLUIDIZED BED COMBUSTION OF CARBONACEOUS MATERIALS. |
| | | Takehiko Furusawa, Mikio Tsunoda, Seiichi Suda, Shunichi Ishikawa, Daizo Kunii |
| PDF | REDUCTION OF NITRIC OXIDE BY CARBONACEOUS SOLIDS IN AN ATMOSPHERIC PRESSURE FLUIDIZED_BED REACTOR. |
| | | S. Huang, G.T. Chen, C.Y. Wen, J.Y.Shang, J.S. Mei, J.E. Notestein |
| PDF | THE EFFECT OF COAL PARTICLE SIZE ON THE PERFORMANCE OF A FLUIDIZED BED COAL COMBUSTOR. |
| | | M. Brikci_Nigassa, E. S. Garbett, A.B. Hedley. |
| PDF | THE INFLUENCE OF PARTICLE SIZE DISTRIBUTION ON THE COMBUSTION RATES IN A BATCH FED FLUIDIZED BED. |
| | | E.S. Garbett, A.B. Hedley |
| PDF | MINERAL ORES AS DISPOSABLE CATALYSTS IN COAL LIQUEFACTION. |
| | | V. K. Mathur, V. Venkataramanan |