| PDF | OXIDATION/PYROLYSIS CHEMISTRY AS RELATED TO FUEL SOOTING TENDENCIES. |
| | | K. Brezinsky, I. Glassman |
| PDF | THE FORMATION OF SOOT AND POLYNUCLEAR AROMATIC COMPOUNDS IN THE LOW-TEMPERATURE PYROLYSIS OF ALKYNES |
| | | J. Heicklen |
| PDF | KINETIC MECHANISM FOR PYROLYSIS OF ACETYLENE NEAR 1000K. |
| | | M. B.Colket, III |
| PDF | A MECHANISTIC INVESTIGATION OF SOOT PRECURSORS. |
| | | S. H. Bauer, P. M. Jeffers |
| PDF | COMBUSTION TUBE SOOT FROM A DIESEL FUEL/AIR MIXTURE. |
| | | L. B.Ebert, J. C. Scanlon, C. A. Clauen |
| PDF | SINGLE PULSE SHOCK TUBE STUDIES ON THE STABILITY OF l-PHENYLBUTENE-2. |
| | | J. P. Cui, Y. Z. He, W. Tsang |
| PDF | THE CORRELATION OF BENZENE PRODUCTION WITH SOOT YIELD DETERMINED FOR FUEL PYROLYSES. |
| | | R. D. Kern, C. H. Wu, J. N. Yong, K. M.Pamidimukkala, H. J. Singh |
| PDF | SHOCK-TUBE AND MODELING STUDY OF SOOT FORMATION IN MIXTURES OF HYDROCARBONS. |
| | | M. Frenklach, T. Yuan, M. K. Ramachandra |
| PDF | THE MOLECULAR DISSOCIATION OF VINYLACETYLENE AND ITS IMPLICATIONS FOR ACETYLENE PYROLYSIS. |
| | | J. H. Kiefer, K. I. Mitchell |
| PDF | PREDICTION OF KINETICS FOR C4 SPECIES WHICH FORM BENZENE. |
| | | P. R.Westmoreland |
| PDF | FORMATION OF SMALL AROMATIC MOLECULES IN A SOOTING ETHYLENE FLAME. |
| | | S. J. Harris, A. M. Weiner, R. J. Blint |
| PDF | SOOT FORMATION IN HYDROCARBON DIFFUSION FLAMES. |
| | | J. H. Miller, A.Hamins, T. A. Kohout, K. C. Smyth, W. G. Mallard |
| PDF | SOOT PARTICLE FORMATION IN DIFFUSION FLAMES. |
| | | R. J. Santoro |
| PDF | ARE IONS IMPORTANT IN SOOT FORMATION? |
| | | H. F. Calcote, D. B. Olson, D. G. Keil |
| PDF | CLUSTER SIZE DISTRIBUTION FOR FREE MOLECULAR AGGLOMERATION. |
| | | G.W. Mulholland, R. J. Samson, R. D. Mountain, M. H. Ernst |
| PDF | A SIMPLE METHOD FOR PREDICTING SOOTING TENDENCIES OF HYDROCARBON FUELS IN PREMIXED FLAMES. |
| | | S. Stournas, E. Lois |
| PDF | OXIDATION KINETICS OF CARBON BLACKS OVER 1300-1700K. |
| | | W. Felder, S. Madronich, D. B. Olson |
| PDF | HYDRODENITROGENATION OF QUINOLINE AND COAL USING TRANSITION METAL SULFIDES. |
| | | C. W. Curtis, D. R. Cahela |
| PDF | CAUSES OF CATALYST DEACTIVATION DURING QUINOLINE HYDRODENITROGENATION. |
| | | F. V. Stohl |
| PDF | HYDROTREATMENT EFFECTS ON WILSONVILLE COAL LIQUIDS; COMPUTER-ASSISTED EVALUATION OF MULTISOURCE ANALYTICAL DATA. |
| | | K. Taghizadeh, R. Hardy, R. Keogh, J. Goodman, B. Davis, H. Meuzelaar |
| PDF | CONVERSION OF TETRALIN TO NAPHTHALENE DURING COAL LIQUEFACTION: A COAL RANK PHENOMENON? |
| | | B. Chawla, R. Keogh, B. H. Davis |
| PDF | THE ORGANIC/MINERAL INTERACTION IN COAL LIQUEFACTION BOTTOMS. |
| | | W.A. Leet, F. S-C. Lee, R. Gandy, D. C. Cronauer |
| PDF | CATALYZED REACTIONS OF ALKYLAROMATIC HYDROCARBONS DISSOLVED IN SUPERCRITICAL FLUIDS. |
| | | F. C. Knopf, T. -H. Pang, K. M. Dooley |
| PDF | A STUDY ON THE DISTRIBUTION OF VARIOUS CHEMICAL SPECIES IN DIF-FERENT COAL LIQUIDS BY SIZE EXCLUSION CHROMATOGRAPHY – GAS CHROMATOGRAPHY - MASS SPECTROMETRY. |
| | | C. V. Philip, R. G.Anthony |
| PDF | THE HYDROGEN TRANSFER CYCLE FOR COAL LIQUEFACTION – PROCESS IMPLICATIONS. |
| | | H. P. Stephens, R. J. Kottenstette |
| PDF | INVESTIGATION ON THE NATURE OF STEAM MODIFIED COAL. |
| | | S. D.Brandes, R. A. Graff |
| PDF | CHANGES IN THE DEGREE OF SUBSTITUTION OF PAC FROM PYROLYSIS OF A HIGH VOLATILE BITUMINOUS COAL. |
| | | M. J. Wornat, A. F. Sarofim, J. P. Longwell |
| PDF | THERMOLYSIS OF SURFACE-ATTACHED 1,3-DIPHENYLPROPANE: IMPACT OF SURFACE IMMOBILIZATION ON THERMAL REACTION MECHANISMS. |
| | | A. C.Buchanan, III, C. A. Biggs |
| PDF | THE CASE FOR INDUCED BOND SCISSION DURING COAL PYROLYSIS. |
| | | D. F.McMillen, R. Malhotra, S. E. Nigenda |
| PDF | MODELLING THE THERMAL REACTIONS OF BENZYL PHENYL SULFIDE. |
| | | M. A.Abraham, M. T. Klein |
| PDF | A NOVEL APPLICATION OF 3IP NMR SPECTROSCOPY TO THE ANALYSIS OF ORGANIC GROUPS CONTAINING –OH, -NH, AND -SH FUNCTIONALITIES INCOAL EXTRACTS AND CONDENSATES. |
| | | A. E. Wroblewski, R. Markuszewski, J. G. Verkade |
| PDF | TIME-RESOLVED PYROLYSIS MASS SPECTROMETRY OF COAL: A NEW TOOL FOR MECHANISTIC KINETIC STUDIES. |
| | | T. Chakravarty, H.Meuzelaar, W. Windig, G. R. Hill |
| PDF | EPR STUDY OF THE CATALYTIC EFFECTS OF MINERALS ON FREE RADICAL FORMATION DURING COAL PYROLYSIS. |
| | | M. S. Ali, W. R. M. Graham |
| PDF | COPPER CATALYZED LOW-TEMPERATURE PYROLYSIS AS A MEANS FOR UPGRAD-ING LOW-RANK SOLID FUELS. |
| | | S. Stournas, M. Papachristos, G. B.Kyriakopoulos |
| PDF | PYROLYSIS OF WILSONVILLE COAL LIQUEFACTION RESIDUES. |
| | | W. A. Leet, D. C. Cronauer |
| PDF | MEASUREMENT OF PARTICLE TEMPERATURES DURING COAL PYROLYSIS AND COMBUSTION. |
| | | G. Huang, F. J. Vastola, A. W. Scaroni |
| PDF | INTRA-PARTICLE HEAT TRANSFER EFFECTS IN COAL PYROLYSIS. |
| | | M. R.Hajaligol, W. A. Peters, J. B. Howard |
| PDF | THERMOKINETIC TRANSPORT CONTROL STRUCTURAL MICROSCOPICREALITIES IN COAL POLYMER PYROLYSIS DEVOLATILIZATION: THEIR DOMINANT ROLE IN DUST EXPLOSIONS. |
| | | M. Hertzberg, I. A.Zlochower, R. S. Conti, K. L. Cashdollar |
| PDF | SPECTRAL EMISSION CHARACTERISTICS OF SIZE-GRADED COAL PARTICLES. |
| | | T. H. Fletcher, L. L. Baxter, D. K. Ottesen |
| PDF | THE SIGNIFICANCE OF TRANSPORT EFFECTS IN DETERMINING COAL PYROLYSIS RATES AND YIELDS. |
| | | E. M. Suuberg |
| PDF | DIFFUSIONAL CONTRIBUTIONS TO VOLATILE RELEASE IN PYROLYZING COAL PARTICLES. |
| | | M. K. Misra, R. H. Essenhigh |
| PDF | A MATHEMATICAL SIMULATION OF THE PYROLYSIS OF A MODEL ASPHALTENE. |
| | | P. E. Savage, M. T. Klein |
| PDF | INTERPRETING RAPID COAL DEVOLATILIZATION AS AN EQUILIBRIUM FLASH DISTILLATION DRIVEN BY COMPETITIVE CHEMICAL KINETICS. |
| | | S. Niksa |
| PDF | A GENERAL MODEL OF COAL DEVOLATILIZATION. |
| | | P. R. Solomon, D. G.Hamblen, R. M. Carangelo, M. A. Serio, G. V. Deshpande |
| PDF | KINETIC MODELING OF COAL PYROLYSIS IN A LAMINAR-FLOW REACTOR SYSTEM. |
| | | W. s. O'Brien, J. W. Chen, A. Moslehi, R. -C. Wu |
| PDF | THE ROLE OF COAL DEVOLATILIZATION IN COMPREHENSIVE COMBUSTION MODELS. |
| | | B. s. Brewster, L. L. Baxter, L. D. Smoot |
| PDF | OXIDATIVE DIMERIZATION OF METHANE OVER LITHIUM-PROMOTED ZINC OXIDE. |
| | | H. S. Zhang, J. X. Wang, D. J. Driscoll, J. H.Luns ford |
| PDF | CATALYTIC PARTIAL OXIDATION OF METHANE TO HIGHER HYDROCARBONS. |
| | | R. J. Tyler, C. A. Lukey |
| PDF | THE DIRECT CONVERSION OF METHANE TO METHANOL BY A HIGH PRESSURE PARTIAL OXIDATION REACTION. |
| | | H. D. Gesser, N. R. Hunter, L. A.Morton, P. S. Yarlagadda, D. P. C. Fung |
| PDF | METHANE POLYMERIZATION USING A HOLLOW CATHODE. |
| | | P. Meubus, G. Jean |
| PDF | METHANE PARTIAL OXIDATION IN ALTERNATING ELECTRIC FIELDS. |
| | | R. G.Mallinson, C. M. Sliepcevich, S. Rusek |
| PDF | NICKEL SITE OF METHANE CATALYSIS IN THE METHYL REDUCTASE ENZYME. |
| | | J. A. Shelnutt, A. K. Shiemke, R. A. Scott |
| PDF | THE TESTING OF CATALYSTS FOR ALKANE ACTIVATION. |
| | | F. V. Stohl, J.A. Shelnutt, B. Granoff, D. E. Trudell |
| PDF | ALKANE ACTIVATION BY OXIDE-SUPPORTED ORGANORHODIUM COMPLEXES. |
| | | J.Schwartz |
| PDF | ACTIVATION OF METHANE ON IRON, NICKEL, AND PLATINUM SURFACES. A MOLECULAR ORBITAL STUDY. |
| | | A. B. Anderson, J. J. Maloney |
| PDF | CONVERSION OF CH4 INTO C2H2 AND C2H4 BY THE CHLORINE-CATALYZEDOXIDATIVE-PYROLYSIS (CCOP) PROCESS: I. OXIDATIVE PYROLYSIS OF CH3C1. |
| | | A. Granada, S. B. Karra, S. M. Senkan |
| PDF | CONVERSION OF METHANE TO GASOLINE-RANGE HYDROCARBONS. |
| | | C. E Taylor, R. p. Noceti |
| PDF | EFFECT OF PRESSURE ON PYROLYSIS OF A SUB-BITUMINOUS COAL IN AN ENTRAINED-FLOW REACTOR. |
| | | M. Fatemi, A. W. Scaroni, C. W. Lee, R. G. Jenkins |
| PDF | MODELING OF COAL PYROLYSIS UNDER THE CONDITIONS OF AN ENTRAINED PHASE REACTOR. |
| | | W. Wanzl, P. Kassler, K. H. van Heek, H.Juntgen |
| PDF | EFFECT OF HEAT TRANSFER ON TAR AND LIGHT GASES FROM COAL PYROL-YSIS. |
| | | J. D. Freihart, W. M. Proscia, D. J. SeerY |
| PDF | PYROLYSIS OF COAL AT HIGH TEMPERATURES. |
| | | P. F. Nelson, I. W.Smith, R. J. Tyler |
| PDF | LOW TEMPERATURE ISOTHERMAL PYROLYSIS OF ILLINOIS NO. 6 AND WYODAK COAL. |
| | | F. P. Miknis, T. F. Turner, L. Ennen |