| 1 - 1 |
Untitled
Larsen J |
| 2 - 2 |
Proceedings of an Acs Division of Fuel Chemistry Symposium on Iron-Based Catalysts for Coal-Liquefaction - An Introduction
Farcasiu M, Huffman GP, Wender I |
| 3 - 9 |
Development of a New Iron Catalyst for the Direct Liquefaction of Coal
Bacaud R, Besson M, Djegamariadassou G |
| 10 - 18 |
Nanophase Iron-Based Liquefaction Catalysts - Synthesis, Characterization, and Model-Compound Reactivity
Matson DW, Linehan JC, Darab JG, Buehler MF |
| 19 - 24 |
Disproportionated Ferric Sulfide Catalysts for Coal-Liquefaction
Dadyburjor DB, Stewart WR, Stiller AH, Stinespring CD, Wann JP, Zondlo JW |
| 25 - 30 |
Design of Recoverable Catalysts for a Multistage Coal-Liquefaction Process
Mochida I, Sakanishi K, Sakata R, Honda K, Umezawa T |
| 31 - 37 |
Evaluation of Cation-Exchanged Iron for Catalytic Liquefaction of a Subbituminous Coal
Taghiei M, Huggins FE, Mahajan V, Huffman GP |
| 38 - 43 |
Binary Iron-Oxide Catalysts for Direct Coal-Liquefaction
Zhao JM, Feng Z, Huggins FE, Huffman GP |
| 44 - 47 |
Evaluation of Particle-Size Measurement Techniques for Dispersed Iron Catalysts
Rao VU |
| 48 - 52 |
Testing Fe-Based Catalysts for Direct Coal-Liquefaction Using in-Situ Electron-Spin-Resonance Spectroscopy
Ibrahim MM, Seehra MS |
| 53 - 55 |
Complex Iron-Catalytic Systems - Relative Catalytic Activity of Various Components
Farcasiu M, Eldredge PA, Petrosius SC |
| 56 - 62 |
Effects of Iron-Oxygen Precursor Phase on Carbon-Carbon Bond Scission in Naphthylbibenzylmethane
Linehan JC, Matson DW, Darab JG |
| 63 - 70 |
Activity and Selectivity of Slurry-Phase Iron-Based Catalysts for Model Systems
Tang Y, Curtis CW |
| 71 - 76 |
Molecular-Orbital Calculations for Iron Catalysts
Ades HF, Companion AL, Subbaswamy KR |
| 77 - 82 |
Evaluation of the Effect of a Nonporous Ultrafine Iron Catalyst on the Hydroliquefaction of a Highly Volatile Bituminous Coal
Cebolla VL, Diack M, Cagniant D, Oberson M, Bacaud R, Nickelpepindonat B |
| 83 - 87 |
Effect of Catalyst Dispersion on Coal-Liquefaction with Iron Catalysts
Cugini AV, Krastman D, Martello DV, Frommell EF, Wells AW, Holder GD |
| 88 - 93 |
Relative Activity of Nanoscale Iron-Oxide, Iron Carbide, and Iron Sulfide Catalyst Precursors for the Liquefaction of a Subbituminous Coal
Hager GT, Bi XX, Eklund PC, Givens EN, Derbyshire FJ |
| 94 - 98 |
Iron Catalytic Precursors in Dry Coal Hydroconversion
Mastral AM, Mayoral MC, Palacios JM |
| 99 - 104 |
Iron-Based Catalysts for Coal/Waste Oil Coprocessing
Sanjay HG, Tarrer AR, Marks C |
| 105 - 112 |
Coal-Liquefaction Using a Dispersed Phase Nanoscale Iron Oxyhydroxide Catalyst
Guin JA, Zhan XD, Linhart RS |
| 113 - 116 |
Hydrogenolytic Activity of Soluble and Solid Fe-Based Catalysts as Related to Coal-Liquefaction Efficiency
Zmierczak W, Xiao X, Shabtai J |
| 117 - 123 |
Development of Standard Direct Coal-Liquefaction Activity Tests for Fine-Particle Iron-Based Catalysts
Stohl FV, Diegert KV |
| 124 - 130 |
Comparison of Large-Scale Boiler Data with Combustion Model Predictions
Boyd RK, Kent JH |
| 131 - 135 |
Kinetic-Studies for Catalytic Cracking of Heavy Oil from Waste Plastics over Rey Zeolite
Songip AR, Masuda T, Kuwahara H, Hashimoto K |
| 136 - 140 |
Production of High-Quality Gasoline by Catalytic Cracking over Rare-Earth-Metal Exchanged Y-Type Zeolites of Heavy Oil from Waste Plastics
Songip AR, Masuda T, Kuwahara H, Hashimoto K |
| 141 - 146 |
Stabilization and Partial Deasphaltening of Thermal Residues by Chemical Treatment
Defilippis P, Giavarini C, Scarsella M |
| 147 - 150 |
C-7 Alkene Conversion and Reactivity Under Desulfurization Conditions
Goddard SA, Kukes SG |
| 151 - 154 |
Selective Chemical Mapping of Coal Microheterogeneity by Scanning-Transmission X-Ray Microscopy
Botto RE, Cody GD, Kirz J, Ade H, Behal S, Disko M |
| 155 - 171 |
A Study of Mequinenza Lignite
White CM, Collins LW, Veloski GA, Irdi GA, Rothenberger KS, Gray RJ, Lacount RB, Kasrai M, Bancroft GM, Brown JR, Huggins FE, Shah N, Huffman GP |
| 172 - 178 |
New Sn-119 NMR Tagging Reagents for Labile Hydrogen Functional-Group Analysis
Ye MC, Verkade JG |
| 179 - 187 |
Applicability of Furnace Analysis in Determination of the Performance-Characteristics of a Hot-Wall Furnace Fired with Sorbent-Loaded Coal-Water Fuel
Essenhigh RH, Obloza JJ, Hammond TK |
| 188 - 193 |
Air Oxidation of Turkish Beypazari Lignite .2. Effect of Demineralization on Structural Characteristics in Oxidation Reactions at 150-Degrees-C
Azik M, Yurum Y, Gaines AF |
| 194 - 203 |
Pyrolysis Kinetics of Bagasse at High Heating Rates
Stubington JF, Aiman S |
| 204 - 212 |
Effects of Chemical-Composition on 2-Phase Flow in Porous Rocks - A Multivariate Screening Including Interactive Effects
Barth T, Borgund AE |
| 213 - 218 |
Pyridine Sorption Isotherms of Argonne Premium Coals - Dual-Mode Sorption and Coal Microporosity
Green TK, Selby TD |
| 219 - 226 |
Deuterium Incorporation During Coal-Liquefaction in Donor and Nondonor Solvents
Dabbagh HA, Shi BC, Davis BH, Hughes CG |
| 227 - 233 |
Design of a Nickel-Tungsten Hydrocracking Catalyst
Gutberlet LC, Bertolacini RJ, Kukes SG |
| 234 - 238 |
Desulfurization of Illinois No-6 Bituminous Coal via Reductive Carboxylation in Absolute Ethanol
Duty RC, Penrod JM |
| 239 - 243 |
Adsorption of CO2 on Activated Carbons from Diluted Ambient Environments
Salasperegrin MA, Carrascomarin F, Lopezgarzon FJ, Morenocastilla C |
| 244 - 248 |
Structural Characterization of Sulfur-Compounds in Petroleum by S-Methylation and C-13 NMR-Spectroscopy
Green TK, Whitley P, Wu KN, Lloyd WG, Gan LZ |
| 249 - 257 |
Simultaneous Hydrodesulfurization and Hydrodenitrogenation of Model Compounds over Ni-Mo/Gamma-Al2O3 Catalysts
Ozkan US, Ni SG, Zhang LP, Moctezuma E |
| 258 - 265 |
Characterization of Coal-Liquefaction Heavy Products Using Cf-252 Plasma Desorption Mass-Spectrometry
Larsen JW, Lapucha AR, Wernett PC, Anderson WR |
| 266 - 275 |
Phase-Behavior and Macromolecular Structure of Swollen Coals - A Low-Temperature H-1 and H-2 NMR-Study
Yang XL, Silbernagel BG, Larsen JW |
| 276 - 283 |
Kinetic-Studies of Iron Oxysulfide as a Sulfur Sorbent
Zhong SL, Hepworth MT |
| 284 - 285 |
Specific Interactions of Organic-Bases with the Illinois No-6 Coal Surface Are the Same as Their Hydrogen-Bond Strengths with Phenol
Glass AS, Larsen JW |
| 286 - 287 |
Methylation of Naphthalene by Methane-C-13 over Copper-Exchanged Silicoaluminophosphate
He SJ, Long MA, Attalla MI, Wilson MA |
