| 1185 - 1186 |
Advanced Fossil Energy Utilization Preface
Shekhawat D, Berry DA, Pennline HW, Granite EJ, Spivey JJ |
| 1187 - 1192 |
On-board plasma-assisted conversion of heavy hydrocarbons into synthesis gas
Gallagher MJ, Geiger R, Polevich A, Rabinovich A, Gutsol A, Fridman A |
| 1193 - 1201 |
Partial oxidation of liquid hydrocarbons in the presence of oxygen-conducting supports: Effect of catalyst layer deposition
Smith MW, Berry DA, Shekhawat D, Haynes DJ, Spivey JJ |
| 1202 - 1211 |
Dry catalytic partial oxidation of diesel-fuel distillates into syngas
Mundschau MV, Gribble DA, Plassmeyer PN, Henton LM, Jentzsch NR |
| 1212 - 1220 |
Kinetic studies of the autothermal reforming of tetradecane over Pt/Al2O3 catalyst in a fixed-bed reactor
Parmar RD, Kundu A, Thurgood C, Peppley BA, Karan K |
| 1221 - 1229 |
Combined pre-reforming-desulfurization of high-sulfur fuels for distributed hydrogen applications
Muradov N, Ramasamy K, Linkous C, Huang CP, Adebiyi I, Smith F, T-Raissi A, Stevens J |
| 1230 - 1240 |
Transformation of CH4 and liquid fuels into syngas on monolithic catalysts
Sadykov V, Sobyanin V, Mezentseva N, Alikina G, Vostrikov Z, Fedorova Y, Pelipenko V, Usoltsev V, Tikhov S, Salanov A, Bobrova L, Beloshapkin S, Ross JRH, Smorygo O, Ulyanitskii V, Rudnev V |
| 1241 - 1248 |
Hydrogen production by methane decomposition: Origin of the catalytic activity of carbon materials
Serrano DP, Botas JA, Fierro JLG, Guil-Lopez R, Pizarro P, Gomez G |
| 1249 - 1256 |
Syngas and a separate nitrogen/argon stream via chemical looping reforming - A 140 kW pilot plant study
Proll T, Bolhar-Nordenkampf J, Kolbitsch P, Hofbauer H |
| 1257 - 1264 |
Oxygen feed membranes in autothermal steam-reformers - A robust temperature control
Huppmeier J, Barg S, Baune M, Koch D, Grathwohl G, Thoming J |
| 1265 - 1273 |
La1-xSrxFeO3-delta perovskites as redox materials for application in a membrane reactor for simultaneous production of pure hydrogen and synthesis gas
Evdou A, Zaspalis V, Nalbandian L |
| 1274 - 1279 |
Hydrogen separation through palladium-copper membranes on porous stainless steel with sol-gel derived ceria as diffusion barrier
Qiao AL, Zhang K, Tian Y, Xie LL, Luo HJ, Lin YS, Li YD |
| 1280 - 1286 |
Sorption-enhanced water gas shift reaction by sodium-promoted calcium oxides
Stevens RW, Shamsi A, Carpenter S, Siriwardane R |
| 1287 - 1297 |
Regenerable MgO-based sorbents for high-temperature CO2 removal from syngas: 1. Sorbent development, evaluation, and reaction modeling
Hassanzadeh A, Abbasian J |
| 1298 - 1306 |
Evaluation of solid sorbents as a retrofit technology for CO2 capture
Sjostrom S, Krutka H |
| 1307 - 1314 |
Separation of CO2 from flue gas using electrochemical cells
Pennline HW, Granite EJ, Luebke DR, Kitchin JR, Landon J, Weiland LM |
| 1315 - 1319 |
Single component, reversible ionic liquids for energy applications
Blasucci V, Hart R, Mestre VL, Hahne DJ, Burlager M, Huttenhower H, Thio BJR, Pollet P, Liotta CL, Eckert CA |
| 1320 - 1322 |
Activated carbon injection for mercury control: Overview
Sjostrom S, Durham M, Bustard CJ, Martin C |
| 1323 - 1325 |
Surface characterization of palladium-alumina sorbents for high-temperature capture of mercury and arsenic from fuel gas
Baltrus JP, Granite EJ, Pennline HW, Stanko D, Hamilton H, Rowsell L, Poulston S, Smith A, Chu W |
| 1326 - 1330 |
Aqueous mercury precipitation with the synthetic dithiolate, BDTH2
Blue LY, Jana P, Atwood DA |
