| 1 - 2 |
Hydrogen, the once and future fuel
Gregoire-Padro CE |
| 3 - 10 |
High-efficiency photoelectrochemical hydrogen production using multijunction amorphous silicon photoelectrodes
Rocheleau RE, Miller EL, Misra A |
| 11 - 18 |
Plasma reforming of methane
Bromberg L, Cohn DR, Rabinovich A, O'Brien C, Hochgreb S |
| 19 - 24 |
Production of hydrogen from biomass by catalytic steam reforming of fast pyrolysis oils
Wang DN, Czernik S, Chornet E |
| 25 - 40 |
Numerical simulation of vortex pyrolysis reactors for condensable tar production from biomass
Miller RS, Bellan J |
| 41 - 48 |
CO2-free production of hydrogen by catalytic pyrolysis of hydrocarbon fuel
Muradov NZ |
| 49 - 55 |
Onboard storage alternatives for hydrogen vehicles
Berry GD, Aceves SM |
| 56 - 71 |
Regenerative fuel cell systems
Mitlitsky F, Myers B, Weisberg AH |
| 72 - 77 |
Advanced hydrogen fueled internal combustion engines
Van Blarigan P |
| 78 - 82 |
Chemical kinetic modeling of hydrogen under conditions found in internal combustion engines
Marinov NM, Curran HJ, Pitz WJ, Westbrook CK |
| 83 - 89 |
Comparison of hydrogen, natural gas, liquified petroleum gas, and gasoline leakage in a residential garage
Swain MR, Shriber J, Swain MN |
| 90 - 94 |
A new method for quantification of fluidized bed agglomeration tendencies : A sensitivity analysis
Ohman M, Nordin A |
| 95 - 101 |
Studies of coal liquefaction at very short reaction times. 2
Huang H, Wang KY, Wang SJ, Klein MT, Calkins WH |
| 102 - 108 |
NOx and N2O emission in bubbling fluidized-bed coal combustion with oxygen and recycled flue gas : Macroscopic characteristics of their formation and reduction
Hosoda H, Hirama T, Azuma N, Kuramoto K, Hayashi J, Chiba T |
| 109 - 114 |
Activity and regenerability of sulfated zirconia superacid catalysts in isobutane/1-butene alkylation
Das D, Chakrabarty DK |
| 115 - 119 |
Depolymerization of subbituminous coal under mild conditions in the presence of aromatic hydrocarbon with recyclable superacid HF/BF3
Shimizu K, Saito I |
| 120 - 128 |
Microphase behavior of asphaltic micelles during catalytic and thermal upgrading
Storm DA, Barresi RJ, Sheu EY, Bhattacharya AK, DeRosa TF |
| 129 - 138 |
Effects of extended duration testing and time of addition of N,N '-disalicylidene-1,2-propanediamine on jet fuel thermal stability as determined using the gravimetric JFTOT
Pande SG, Hardy DR |
| 139 - 143 |
Influence of calcination and reduction conditions on the catalyst performance in the pyrolysis process of biomass
Garcia L, Salvador ML, Bilbao R, Arauzo J |
| 144 - 151 |
Pyrolysis and gasification in a bench-scale high-pressure fluidized-bed reactor
Megaritis A, Zhuo Y, Messenbock R, Dugwell DR, Kandiyoti R |
| 152 - 158 |
Surface thermodynamics for polar adsorbates on Wyodak coals
Glass AS, Wenger EK |
| 159 - 173 |
Nitrogen transformations in coal during pyrolysis
Kelemen SR, Gorbaty ML, Kwiatek PJ, Fletcher TH, Watt M, Solum MS, Pugmire RJ |
| 174 - 182 |
Effect of LiBr addition to 1-methyl-2-pyrrolidinone in the size-exclusion chromatography of coal-derived materials
Herod AA, Shearman J, Lazaro MJ, Johnson BR, Bartle KD, Kandiyoti R |
| 183 - 188 |
Gas hydrate formation in the deep sea : In situ experiments with controlled release of methane, natural gas, and carbon dioxide
Brewer PG, Orr FM, Friederich G, Kvenvolden KA, Orange DL |
