| S1 - S52 |
Hydrogen energy - Abundant, efficient, clean: A debate over the energy-system-of-change
Winter CJ |
| 5617 - 5628 |
Estimating future prices for stationary fuel cells with empirically derived experience curves
Staffell I, Green RJ |
| 5629 - 5636 |
Formation of multilayer-Eosin Y-sensitized TiO(2) via Fe(3+) coupling for efficient visible-light photocatalytic hydrogen evolution
Li YX, Guo MM, Peng SQ, Lu GX, Li SB |
| 5637 - 5644 |
Experimental study of Ni/CeO(2) catalytic properties and performance for hydrogen production in sulfur-iodine cycle
Zhang YW, Wang ZH, Zhou JH, Liu JZ, Cen KF |
| 5645 - 5656 |
Role of sodium hydroxide in the production of hydrogen gas from the hydrothermal gasification of biomass
Onwudili JA, Williams PT |
| 5657 - 5665 |
High yield simultaneous hydrogen and ethanol production under extreme-thermophilic (70 degrees C) mixed culture environment
Zhao CX, O-Thong S, Karakashev D, Angelidaki I, Lu WJ, Wang HT |
| 5666 - 5673 |
Effect of biomass leaching on H(2) production, ash and tar behavior during high temperature steam gasification (HTSG) process
Skoulou V, Kantarelis E, Arvelakis S, Yang W, Zabaniotou A |
| 5674 - 5682 |
Feasibility of biohydrogen production from cheese whey using a UASB reactor: Links between microbial community and reactor performance
Castello E, Santos CGY, Iglesias T, Paolino G, Wenzel J, Borzacconi L, Etchebehere C |
| 5683 - 5690 |
Thermodynamic analysis of hydrogen production from glycerol autothermal reforming
Wang H, Wang XD, Li MS, Li SR, Wang SP, Ma XB |
| 5691 - 5703 |
Ethanol steam reforming over supported ruthenium and ruthenium-platinum catalysts: Comparison of organometallic clusters and inorganic salts as catalyst precursors
Koh ACW, Chen LW, Leong WK, Ang TP, Johnson BFG, Khimyak T, Lin JY |
| 5704 - 5709 |
Hydrogen storage in dinuclear Pt(II) metallacycles
Kombarakkaran J, Noveron JC, Helgesen M, Shen K, Pietrass T |
| 5710 - 5715 |
Self-ignition combustion synthesis of oxygen-doped TiFe
Wakabayashi R, Sasaki S, Akiyama T |
| 5716 - 5725 |
Analysis of hydrogen storage in metal hydride tanks introducing an induced phase transformation
Gondor G, Lexcellent C |
| 5726 - 5731 |
Regeneration of sodium borohydride from sodium metaborate, and isolation of intermediate compounds
Kemmitt T, Gainsford GJ |
| 5732 - 5736 |
Dehydriding and rehydriding properties of yttrium borohydride Y(BH(4))(3) prepared by liquid-phase synthesis
Yan YG, Li HW, Sato T, Umeda N, Miwa K, Towata S, Orimo S |
| 5737 - 5748 |
Interaction between (La, Sr)MnO(3) cathode and Ni-Mo-Cr metallic interconnect with suppressed chromium vaporization for solid oxide fuel cells
Chen XB, Hua B, Pu J, Li J, Zhang L, Jiang SP |
| 5749 - 5758 |
A prediction model of degradation rate for membrane electrode assemblies in direct methanol fuel cells
Bae SJ, Kim SJ, Um S, Park JY, Lee JH, Cho H |
| 5759 - 5769 |
Unsteady-state modelling for a passive liquid-feed DMFC
Basri S, Kamarudin SK, Daud WRW, Yaakub Z, Ahmad MM, Hashim N, Hasran UA |
| 5770 - 5777 |
Investigation of coupled AB(5) type high-power metal hydride reactors
Park IS, Kim JK, Kim KJ, Zhang JX, Park C, Gawlik K |
| 5778 - 5784 |
Pd/Mg/Pd thin films prepared by pulsed laser deposition under different helium pressures: Structure and electrochemical hydriding properties
Bouhtiyya S, Roue L |
| 5785 - 5794 |
Simulation of catalytic oxidation of lean hydrogen-methane mixtures
Shahamiri SA, Wierzba I |
| 5795 - 5802 |
Production of hydrogen from purge gases of ammonia plants in a catalytic hydrogen-permselective membrane reactor
Rahimpour MR, Asgari A |
| 5803 - 5809 |
Similarity consideration of the buoyant jet resulting from hydrogen leakage
El-Amin MF, Kanayama H |
| 5810 - 5816 |
Self-ignition and flame propagation of high-pressure hydrogen jet during sudden discharge from a pipe
Mogi T, Wada Y, Ogata Y, Hayashi AK |
| 5817 - 5827 |
Transient supersonic release of hydrogen from a high pressure vessel: A computational analysis
Peneau F, Pedro G, Oshkai P, Benard P, Djilali N |
| 5828 - 5828 |
Direct coupling of a solar-hydrogen system in Mexico (vol 32, pg 13, 2007)
Arriaga LG, Martinez W, Cano U, Blud H |
| 5829 - 5829 |
Economic & Commercial Viability of Hydrogen Fuel Cell Vehicles from an Automotive Manufacturer Perspective (vol 34, pg 9, 2009)
Frenette G, Forthoffer D |
| 5830 - 5831 |
Editorial for ICHS2
Carcassi MN |
| 5832 - 5837 |
Hydrogen flames in tubes: Critical run-up distances
Dorofeev SB |
| 5838 - 5845 |
Risk-informed separation distances for hydrogen refueling stations
LaChance J |
| 5846 - 5854 |
Safety studies of a hydrogen refuelling station: Determination of the occurrence frequency of the accidental scenarios
Casamirra M, Castiglia F, Giardina M, Lombardo C |
| 5855 - 5861 |
Risk-informed process and tools for permitting hydrogen fueling stations
LaChance J, Tchouvelev A, Ohi J |
| 5862 - 5868 |
Safety-barrier diagrams as a tool for modelling safety of hydrogen applications
Duijm NJ, Markert F |
| 5869 - 5874 |
Experiments with release and ignition of hydrogen gas in a 3 m long channel
Sommersel OK, Bjerketvedt D, Vaagsaether K, Fannelop TK |
| 5875 - 5886 |
CFD simulation study to investigate the risk from hydrogen vehicles in tunnels
Middha P, Hansen OR |
| 5887 - 5893 |
Fast turbulent deflagration and DDT of hydrogen-air mixtures in small obstructed channel
Teodorczyk A, Drobniak P, Dabkowski A |
| 5894 - 5901 |
Simulation of detonation after an accidental hydrogen release in enclosed environments
Bedard-Tremblay L, Fang L, Melguizo-Gavilanes J, Bauwens L, Finstad PHE, Cheng Z, Tchouvelev AV |
| 5902 - 5911 |
Hydrogen related risks within a private garage: Concentration measurements in a realistic full scale experimental facility
Gupta S, Brinster J, Studer E, Tkatschenko I |
| 5912 - 5923 |
An inter-comparison exercise on the capabilities of CFD models to predict the short and long term distribution and mixing of hydrogen in a garage
Venetsanos AG, Papanikolaou E, Delichatsios M, Garcia J, Hansen OR, Heitsch M, Huser A, Jahn W, Jordan T, Lacome JM, Ledin HS, Makarov D, Middha P, Studer E, Tchouvelev AV, Teodorczyk A, Verbecke F, Van der Voort MM |
| 5924 - 5931 |
Explosion hazard of hydrogen-air mixtures in the large volumes
Petukhov VA, Naboko IM, Fortov VE |
| 5932 - 5939 |
Gas build-up in a domestic property following releases of methane/hydrogen mixtures
Lowesmith BJ, Hankinson G, Spataru C, Stobbart M |
| 5940 - 5945 |
Prediction of the liftoff, blowout and blowoff stability limits of pure hydrogen and hydrogen/hydrocarbon mixture jet flames
Wu Y, Lu Y, Al-Rahbi IS, Kalghatgi GT |
| 5946 - 5953 |
Experimental and numerical investigation of hydrogen gas auto-ignition
Golub VV, Baklanov DI, Bazhenova TV, Golovastov SV, Ivanov MF, Laskin IN, Semin NV, Volodin VV |
| 5954 - 5960 |
Numerical study of spontaneous ignition of pressurized hydrogen release into air
Xu BP, Hima LE, Wen JX, Tam VHY |
| 5961 - 5969 |
Analysis of jet flames and unignited jets from unintended releases of hydrogen
Houf WG, Evans GH, Schefer RW |
| 5970 - 5975 |
On the use of spray systems: An example of R&D work in hydrogen safety for nuclear applications
Joseph-Auguste C, Cheikhravat H, Djebaili-Chaumeix N, Deri E |
| 5976 - 5980 |
Compatibility of materials with hydrogen. Particular case: Hydrogen embrittlement of titanium alloys
Madina V, Azkarate I |
| 5981 - 5985 |
Complex hydrides as solid storage materials: First safety tests
Lohstroh W, Fichtner M, Breitung W |
| 5986 - 5991 |
Hydrogen safety aspects related to high-pressure polymer electrolyte membrane water electrolysis
Grigoriev SA, Millet P, Korobtsev SV, Porembskiy VI, Pepic M, Etievant C, Puyenchet C, Fateev VN |
| 5992 - 5999 |
Identification and monitoring of a PEM electrolyser based on dynamical modelling
Lebbal ME, Lecoeuche S |
| 6000 - 6004 |
A rural hydrogen transportation test bed
Sheffield JW, Koylu UO |
