| 2105 - 2105 |
ICHS-2005: The First International Conference on Hydrogen Safety
Carcassi MN |
| 2106 - 2117 |
Pool spreading and vaporization of liquid hydrogen
Verfondern K, Dienhart B |
| 2118 - 2124 |
Evaluation of safety distances related to unconfined hydrogen explosions
Dorofeev SB |
| 2125 - 2133 |
Large-scale hydrogen deflagrations and detonations
Groethe M, Merilo E, Colton J, Chiba S, Sato Y, Iwabuchi H |
| 2134 - 2143 |
Canadian hydrogen safety program
MacIntyre I, Tchouvelev AV, Hay DR, Wong J, Grant J, Benard P |
| 2144 - 2153 |
Dispersion and explosion field tests for 40 MPa pressurized hydrogen
Takeno K, Okabayashi K, Kouchi A, Nonaka T, Hashiguchi K, Chitose K |
| 2154 - 2161 |
The new facility for hydrogen and fuel cell vehicle safety evaluation
Watanabe S, Tamura Y, Suzuki J |
| 2162 - 2170 |
Experimental study on hydrogen explosions in a full-scale hydrogen filling station model
Tanaka T, Azuma T, Evans JA, Cronin PM, Johnson DM, Cleaver RP |
| 2171 - 2177 |
CFD modeling of large-scale LH2 spills in open environment
Venetsanos AG, Bartzis JG |
| 2178 - 2185 |
Spontaneous ignition of hydrogen leaks: A review of postulated mechanisms
Astbury GR, Hawksworth SJ |
| 2186 - 2191 |
Simulation of flame acceleration and DDT in H-2-air mixture with a flux limiter centered method
Vaagsaether K, Knudsen V, Bjerketvedt D |
| 2192 - 2197 |
Safety distances: Definition and values
Marangon A, Carcassi M, Engebo A, Nilsen S |
| 2198 - 2205 |
Hydrogen-air deflagrations in open atmosphere: Large eddy simulation analysis of experimental data
Molkov VV, Makarov DV, Schneider H |
| 2206 - 2215 |
CFD modelling of accidental hydrogen release from pipelines
Wilkening H, Baraldi D |
| 2216 - 2226 |
Role of chemical kinetics on the detonation properties of hydrogen/natural gas/air mixtures
Chaumeix N, Pichon S, Lafosse F, Paillard CE |
| 2227 - 2234 |
Safety aspects of future infrastructure scenarios with hydrogen refuelling stations
Markert F, Nielsen SK, Paulsen JL, Andersen V |
| 2235 - 2245 |
An intercomparison exercise on the capabilities of CFD models to predict distribution and mixing of H-2 in a closed vessel
Gallego E, Migoya E, Martin-Valdepenas JM, Crespo A, Garcia J, Venetsanos A, Papanikolaou E, Kumar S, Studer E, Dagba Y, Jordan T, Jahn W, Hoiset S, Makarov D, Piechna J |
| 2247 - 2252 |
Direct coupling of a solar-hydrogen system in Mexico
Arriaga LG, Martinez W, Cano U, Blud H |
| 2253 - 2268 |
Implementation and control of electrolysers to achieve high penetrations of renewable power
Troncoso E, Newborough M |
| 2269 - 2272 |
Hydrothermal synthesis and photocatalytic properties of ATaO(3) and ANbO(3) (A = Na and K)
Liu JW, Chen G, Li ZH, Zhang ZG |
| 2273 - 2285 |
Light transfer in bubble sparged photobioreactors for H2 production and CO(2) mitigation
Berberoglu H, Yin J, Pilon L |
| 2286 - 2295 |
Biohydrogen production from chemical wastewater as substrate by selectively enriched anaerobic mixed consortia: Influence of fermentation pH and substrate composition
Mohan SV, Bhaskar YV, Krishna PM, Rao NC, Babu VL, Sarma PN |
| 2296 - 2304 |
Production of hydrogen from domestic wastewater using a bioelectrochemically assisted microbial reactor (BEAMR)
Ditzig J, Liu H, Logan BE |
| 2305 - 2313 |
Parametric study of solid oxide steam electrolyzer for hydrogen production
Ni M, Leung MKH, Leung DYC |
| 2314 - 2319 |
Electrocatalytic effects of Mo-Pt intermetallics singly and with ionic activators. Hydrogen production via electrolysis
Stojic DL, Grozdic TD, Kaninski MPM, Stanic VD |
| 2320 - 2324 |
Performance of a PEM water electrolysis cell using IrxRuyTazO2 electrocatalysts for the oxygen evolution electrode
Marshall AT, Sunde S, Tsypkin A, Tunold R |
| 2325 - 2329 |
Effects of NiB doping in MgNi alloy electrode on its electrochemical characteristics
Feng Y, Jiao LF, Yuan HT, Zhao M |
| 2330 - 2336 |
The effect of various factors on the hydrogen generation by hydrolysis reaction of potassium borohydride
Sahin O, Dolas H, Oezdemir M |
| 2337 - 2343 |
Generation of hydrogen from magnesium alloy scraps catalyzed by platinum-coated titanium net in NaCl aqueous solution
Uan JY, Cho CY, Liu KT |
| 2344 - 2358 |
Modeling and simulation of methane steam reforming in a thermally coupled membrane reactor
Patel KS, Sunol AK |
| 2359 - 2366 |
Experimental studies of pure hydrogen production in a commercialized fluidized-bed membrane reactor with SMR and ATR catalysts
Chen ZX, Grace JR, Lim CJ, Li AW |
| 2367 - 2373 |
Hydrogen production from steam reforming of ethanol and glycerol over ceria-supported metal catalysts
Zhang BC, Tang XL, Li Y, Xu YD, Shen WJ |
| 2374 - 2381 |
Hydrogen production by methanol reforming in supercritical water: Catalysis by in-situ-generated copper nanoparticles
Gadhe JB, Gupta RB |
| 2382 - 2389 |
Influence of transient operating conditions on pressure-concentration isotherms and storage characteristics of hydriding alloys
Kumar EA, Maiya MP, Murthy SS |
| 2390 - 2399 |
Application of Mg-x wt% MmNi(5) (x=10-70) nanostructured composites in a hydrogen storage device
Vijay R, Sundaresan R, Maiya MP, Murthy SS |
| 2400 - 2407 |
Effect of Nb2O5 on MgH2 properties during mechanical milling
Aguey-Zinsou KF, Fernandez JRA, Klassen T, Bormann R |
| 2408 - 2411 |
Hydrogen storage in carbon/Mg nanocomposites synthesized by ball milling
Imamura H, Kitazawa I, Tanabe Y, Sakata Y |
| 2412 - 2416 |
Hydrogen storage properties of Mg76Ti12Fe12-xNix (x=0, 4, 8, 12) alloys by mechanical alloying
Guo J, Yang K, Xu LQ, Liu YX, Zhou KW |
| 2417 - 2421 |
Crystal defect analysis and surface characteristics of Mg2NiH4 produced by hydriding combustion synthesis
Liu DM, Zhu YF, Li LQ |
| 2422 - 2428 |
A preliminary study of some "pseudo-AB(2)" compounds: RENi4Mg with RE = La, Ce and Gd. Structural and hydrogen sorption properties
Bobet JL, Lesportes P, Roquefere JG, Chevalier B, Asano K, Sakaki K, Akiba E |
| 2429 - 2433 |
Hydrogen absorption in Ti45Zr35Ni17Cu3 amorphous and quasicrystalline alloy powders
Liu BZ, Liu DM, Wua YM, Li LQ, Wang LM |
| 2434 - 2438 |
Microstructure and electrochemical behavior of Cr-added V2.1TiNi0.4Zr0.06Cr0.152 hydrogen storage electrode alloy
Li L, Wang WJ, Fan XL, Jin XF, Wang H, Lei YQ, Wang QD, Chen LX |
| 2439 - 2444 |
Catalytic hydrogen storage in cerium nickel and zirconium (or aluminium) mixed oxides
Jalowiecki-Duhamel L, Carpentier J, Ponchel A |
| 2445 - 2449 |
Thermodynamics and structural aspects of hydrogen absorption in Zr1-xCrxFe2 alloys
Jain A, Jain RK, Agarwal S, Jain IP |
| 2450 - 2454 |
Hydriding characteristics of Mg2Ni prepared by mechanical milling of the product of hydriding combustion synthesis
Liu XF, Zhu YF, Li LQ |
| 2455 - 2460 |
Mechanism of the high activity of Mg2NiH4 produced by hydriding combustion synthesis based on the analysis of phase composition, particle characteristic and grain size
Liu DM, Zhu YF, Li LQ |
| 2461 - 2465 |
Improvement in hydrogen storage capacity in LaNi5 through substitution of Ni by Fe
Pandey SK, Srivastava A, Srivastava ON |
| 2466 - 2474 |
Ab initio investigation of FeTi-H system
Kinaci A, Aydinol MK |
| 2475 - 2479 |
The hydrogen storage properties and microstructure of Ti-doped sodium aluminum hydride prepared by ball-milling
Xiao XZ, Chen LX, Wang XH, Wang QD, Chen CP |
| 2480 - 2487 |
Hydrogen absorption and desorption properties of Hol(1-x)MM(x)Co(2) alloys
Srinivas G, Sankaranarayanan V, Ramaprabhu S |
| 2488 - 2493 |
Effect of Al and W substitution for Ni on the microstructure and electrochemical properties of La1.3CaMg0.7Ni9-x (Al0.5W0.5)(x) hydrogen storage alloys
Zhang P, Liu YN, Zhu JW, Wei XD, Yu G |
| 2494 - 2500 |
Characteristics of activation and anti-poisoning in an LmNi(4.8)Al(0.2) hydrogen storage alloy
Lin HC, Lin KM, Sung CW, Wu KC |
| 2501 - 2503 |
Synthesis of metal hydride from water
Saxena SK, Drozd V, Durygin A |
| 2504 - 2512 |
Investigation of hydrogen storage capacity of various carbon materials
Xu WC, Takahashi K, Matsuo Y, Hattori Y, Kumagai M, Ishiyama S, Kaneko K, Iijima S |
| 2513 - 2517 |
The mechanism of hydrogen storage in carbon materials
Li Y, Zhao DL, Wang YT, Xue RS, Shen ZM, Li XG |
| 2518 - 2526 |
Palladium dispersed multiwalled carbon nanotube based hydrogen sensor for fuel cell applications
Kumar MK, Ramaprabhu S |
| 2527 - 2531 |
Fuel cells and odorants for hydrogen
Kopasz JP |
| 2532 - 2538 |
Performance of a spark ignition engine fuelled with reformate gas produced on-board vehicle
Galloni E, Minutillo M |
| 2539 - 2547 |
Computational combustion and emission analysis of hydrogen-diesel blends with experimental verification
Masood M, Ishrat MM, Reddy AS |
| 2548 - 2552 |
The upper flammability limit of methane/hydrogen/air mixtures at elevated pressures and temperatures
Van den Schoor F, Verplaetsen F |
| 2553 - 2566 |
Hydrogen fuel in a marine environment
Veldhuis IJS, Richardson RN, Stone HBJ |
| 2567 - 2572 |
Experimental research on refrigeration characteristics of a metal hydride heat pump in auto air-conditioning
Ni HJ, Liu HM |
| 2573 - 2584 |
Catalysis of atomic hydrogen to novel hydrogen species H-(1/4) and H-2(1/4) as a new power source
Mills R, He J, Chang Z, Good W, Lu Y, Dhandapani B |
| 2585 - 2592 |
Characterization of the effects of hydrogen addition in premixed methane/air flames
Halter F, Chauveau C, Gokalp I |
| 2593 - 2597 |
Hydrogen charging/discharging system with liquid organic compounds: A lacunar oxide catalyst to hydrogenate the unsaturated organic compound
Jalowiecki-Duhamel L, Carpentier J, Payen E, Heurtaux F |
| 2598 - 2601 |
The development of silver nanoclusters in ion-exchanged soda-lime silicate glasses
Sheng JW, Li J, Yu J |
| 2602 - 2605 |
Photo-induced and controlled synthesis of silver nanocluster in soda-lime silicate glass
Sheng JW |
