| 1903 - 1912 |
Polycarbazole as an efficient promoter for electrocatalytic oxidation of formic acid on Pt and Pt-Ru nanoparticles
Zhou WQ, Xu JK, Du YK, Yang P |
| 1913 - 1923 |
Fabrication and characterization of non-platinum electrocatalyst for methanol oxidation in alkaline medium: Nickel nanoparticles modified carbon-ceramic electrode (Retracted article. See vol. 36, pg. 13866, 2011)
Habibi B, Gahramanzadeh R |
| 1924 - 1929 |
Printed Co3O4 film as an electrocatalyst for hydrogen production by a monolithic photovoltaic-electrolysis system
Jeon HS, Park W, Kim J, Kim H, Kim W, Min BK |
| 1930 - 1938 |
Preparation of a CO-tolerant PtRu(x)Sn(y)/C electrocatalyst with an optimal Ru/Sn ratio by selective Sn-deposition on the surfaces of Pt and Ru
Yoo JS, Kim HT, Joh HI, Kim H, Moon SH |
| 1939 - 1948 |
Carbon nanotube supported Pt-Ni catalysts for preferential oxidation of CO in hydrogen-rich gases
Lu SH, Zhang C, Liu YA |
| 1949 - 1954 |
Ti/PbO(2) + nano-Co(3)O(4) composite electrode material for electrocatalysis of O(2) evolution in alkaline solution
Dan YY, Lu HY, Liu XL, Lin HB, Zhao JZ |
| 1955 - 1959 |
Novel highly efficient alumina-supported cobalt nitride catalyst for preferential CO oxidation at high temperatures
Yao ZW, Zhang XH, Peng F, Yu H, Wang HJ, Yang JA |
| 1960 - 1964 |
Hydrogen evolution reaction on single crystal WO(3)/C nanoparticles supported on carbon in acid and alkaline solution
Zheng HT, Mathe M |
| 1965 - 1973 |
Fe-Mo-R (R = rare earth metal) crystalline alloys as a cathode material for hydrogen evolution reaction in alkaline solution
Rosalbino F, Maccio D, Saccone A, Angelini E, Delfino S |
| 1974 - 1983 |
A micro reforming system integrated with a heat-recirculating micro-combustor to produce hydrogen from ammonia
Kim JH, Kwon OC |
| 1984 - 1990 |
Carbon-supported Ni(1-x)@Pt(x) (x=0.32, 0.43, 0.60, 0.67, and 0.80) core-shell nanoparticles as catalysts for hydrogen generation from hydrolysis of ammonia borane
Yang XJ, Cheng FY, Liang J, Tao ZL, Chen J |
| 1991 - 1997 |
Determination of the heat evolved during sodium borohydride hydrolysis catalyzed by Co(3)O(4)
Damjanovic L, Majchrzak M, Bennici S, Auroux A |
| 1998 - 2006 |
Hydrogel assisted nickel nanoparticle synthesis and their use in hydrogen production from sodium boron hydride
Ozay O, Aktas N, Inger E, Sahiner N |
| 2007 - 2013 |
Bunsen reaction and hydriodic phase purification in the sulfur-iodine process: An experimental investigation
Parisi M, Giaconia A, Sau S, Spadoni A, Caputo G, Tarquini P |
| 2014 - 2028 |
Ferrite/zirconia-coated foam device prepared by spin coating for solar demonstration of thermochemical water-splitting
Gokon N, Kodama T, Imaizumi N, Umeda J, Seo T |
| 2029 - 2037 |
Ethanol steam reforming reaction in a porous stainless steel supported palladium membrane reactor
Basile A, Pinacci P, Iulianelli A, Broglia M, Drago F, Liguori S, Longo T, Calabro V |
| 2038 - 2043 |
Steam gasification of energy crops of high cultivation potential in Poland to hydrogen-rich gas
Howaniec N, Smolinski A |
| 2044 - 2048 |
A truncated antenna mutant of Chlamydomonas reinhardtii can produce more hydrogen than the parental strain
Kosourov SN, Ghirardi ML, Seibert M |
| 2049 - 2056 |
Hydrogen gas production from waste anaerobic sludge by electrohydrolysis: Effects of applied DC voltage
Kargi F, Catalkaya EC, Uzuncar S |
| 2057 - 2075 |
Hydrogen production by sorption enhanced steam reforming of oxygenated hydrocarbons (ethanol, glycerol, n-butanol and methanol): Thermodynamic modelling
da Silva AL, Muller IL |
| 2076 - 2085 |
Enhancement of aromatic production in naphtha reforming process by simultaneous operation of isothermal and adiabatic reactors
Iranshahi D, Pourazadi E, Paymooni K, Rahimpour MR |
| 2086 - 2092 |
Revivability of fermentative hydrogen producing bioreactors
Baghchehsaraee B, Nakhla G, Karamanev D, Margaritis A |
| 2093 - 2101 |
Microwave-assisted alkali pretreatment of rice straw to promote enzymatic hydrolysis and hydrogen production in dark- and photo-fermentation
Cheng J, Su HB, Zhou JH, Song WL, Cen KF |
| 2102 - 2110 |
Modeling fermentative hydrogen production from sucrose supplemented with dairy manure
Perera KRJ, Nirmalakhandan N |
| 2111 - 2117 |
Thermophilic dark fermentation of acid hydrolyzed waste ground wheat for hydrogen gas production
Ozmihci S, Kargi F, Cakir A |
| 2118 - 2127 |
An alternative process for gasoline fuel processors
Kale GR, Kulkarni BD |
| 2128 - 2136 |
Effect of Co-Ni ratio on the activity and stability of Co-Ni bimetallic aerogel catalyst for methane Oxy-CO2 reforming
Chen L, Zhu QS, Wu RF |
| 2137 - 2144 |
Enhanced dehydrogenation/hydrogenation kinetics of the Mg(NH(2))(2)-2LiH system with NaOH additive
Liang C, Liu YF, Wei ZJ, Jiang Y, Wu F, Gao MX, Pan HG |
| 2145 - 2153 |
Improved hydrogen storage capacity through hydrolysis of solid NaBH(4) catalyzed with cobalt boride
Delmas J, Laversenne L, Rougeaux I, Capron P, Garron A, Bennici S, Swierczynski D, Auroux A |
| 2154 - 2164 |
The influence of Cu substitution on the hydrogen sorption properties of magnesium rich Mg-Ni films
Tan X, Danaie M, Kalisvaart WP, Mitlin D |
| 2165 - 2169 |
Effect of iron on the hydriding properties of the Mg(6)Pd hydrogen storage system
Roquefere JG, Lang J, Yonkeu A, Dufour J, Huot J |
| 2170 - 2176 |
Hydrogen storage properties of Mg-23.5Ni-xCu prepared by rapid solidification process and crystallization heat treatment
Hong SH, Bae JS, Kwon SN, Song MY |
| 2177 - 2183 |
Preparation and characterization of a modified montmorillonite/sulfonated polyphenylether sulfone/PTFE composite membrane
Xing DM, He GH, Hou ZJ, Ming PW, Song SF |
| 2184 - 2189 |
Preparation of Cr-based multilayer coating on stainless steel as bipolar plate for PEMFCs by magnetron sputtering
Zhang DM, Guo L, Duan LT, Tuan WH |
| 2190 - 2196 |
Maximum equivalent efficiency and power output of a PEM fuel cell/refrigeration cycle hybrid system
Zhang XQ, Chen XH, Lin BH, Chen JC |
| 2197 - 2206 |
Considerations of the morphology in the design of proton exchange membranes: Cross-linked sulfonated poly(ether ether ketone)s using a new carboxyl-terminated benzimidazole as the cross-linker for PEMFCs
Han MM, Zhang G, Li MY, Wang SA, Zhang Y, Li HT, Lew CM, Na H |
| 2207 - 2212 |
High-density plasma nitriding of AISI 316L for bipolar plate in proton exchange membrane fuel cell
Hong W, Han DH, Choi H, Kim MW, Lee JJ |
| 2213 - 2220 |
Development of gas diffusion electrodes for low relative humidity proton exchange membrane fuel cells
Huang YF, Kannan AM, Chang CS, Lin CW |
| 2221 - 2229 |
Ionomer content in the catalyst layer of polymer electrolyte membrane fuel cell (PEMFC): Effects on diffusion and performance
Suzuki A, Sen U, Hattori T, Miura R, Nagumo R, Tsuboi H, Hatakeyama N, Endou A, Takaba H, Williams MC, Miyamoto A |
| 2230 - 2236 |
Effect of design and operating parameters on dynamic response of a micro direct methanol fuel cell
Zhang YF, He H, Yuan ZY, Wang SB, Liu XW |
| 2237 - 2249 |
Operational characteristics of a passive air-breathing direct methanol fuel cell under various structural conditions
Yuan W, Tang Y, Wan ZP, Pan MQ |
| 2250 - 2257 |
Wormholelike mesoporous carbons as the support for Pt(2)Sn(1) towards ethanol electrooxidation: Effect of pore diameter
Liu JC, Li ZH, He CX, Fu RW, Wu DC, Song SQ |
| 2258 - 2265 |
Nitrogen-doped carbon nanotubes with high activity for oxygen reduction in alkaline media
Li H, Liu H, Jong Z, Qu W, Geng DS, Sun XL, Wang HJ |
| 2266 - 2270 |
Electrical conductivity and electrochemical performance of cobalt-doped BaZr(0.1)Ce(0.7)Y(0.2)O(3-delta) cathode
Yang L, Wang SZ, Lou XY, Liu ML |
| 2271 - 2280 |
Synergistic interaction of biocatalyst with bio-anode as a function of electrode materials
Srikanth S, Pavani T, Sarma PN, Mohan SV |
| 2281 - 2284 |
High-flux H-2 separation membranes from (Pd/Au)(n) nanolayers
Shi L, Goldbach A, Xu HY |
| 2285 - 2290 |
Calorimetric properties of C14 and C15 YMn2 and YMn2(H,D)(6)
Liu RS, Baginskiy I, Kuo HT, Filipek SM, Wierzbicki R, Sato R, Tsvyashchenko AV, Fomicheva L, Wu HH, Tsai CB, Yang CC, Asmatulu R, Ho JC, Chen YY |
| 2291 - 2301 |
Influence of sandblasting and hydrogen on tensile and fatigue properties of pipeline API 5L X52 steel
Alhussein A, Capelle J, Gilgert J, Dominiak S, Azari Z |
| 2302 - 2312 |
Large-scale hydrogen release in an isothermal confined area
Lacome JM, Jamois D, Perrette L, Proust CH |
| 2313 - 2319 |
Room temperature sensing properties of networked GaN nanowire sensors to hydrogen enhanced by the Ga(2)Pd(5) nanodot functionalization
Kim SS, Park JY, Choi SW, Kim HS, Na HG, Yang JC, Lee C, Kim HW |
| 2320 - 2322 |
Comments on: "CFD analysis on the influence of helical carving in a vortex flow solar reactor" by N. Ozalp and D. JayaKrishna (Int. J. Hydrogen Energy 2010: 35, 6248-6260) Discussion
Saqr KM |
| 2323 - 2326 |
Response to the comments made by Khalid M. Saqr on our paper titled "CFD analysis on the influence of helical carving in a vortex flow solar reactor", Int. J. Hydrogen Energ. 2010: 35, 6248-6260. Discussion
Devanuri J, Ozalp N |
| 2327 - 2328 |
Editorial for ICHS3 special issue
Carcassi MN |
| 2329 - 2336 |
Vented explosion overpressures from combustion of hydrogen and hydrocarbon mixtures
Bauwens CR, Chaffee J, Dorofeev SB |
| 2337 - 2343 |
Vented confined explosions involving methane/hydrogen mixtures
Lowesmith BJ, Mumby C, Hankinson G, Puttock JS |
| 2344 - 2350 |
Statistical analysis of electrostatic spark ignition of lean H-2/O-2/Ar mixtures
Bane SPM, Shepherd JE, Kwon E, Day AC |
| 2351 - 2359 |
The structure and flame propagation regimes in turbulent hydrogen jets
Veser A, Kuznetsov M, Fast G, Friedrich A, Kotchourko N, Stern G, Schwall M, Breitung W |
| 2360 - 2366 |
Visualisation of jet fires from hydrogen release
Deimling L, Weiser V, Blanc A, Eisenreich N, Billeb G, Kessler A |
| 2367 - 2373 |
High pressure hydrogen fires
Proust C, Jamois D, Studer E |
| 2374 - 2380 |
Shock-induced ignition with single step Arrhenius kinetics
Melguizo-Gavilanes J, Rezaeyan N, Tian M, Bauwens L |
| 2381 - 2388 |
Development of uniform harm criteria for use in quantitative risk analysis of the hydrogen infrastructure
LaChance J, Tchouveleu A, Engebo A |
| 2389 - 2397 |
Risk modelling of a hydrogen refuelling station using Bayesian network
Haugom GP, Friis-Hansen P |
| 2398 - 2406 |
Risk assessment of hydrogen explosion for private car with hydrogen-driven engine
Rodionou A, Wilkening H, Moretto P |
| 2407 - 2413 |
Challenges to improve confidence level of risk assessment of hydrogen technologies
Pasman HJ |
| 2414 - 2425 |
Experimental studies on wind influence on hydrogen release from low pressure pipelines
Mattei N, Schiavetti M, Carcassi MN |
| 2426 - 2435 |
Ignitability limits for combustion of unintended hydrogen releases: Experimental and theoretical results
Schefer RW, Evans GH, Zhang J, Ruggles AJ, Greif R |
| 2436 - 2444 |
Experimental study of hydrogen release accidents in a vehicle garage
Merilo EG, Groethe MA, Colton JD, Chiba S |
| 2445 - 2454 |
Hydrogen release and atmospheric dispersion: Experimental studies and comparison with parametric simulations
Ganci F, Carpignano A, Mattei N, Carcassi MN |
| 2455 - 2461 |
The interaction of hydrogen jet releases with walls and barriers
Willoughby DB, Royle M |
| 2462 - 2470 |
An overview of hydrogen safety sensors and requirements
Buttner WJ, Post MB, Burgess R, Rivkin C |
| 2471 - 2477 |
Environmental exposure of 2LiBH(4)+ MgH2 using empirical and theoretical thermodynamics
James CW, Tamburello DA, Brinkman KS, Gray JR, Hardy BJ, Anton DL |
| 2478 - 2488 |
Natural and forced ventilation study in an enclosure hosting a fuel cell
Cerchiara GM, Mattei N, Schiavetti M, Carcassi MN |
| 2489 - 2496 |
Experimental results on the dispersion of buoyant gas in a full scale garage from a complex source
Cariteau B, Brinster J, Studer E, Tkatschenko I, Joncquet G |
| 2497 - 2504 |
Experimental study of ignited unsteady hydrogen jets into air
Grune J, Sempert K, Kuznetsov M, Breitung W |
| 2505 - 2512 |
Experiments on the distribution of concentration due to buoyant gas low flow rate release in an enclosure
Cariteau B, Brinster J, Tkatschenko I |
| 2513 - 2519 |
Influence of temperature on the fatigue strength of compressed-hydrogen tanks for vehicles
Tomioka J, Kiguchi K, Tamura Y, Mitsuishi H |
| 2520 - 2529 |
A study of barrier walls for mitigation of unintended releases of hydrogen
Houf WG, Evans GH, Schefer RW, Merilo E, Groethe M |
| 2530 - 2537 |
Experimental investigation of hydrogen jet fire mitigation by barrier walls
Schefer RW, Merilo EG, Groethe MA, Houf WG |
| 2538 - 2544 |
Numerical simulation of large scale hydrogen detonation
Heidari A, Ferraris S, Wen JX, Tam VHY |
| 2545 - 2554 |
Hydrogen release from a high pressure gaseous hydrogen reservoir in case of a small leak
Xiao J, Travis JR, Breitung W |
| 2555 - 2559 |
Numerical simulation of the laminar hydrogen flame in the presence of a quenching mesh
Kudriakov S, Studer E, Bin C |
| 2560 - 2566 |
Mechanism of high-pressure hydrogen auto-ignition when spouting into air
Yamada E, Kitabayashi N, Hayashi AK, Tsuboi N |
| 2567 - 2572 |
Numerical investigation of the flammable extent of semi-confined hydrogen and methane jets
Hourri A, Angers B, Benard P, Tchouvelev A, Agranat V |
| 2573 - 2581 |
Consequence assessment of the BBC H-2 refuelling station using the ADREA-HF code
Papanikolaou E, Venetsanos AG, Schiavetti M, Marangon A, Carcassi M, Markatos N |
| 2582 - 2588 |
Modelling and numerical simulation of permeated hydrogen dispersion in a garage with adiabatic walls and still air
Saffers JB, Makarov D, Molkov VV |
| 2589 - 2596 |
Physics of spontaneous ignition of high-pressure hydrogen release and transition to jet fire
Bragin MV, Molkov VV |
| 2597 - 2605 |
CFD simulations on small hydrogen releases inside a ventilated facility and assessment of ventilation efficiency
Papanikolaou E, Venetsanos AG, Cerchiara GM, Carcassi M, Markatos N |
| 2606 - 2612 |
Numerical investigations on the fast filling of hydrogen tanks
Heitsch M, Baraldi D, Moretto P |
| 2613 - 2619 |
A comparison exercise on the CFD detonation simulation in large-scale confined volumes
Yanez J, Kotchourko A, Lelyakin A, Gavrikov A, Efimenko A, Zbikowski M, Makarov D, Molkov V |
| 2620 - 2627 |
Validation of CFD modelling of LH2 spread and evaporation against large-scale spill experiments
Middha P, Ichard M, Arntzen BJ |
| 2628 - 2636 |
Can the addition of hydrogen to natural gas reduce the explosion risk?
Middha P, Engel D, Hansen OR |
| 2637 - 2644 |
The effect of an obstacle plate on the spontaneous ignition in pressurized hydrogen release: A numerical study
Xu BP, Wen JX, Tam VHY |
| 2645 - 2655 |
Numerical and experimental investigation of buoyant gas release: Application to hydrogen jets
Chernyavsky B, Wu TC, Peneau F, Benard P, Oshkai P, Djilali N |
| 2656 - 2665 |
Achievements of the EC network of excellence HySafe
Thomas J, Paul A, Inaki A, Daniele B, Herve B, Luc B, Alain B, Sile B, Marco C, Arief D, Norbert E, Angunn E, Espen F, Eduardo G, Andrey G, Erling H, Marit HA, Petra HG, Stuart H, Olaf J, Armin K, Alexei K, Suresh K, Gesa L, Stefan L, Alexander L, Dmitriy M, Alessia M, Frank M, Prankul M, Vladimir M, Sandra N, Efthymia P, Lionel P, Ernst-Arendt R, Ulrich S, Pierre SC, Michael S, Aurelie S, Andrzej T, Delphine T, Alexander V, Karl V, Nico V, Ana V, Manfred W, Nikolay Z |
| 2666 - 2677 |
Benchmark exercise on risk assessment methods applied to a virtual hydrogen refuelling station
Ham K, Marangon A, Middha P, Versloot N, Rosmuller N, Carcassi M, Hansen OR, Schiavetti M, Papanikolaou E, Venetsanos A, Engebo A, Saw JL, Saffers JB, Flores A, Serbanescu D |
| 2678 - 2687 |
Hyper experiments on catastrophic hydrogen releases inside a fuel cell enclosure
Friedrich A, Veser A, Stern G, Kotchourko N |
| 2688 - 2692 |
Consequences of catastrophic releases of ignited and unignited hydrogen jet releases
Royle M, Willoughby DB |
| 2693 - 2699 |
On the use of hydrogen in confined spaces: Results from the internal project InsHyde
Venetsanos AG, Adams P, Azkarate I, Bengaouer A, Brett L, Carcassi MN, Engebo A, Gallego E, Gavrikov AI, Hansen OR, Hawksworth S, Jordan T, Kessler A, Kumar S, Molkov V, Nilsen S, Reinecke E, Stocklin M, Schmidtchen U, Teodorczyk A, Tigreat D, Versloot NHA |
| 2700 - 2710 |
Integration of experimental facilities: A joint effort for establishing a common knowledge base in experimental work on hydrogen safety
Reinecke EA, Huebert T, Tkatschenko I, Kessler A, Kuznetsov M, Wilkins M, Hedley D, Azkarate I, Proust C, Acosta-Iborra B, Gavrikov B, De Bruijn PCJ, Marangon A, Teodorczyk A, Grafwallner A |
| 2711 - 2720 |
Hydrogen and fuel cell stationary applications: Key findings of modelling and experimental work in the HYPER project
Brennan S, Bengaouer A, Carcassi M, Cerchiara G, Evans G, Friedrich A, Gentilhomme O, Houf W, Kotchourko A, Kotchourko N, Kudriakov S, Makarov D, Molkov V, Papanikolaou E, Pitre C, Royle M, Schefer R, Stern G, Venetsanos AG, Veser A, Willoughby D, Yanez J |
| 2721 - 2728 |
High-pressure PEM water electrolysis and corresponding safety issues
Grigoriev SA, Porembskiy VI, Korobtsev SV, Fateev VN, Aupretre F, Millet P |
| 2729 - 2735 |
Using hydrogen safety best practices and learning from safety events
Weiner SC, Fassbender LL, Quick KA |
| 2736 - 2741 |
A national set of hydrogen codes and standards for the United States
Rivkin C, Blake C, Burgess R, Buttner WJ, Post MB |
| 2742 - 2749 |
Allowable hydrogen permeation rate from road vehicles
Adams P, Bengaouer A, Cariteau B, Molkov V, Venetsanos AG |
| 2750 - 2758 |
Effects of pressure and purity on the hydrogen embrittlement of steels
Barthelemy H |
