| 19855 - 19868 |
Off-grid solar-hydrogen generation by passive electrolysis
Scamman D, Bustamante H, Hallett S, Newborough M |
| 19869 - 19876 |
Mathematical modeling of an anion-exchange membrane water electrolyzer for hydrogen production
An L, Zhao TS, Chai ZH, Tan P, Zeng L |
| 19877 - 19886 |
A hydrothermal route for constructing reduced graphene oxide/TiO2 nanocomposites: Enhanced photocatalytic activity for hydrogen evolution
Li H, Cui XL |
| 19887 - 19898 |
Organic molecule-functionalized Zn3P2 nanowires for photochemical H-2 production: DFT and experimental analyses
Ramos-Sanchez G, Albornoz M, Yu YH, Cheng Z, Vasiraju V, Vaddiraju S, El Mellouhi F, Balbuena PB |
| 19899 - 19904 |
Hydration treatments increase the biodegradability of native wheat straw for hydrogen production by a microbial consortium
Lara-Vazquez AR, Sanchez A, Valdez-Vazquez I |
| 19905 - 19911 |
Hydrogen production from biogas reforming and the effect of H2S on CH4 conversion
Chattanathan SA, Adhikari S, McVey M, Fasina O |
| 19912 - 19920 |
Optimization of high-solid waste activated sludge concentration for hydrogen production in microbial electrolysis cells and microbial community diversity analysis
Sun R, Xing DF, Jia JN, Liu Q, Zhou AJ, Bai SW, Ren NQ |
| 19921 - 19927 |
Biohydrogen production from pretreated corn cobs
Nasr N, Gupta M, Elbeshbishy E, Hafez H, El Naggar MH, Nakhla G |
| 19928 - 19936 |
Characterization on hydrogen production performance of a newly isolated Clostridium beijerinckii YA001 using xylose
An D, Li Q, Wang XQ, Yang HH, Guo LJ |
| 19937 - 19946 |
Batch fermentative hydrogen production utilising sago (Metroxylon sp.) starch processing effluent by enriched sago sludge consortia
Yunus N, Jahim JM, Anuar N, Abdullah SRS, Kofli NT |
| 19947 - 19954 |
Influence of NaOH and Ni catalysts on hydrogen production from the supercritical water gasification of dewatered sewage sludge
Gong M, Zhu W, Zhang HW, Ma Q, Su Y, Fan YJ |
| 19955 - 19969 |
Use of heavy fraction of bio-oil as fuel for hydrogen production in iron-based chemical looping process
Xiao R, Zhang S, Peng SH, Shen DK, Liu KL |
| 19970 - 19981 |
Study of different designs of methanol steam reformers: Experiment and modeling
Ribeirinha P, Boaventura M, Lopes JCB, Sousa JM, Mendes A |
| 19982 - 19989 |
Effective hydrolysis of ammonia borane catalyzed by ruthenium nanoparticles immobilized on graphic carbon nitride
Fan YR, Li XJ, He XC, Zeng CM, Fan GY, Liu QQ, Tang DM |
| 19990 - 19999 |
Experimental study of hydrogen production from reforming of methane and ammonia assisted by Laval nozzle arc discharge
Lu SY, Chen L, Du CM, Sun XM, Li XD, Yan JH |
| 20000 - 20008 |
Effect of oxygen on the microstructure and hydrogen storage properties of V-Ti-Cr-Fe quaternary solid solutions
Ulmer U, Asano K, Bergfeldt T, Chakrauadhanula VSK, Dittmeyer R, Enoki H, Kubel C, Nakamura Y, Pohl A, Fichtner M |
| 20009 - 20016 |
Thermal design analysis of a 1 L cryogenic liquid hydrogen tank for an unmanned aerial vehicle
Kang H, Kim SY |
| 20017 - 20023 |
First-principles predictions of potential hydrogen storage materials: Novel sandwich-type ethylene dimetallocene complexes
Han Y, Meng Y, Zhu HY, Jiang ZY, Lei YB, Suo BB, Lin YM, Wen ZY |
| 20024 - 20030 |
Polymorphism and hydrogen discharge from holmium borohydride, Ho(BH4)3, and KHo(BH4)(4)
Wegner W, Jaron T, Grochala W |
| 20031 - 20037 |
Room temperature hydrogen generation from hydrolysis of ammonia borane over an efficient NiAgPd/C catalyst
Hu L, Zheng B, Lai ZP, Huang KW |
| 20038 - 20044 |
Effects of TiCl3-decorated MWCNTs addition on the dehydrogenation behavior and stability of LiAlH4
Tan CY, Tsai WT |
| 20045 - 20053 |
Hydrogen storage characteristics of magnesium impregnated on the porous channels of activated charcoal scaffold
Pukazhselvan D, Capurso G, Maddalena A, Lo Russo S, Fagg DP |
| 20054 - 20061 |
Hydrogen trapping in carbon film: From laboratories studies to tokamak applications
Hodille EA, Begrambekov LB, Pascal JY, Saidi O, Layet JM, Pegourie B, Grisolia C |
| 20062 - 20071 |
Effects of tritium content on lattice parameter, He-3 retention, and structural evolution during aging of titanium tritide
Zhou XS, Liu Q, Zhang L, Peng SM, Long XG, Ding W, Cheng GJ, Wang WD, Liang JH, Fu YQ |
| 20072 - 20093 |
Computational study of Pd-membrane CH4 steam reformer with fixed catalyst bed: Searching for a way to increase membrane efficiency
Shigarov A, Kirillov V, Landgraf I |
| 20094 - 20104 |
Hydrogen recovery from the purge stream of a cyclohexane production process using a mass exchange heuristic
Fischer CD, Iribarren OA |
| 20105 - 20115 |
Influence of pH value on the structure and electronic property of the passive film on 316L SS in the simulated cathodic environment of proton exchange membrane fuel cell (PEMFC)
Li DG, Wang JD, Chen DR |
| 20116 - 20126 |
Diagnosis of hydrogen crossover and emission in proton exchange membrane fuel cells
Mousa G, DeVaal J, Golnaraghi F |
| 20127 - 20138 |
Thermal management of high temperature polymer electrolyte membrane fuel cell stacks in the power range of 1-10 kWe
Reddy EH, Jayanti S, Monder DS |
| 20139 - 20150 |
Efficiency improvement of a PEMFC system by applying a turbocharger
Kim DK, Seo JH, Kim S, Lee MK, Nam KY, Song HH, Kim MS |
| 20151 - 20158 |
Use of graphene-supported manganite nano-composites for methanol electrooxidation
Sharma CS, Sinha ASK, Singh RN |
| 20159 - 20170 |
Application of electrochemical impedance spectroscopy in bio-fuel cell characterization: A review
Kashyap D, Dwivedi PK, Pandey JK, Kim YH, Kim GM, Sharma A, Goel S |
| 20171 - 20182 |
A novel cathode catalyst for aluminum-air fuel cells: Activity and durability of polytetraphenylporphyrin iron (II) absorbed on carbon black
Xu SH, Li ZF, Ji YF, Wang SW, Yin XY, Wang YX |
| 20183 - 20189 |
Effect of Au, Ag and Cu thin films' thickness on the electrical parameters of metal-porous silicon direct hydrogen fuel cell
Oruc C, Guler S |
| 20190 - 20196 |
Transition metal atom embedded graphene for capturing CO: A first-principles study
Wang L, Luo QQ, Zhang WH, Yang JL |
| 20197 - 20206 |
Tube-trailer consolidation strategy for reducing hydrogen refueling station costs
Elgowainy A, Reddi K, Sutherland E, Joseck F |
| 20207 - 20215 |
Parametric study of a laser ignited hydrogen-air mixture in a constant volume combustion chamber
Dharamshi K, Agarwal AK |
| 20216 - 20232 |
Direct numerical simulation of lean premixed CH4/air and H-2/air flames at high Karlovitz numbers
Carlsson H, Yu RX, Bai XS |
| 20233 - 20241 |
Influence of precessing vortex core on flame flashback in swirling hydrogen flames
Schonborn A, Sayad P, Klingmann J |
| 20242 - 20254 |
Turbulent flame speed for hydrogen-rich fuel gases at gas turbine relevant conditions
Lin YC, Jansohn P, Boulouchos K |
| 20255 - 20265 |
Influence of fuel composition on chemiluminescence emission in premixed flames of CH4/CO2/H-2/CO blends
Garcia-Armingol T, Ballester J |
| 20266 - 20275 |
Assessment of CO2 capture options from various points in steam methane reforming for hydrogen production
Soltani R, Rosen MA, Dincer I |
| 20276 - 20293 |
A Taguchi-fuzzy based multi-objective optimization study on the soot-NOx-BTHE characteristics of an existing CI engine under dual fuel operation with hydrogen
Deb M, Majumder A, Banerjee R, Sastry GRK, Bose PK |
| 20294 - 20304 |
Reliability of hydrogen sensing based on bimetallic Ni-Pd/graphene composites
Phan DT, Chung GS |
| 20305 - 20312 |
Microstructure change and deuterium permeation behavior of the yttrium oxide coating prepared by MOCVD
Wu YY, He D, Li S, Liu XP, Wang SM, Jiang LJ |
| 20313 - 20318 |
Hydrogen sensing characteristics of Pd/SiO2-nanoparticles (NPs)/AlGaN metal-oxide-semiconductor (MOS) diodes
Chou PC, Chen HI, Liu IP, Chen CC, Liou JK, Lai CJ, Liu WC |
| 20319 - 20323 |
The isentropic expansion energy of compressed and cryogenic hydrogen
Petitpas G, Aceves SM |
| 20324 - 20324 |
5th International Conference on Hydrogen Safety (ICHS 2013) Preface
Carcassi MN |
| 20325 - 20330 |
Large scale passive ventilation trials of hydrogen
Hedley D, Hawksworth SJ, Rattigan W, Brentnall R, Allen J |
| 20331 - 20338 |
Experimental investigation of nozzle aspect ratio effects on underexpanded hydrogen jet release characteristics
Ruggles AJ, Ekoto IW |
| 20339 - 20349 |
Effectiveness of a blower in reducing the hazard of hydrogen leaking from a hydrogen-fueled vehicle
Tamura Y, Takeuchi M, Sato K |
| 20350 - 20356 |
CFD based simulation of hydrogen release through elliptical orifices
Shishehgaran N, Paraschivoiu M |
| 20357 - 20361 |
Advancing the hydrogen safety knowledge base
Weiner SC |
| 20362 - 20370 |
Accident modelling and safety measure design of a hydrogen station
Al-shanini A, Ahmad A, Khan F |
| 20371 - 20377 |
Validation strategy for CFD models describing safety-relevant scenarios including LH2/GH(2) release and the use of passive auto-catalytic recombiners
Jakel C, Kelm S, Reinecke EA, Verfondern K, Allelein HJ |
| 20378 - 20387 |
Numerical simulation of auto-ignition induced by high-pressure hydrogen release with detailed reaction model: Fluid dynamic effect by diaphragm shape and boundary layer
Asahara M, Yokoyama A, Hayashi AK, Yamada E, Tsuboi N |
| 20388 - 20395 |
Experimental and numerical study on spontaneous ignition of hydrogen and hydrogen-methane jets in air
Rudy W, Dabkowski A, Teodorczyk A |
| 20396 - 20403 |
Experimental investigation of flame and pressure dynamics after spontaneous ignition in tube geometry
Grune J, Sempert K, Kuznetsov M, Jordan T |
| 20404 - 20410 |
Ignition of hydrogen/air mixtures by glancing mechanical impact
Averill AF, Ingram JM, Battersby P, Holborn PG, Nolan PF |
| 20411 - 20419 |
Risk analysis on mobile hydrogen refueling stations in Shanghai
Sun K, Pan XM, Li ZY, Ma JX |
| 20420 - 20425 |
Safety design of compressed hydrogen trailers with composite cylinders
Azuma M, Oimatsu K, Oyama S, Kamiya S, Igashira K, Takemura T, Takai Y |
| 20426 - 20433 |
What is an explosion?
Keller JO, Gresho M, Harris A, Tchouvelev AV |
| 20434 - 20439 |
Development of methods for evaluating hydrogen compatibility and suitability
Marchi CS, Somerday BP, Nibur KA |
| 20440 - 20446 |
Failure of PEM water electrolysis cells: Case study involving anode dissolution and membrane thinning
Grigoriev SA, Dzhus KA, Bessarabov DG, Millet P |
| 20447 - 20454 |
CFD modeling and consequence analysis of an accidental hydrogen release in a large scale facility
Bauwens CR, Dorofeev SB |
| 20455 - 20461 |
Experimental study of vented hydrogen deflagration with ignition inside and outside the vented volume
Schiavetti M, Marangon A, Carcassi M |
| 20462 - 20466 |
Vented hydrogen-air deflagration in a small enclosed volume
Rocourt X, Awamat S, Sochet I, Jallais S |
| 20467 - 20473 |
Rayleigh-Taylor instability: Modelling and effect on coherent deflagrations
Keenan JJ, Makarov DV, Molkov VV |
| 20474 - 20483 |
Developments in gas sensor technology for hydrogen safety
Hubert T, Boon-Brett L, Palmisano V, Bader MA |
| 20484 - 20490 |
An assessment on the quantification of hydrogen releases through oxygen displacement using oxygen sensors
Buttner WJ, Burgess R, Rivkin C, Post MB, Boon-Brett L, Palmisano V, Moretto P |
| 20491 - 20496 |
Evaluation of selectivity of commercial hydrogen sensors
Palmisano V, Boon-Brett L, Bonato C, Harskamp F, Buttner WJ, Post MB, Burgess R, Rivkin C |
| 20497 - 20502 |
Preliminary results of the feasibility of hydrogen detection by the use of uncoated silicon microcantilever-based sensors
Boudjiet MT, Cuisset V, Pellet C, Bertrand J, Dufour I |
| 20503 - 20508 |
The effect of tube internal geometry on the propensity to spontaneous ignition in pressurized hydrogen release
Xu BP, Wen JX |
| 20509 - 20515 |
Effect of initial turbulence on vented explosion overpressures from lean hydrogen-air deflagrations
Bauwens CR, Dorofeev SB |
| 20516 - 20521 |
Safety issues of the liquefaction, storage and transportation of liquid hydrogen: An analysis of incidents and HAZIDS
Lowesmith BJ, Hankinson G, Chynoweth S |
| 20522 - 20530 |
Slow burst testing of samples as a method for quantification of composite cylinder degradation
Mair GW, Hoffmann M, Scherer F, Schoppa A, Szczepaniak M |
| 20531 - 20537 |
JRC reference data from experiments of on-board hydrogen tanks fast filling
Acosta B, Moretto P, de Miguel N, Ortiz R, Harskamp F, Bonato C |
| 20538 - 20546 |
CFD modeling of hydrogen deflagration in a tunnel
Tolias IC, Venetsanos AG, Markatos N, Kiranoudis CT |
| 20547 - 20553 |
Ignited releases of liquid hydrogen: Safety considerations of thermal and overpressure effects
Hall JE, Hooker P, Willoughby D |
| 20554 - 20559 |
Ignition of hydrogen jet fires from high pressure storage
Kessler A, Schreiber A, Wassmer C, Deimling L, Knapp S, Weiser V, Sachsenheimer K, Langer G, Eisenreich N |
| 20560 - 20569 |
Predicting radiative characteristics of hydrogen and hydrogen/methane jet fires using FireFOAM
Wang CJ, Wen JX, Chen ZB, Dembele S |
| 20570 - 20577 |
Updated jet flame radiation modeling with buoyancy corrections
Ekoto IW, Ruggles AJ, Creitz LW, Li JX |
| 20578 - 20584 |
Dependence of hydrogen embrittlement on hydrogen in the surface layer in type 304 stainless steel
Zhang L, Li ZY, Zheng JY, Zhao YZ, Xu P, Zhou CL, Zhou CS, Chen XY |
| 20585 - 20590 |
Hydrogen compatibility of austenitic stainless steel tubing and orbital tube welds
Hughes LA, Somerday BP, Balch DK, Marchi CS |
| 20591 - 20591 |
ICH2P-2014 Preface
Ishihara T, Ida S |
| 20592 - 20613 |
Overview of hydrogen production research in the Clean Energy Research Laboratory (CERL) at UOIT
Dincer I, Naterer GF |
| 20614 - 20624 |
Low cost compact onsite hydrogen generation
Yeh GT, Kao YL, Yang SY, Rei MH, Yan YY, Lee PC |
| 20625 - 20631 |
Hydrogen fermentation of different galactose-glucose compositions during various hydraulic retention times (HRTs)
Kumar G, Park JH, Kim MS, Kim DH, Kim SH |
| 20632 - 20638 |
Enhancement of hydrogen production rates in reformation process of methane using permeable Ni tube and chemical heat pump
Fukada S, Shimoshiraishi R, Katayama K |
| 20639 - 20645 |
Influence of coexisting Al2O3 on the activity of copper catalyst for water-gas-shift reaction
Sagata K, Kaneda Y, Yamaura H, Kobayashi S, Yahiro H |
| 20646 - 20651 |
Hydrothermal synthesis of CuV2O6 supported on mesoporous SiO2 as SO3 decomposition catalysts for solar thermochemical hydrogen production
Kawada T, Yamashita H, Zheng QX, Machida M |
| 20652 - 20661 |
Performance assessment of solar-driven integrated Mg-Cl cycle for hydrogen production
Balta MT, Dincer I, Hepbasli A |
| 20662 - 20670 |
NiOx nanoparticles supported on polyethylenimine functionalized CNTs as efficient electrocatalysts for supercapacitor and oxygen evolution reaction
Cheng Y, Shen PK, Jiang SP |
| 20671 - 20688 |
Influence of grain boundary misorientation on hydrogen embrittlement in bi-crystal nickel
Jothi S, Croft TN, Brown SGR |
| 20689 - 20699 |
Effect of Co, Fe and Rh addition on coke deposition over Ni/Ce0.5Zr0.5O2 catalysts for steam reforming of ethanol
Chiou JYZ, Lai CL, Yu SW, Huang HH, Chuang CL, Wang CB |
| 20700 - 20711 |
The effect of accessible oxygen over Co3O4-CeO2 catalysts on the steam reforming of ethanol
Yu SW, Huang HH, Tang CW, Wang CB |
| 20712 - 20721 |
Application of boron-modified nickel catalysts on the steam reforming of ethanol
Huang HH, Yu SW, Chuang CL, Wang CB |
| 20722 - 20730 |
Morphology dependence of catalytic properties of Ni nanoparticles at the tips of carbon nanofibers for ammonia decomposition to generate hydrogen
Ji J, Pham TH, Duan XZ, Qian G, Li P, Zhou XG, Chen D |
| 20731 - 20735 |
Influence of basic dopants on the activity of Ru/Pr6O11 for hydrogen production by ammonia decomposition
Nagaoka K, Eboshi T, Abe N, Miyahara S, Honda K, Sato K |
| 20736 - 20743 |
Facile and simple fabrication of an efficient nanoporous WO3 photoanode for visible-light-driven water splitting
Zhang XH, Chandra D, Kajita M, Takahashi H, Dong L, Shoji A, Saito K, Yui T, Yagi M |
| 20744 - 20753 |
Experimental study of a hybrid photocatalytic hydrogen production reactor for Cu-Cl cycle
Ratlamwala TAH, Dincer I |
| 20754 - 20763 |
Photocatalytic hydrogen production by stainless steel@ZnS core-shell wire mesh photocatalyst from saltwater
Chang CJ, Lee ZJ, Wang CF |
| 20764 - 20770 |
Photoelectrochemical performance of ZnO thin film anodes prepared by solution method
Nguyen DT, Shin EC, Cho DC, Chae KW, Lee JS |
| 20771 - 20776 |
Visible-light induced hydrogen and formic acid production from biomass and carbon dioxide with enzymatic and artificial photosynthesis system
Amao Y, Takahara S, Sakai Y |
| 20777 - 20782 |
Ce(Mn,Fe)O-2 dense film deposited on LaGaO3 electrolyte for dense anode of solid oxide fuel cells
Ju YW, Hyodo J, Inoishi A, Ida S, Ishihara T |
| 20783 - 20790 |
Chemical bulk diffusion and electrochemical properties of SmBa0.6Sr0.4Co2O5+delta cathode for intermediate solid oxide fuel cells
Subardi A, Cheng MH, Fu YP |
| 20791 - 20798 |
Electrochemical properties of B-site Ni doped layered perovskite cathodes for IT-SOFCs
Jun A, Lim TH, Shin J, Kim G |
| 20799 - 20805 |
Effect of GDC interlayer on the degradation of solid oxide fuel cell cathode during accelerated current load cycling
Khan MZ, Song RH, Lee SB, Lee JW, Lim TH, Park SJ |
| 20806 - 20811 |
Optimization of La1-xSrxCoO3-delta perovskite cathodes for intermediate temperature solid oxide fuel cells through the analysis of crystal structure and electrical properties
Gwon O, Yoo S, Shin J, Kim G |
| 20812 - 20818 |
Effects of composite cathode on electrochemical and redox properties for intermediate-temperature solid oxide fuel cells
Kim C, Kim J, Shin J, Kim G |
| 20819 - 20828 |
Electrochemical performance and long-term durability of a 200 W-class solid oxide regenerative fuel cell stack
Hong J, Kim HJ, Park SY, Lee JH, Park SB, Lee JH, Kim BK, Je HJ, Kim JY, Yoon KJ |
| 20829 - 20836 |
Proton transport properties of La0.9Sr0.1Yb0.8In0.2O3-delta and its application to proton ceramic fuel cell
Okuyama Y, Okuyama K, Mizutani Y, Sakai T, Lee YS, Matsumoto H |
| 20837 - 20843 |
MoS2-based materials as alternative cathode catalyst for PEM electrolysis
Corrales-Sanchez T, Ampurdanes J, Urakawa A |
| 20844 - 20849 |
Electrochemical model for SOFC and SOEC mode predicting performance and efficiency
Klotz D, Leonide A, Weber A, Ivers-Tiffee E |
| 20850 - 20855 |
Surface composition of solid oxide electrode structures by laterally resolved low energy ion scattering (LEIS)
Druce J, Tellez H, Simrick N, Ishihara T, Kilner J |
| 20856 - 20863 |
Surface chemistry evolution in LnBaCo(2)O(5+delta) double perovskites for oxygen electrodes
Tellez H, Druce J, Ju YW, Kilner J, Ishihara T |
