| 16759 - 16763 |
The Energiewende: Not an energy turnaround, rather a customary energy system adaption
Winter CJ |
| 16764 - 16769 |
A UPD-spontaneous redox approach to the preparation of monolayer palladium on reduced graphene oxide-supported gold nanoparticles for ethanol electrooxidation in alkaline media
Liu JP, Zhou HH, Huang JT, Huang ZY, Zeng FY, Kuang YF |
| 16770 - 16775 |
Energy saving in electrolytic hydrogen production using Co-Cr activation - Part I
Miulovic SM, Maslovara SL, Seovic MM, Radak BB, Kaninski MPM |
| 16776 - 16785 |
LSM-YSZ interactions and anode delamination in solid oxide electrolysis cells
Keane M, Mahapatra MK, Verma A, Singh P |
| 16786 - 16794 |
Zeolite-templated IrxRu1-xO2 electrocatalysts for oxygen evolution reaction in solid polymer electrolyte water electrolyzers
Li GF, Yu HM, Song W, Wang XY, Li YK, Shao ZG, Yi BL |
| 16795 - 16799 |
The anode environmentally friendly for water electrolysis based in LiCoO2 recycled from spent lithium-ion batteries
Garcia EM, Lins VDC, Taroco HA, Matencio T, Domingues RZ, dos Santos JAF |
| 16800 - 16809 |
Glycerol electrooxidation on Pd, Pt and Au nanoparticles supported on carbon ceramic electrode in alkaline media
Habibi E, Razmi H |
| 16810 - 16816 |
Enhancing photoelectrochemical activity of nanocrystalline WO3 electrodes by surface tuning with Fe(III)
Han S, Li J, Chen X, Huang Y, Liu CJ, Yang YH, Li WZ |
| 16817 - 16822 |
Evaluation of electrochemical hydrogenation and corrosion behavior of LaNi5-based materials using galvanostatic charge/discharge measurements
Bala H, Kukula I, Giza K, Marciniak B, Rozycka-Sokolowska E, Drulis H |
| 16823 - 16834 |
Addition effects of erbia-stabilized bismuth oxide on ceria-based carbonate composite electrolytes for intermediate temperature--solid oxide fuel cells
Baek SS, Lee N, Kim BK, Chang H, Song SJ, Park JY |
| 16835 - 16843 |
Influence of surfactants on Fe2O3 nanostructure photoanode
Memar A, Phan CM, Tade MO |
| 16844 - 16851 |
MgH2 synthesis during reactive mechanical alloying studied by in-situ pressure monitoring
Castro FJ, Fuster V, Urretavizcaya G |
| 16852 - 16863 |
Reactivity of iron oxide as an oxygen carrier for chemical-looping hydrogen production
Cho WC, Seo MW, Kim SD, Kang KS, Bae KK, Kim CH, Jeong SU, Park CS |
| 16864 - 16870 |
Detailed kinetic modeling of homogeneous HI decomposition for hydrogen production, part I: Effect of H2O on HI decomposition
Zhang YW, Liu JB, Lin XD, Wang ZH, Zhou JH, Gen KF |
| 16871 - 16887 |
A novel beam-down, gravity-fed, solar thermochemical receiver/reactor for direct solid particle decomposition: Design, modeling, and experimentation
Koepf E, Advani SG, Steinfeld A, Prasad AK |
| 16888 - 16894 |
Atomic layer deposited thin film metal oxides for fuel production in a solar cavity reactor
Lichty P, Liang XH, Muhich C, Evanko B, Bingham C, Weimer AW |
| 16895 - 16902 |
Photophysical and photocatalytic water splitting performance of stibiotantalite type-structure compounds, SbMO4 (M = Nb, Ta)
Kim SH, Park S, Lee CW, Han BS, Seo SW, Kim JS, Cho IS, Hong KS |
| 16903 - 16915 |
The enhancement of hydrogen photoproduction in Chlorella protothecoides exposed to nitrogen limitation and sulfur deprivation
He ML, Li L, Zhang LT, Liu JG |
| 16916 - 16924 |
Optimized mixed reforming of biogas with O-2 addition in spark-discharge plasma
Zhu B, Li XS, Liu JL, Zhu AM |
| 16925 - 16934 |
Performance and composition of bacterial communities in anaerobic fluidized bed reactors for hydrogen production: Effects of organic loading rate and alkalinity
Shida GM, Sader LT, de Amorim ELC, Sakamoto IK, Maintinguer SI, Saavedra NK, Varesche MBA, Silva EL |
| 16935 - 16942 |
Bio-cathode materials evaluation in microbial fuel cells: A comparison of graphite felt, carbon paper and stainless steel mesh materials
Zhang YP, Sun J, Hu YY, Li SZ, Xu Q |
| 16943 - 16950 |
Current generation in microbial electrolysis cells with addition of amorphous ferric hydroxide, Tween 80, or DNA
Ren LJ, Tokash JC, Regan JM, Logan BE |
| 16951 - 16961 |
Hydrogen production with the microalga Chlamydomonas reinhardtii grown in a compact tubular photobioreactor immersed in a scattering light nanoparticle suspension
Giannelli L, Torzillo G |
| 16962 - 16966 |
Characteristics of cyclone gasification of rice husk
Zhao YJ, Sun SZ, Che HW, Guo YZ, Gao C |
| 16967 - 16973 |
Lactic acid as a substrate for fermentative hydrogen production
Grause G, Igarashi M, Kameda T, Yoshioka T |
| 16974 - 16985 |
Optimal design of parallel channel patterns in a micro methanol steam reformer
Jang JY, Cheng CH, Huang YX, Lee CI, Leu CH |
| 16986 - 16993 |
3D hierarchical ZnIn2S4: The preparation and photocatalytic properties on water splitting
Shen J, Zai JT, Yuan YP, Qian XF |
| 16994 - 17001 |
Synthesis and characterization of platinum supported on surface-modified ordered mesoporous carbons by self-assembly and their electrocatalytic performance towards oxygen reduction reaction
Liu SH, Wu JR |
| 17002 - 17008 |
An efficient ZnS-UV photocatalysts generated in situ from ZnS(en)(0.5) hybrid during the H-2 production in methanol-water solution
Hernandez-Gordillo A, Tzompantzi F, Gomez R |
| 17009 - 17018 |
TiO2-SiO2 mixed oxides: Organic ligand templated controlled deposition of titania and their photocatalytic activities for hydrogen production
Peng R, Banerjee S, Sereda G, Koodali RT |
| 17019 - 17026 |
Syngas production from CH4 dry reforming over Co-Ni/Al2O3 catalyst: Coupled reaction-deactivation kinetic analysis and the effect of O-2 co-feeding on H-2:CO ratio
Foo SY, Cheng CK, Nguyen TH, Adesina AA |
| 17027 - 17039 |
Effect of bath composition on properties of electroless deposited Co-P/Ni foam catalyst for hydrolysis of sodium borohydride solution
Oh TH, Kwon S |
| 17040 - 17051 |
Catalytic partial oxidation of CH4-H-2 mixtures over Ni foams modified with Rh and Pt
Cimino S, Lisi L, Mancino G, Musiani M, Vazquez-Gomez L, Verlato E |
| 17052 - 17059 |
Pd-based catalysts: Influence of the second metal on their stability and oxygen reduction activity
Pires FI, Villullas HM |
| 17060 - 17067 |
Nickel sulfide as co-catalyst on nanostructured TiO2 for photocatalytic hydrogen evolution
Zhang L, Tian BZ, Chen F, Zhang JL |
| 17068 - 17077 |
Preparation and photocatalytic activities of two new Zn-doped SrTiO3 and BaTiO3 photocatalysts for hydrogen production from water without cocatalysts loading
Zou JP, Zhang LZ, Luo SL, Leng LH, Luo XB, Zhang MJ, Luo Y, Guo GC |
| 17078 - 17092 |
An experimental investigation of reverse vortex flow plasma reforming of methane
Piavis W, Turn S |
| 17093 - 17100 |
Hydrogen-rich syngas production through coal and charcoal gasification using microwave steam and air plasma torch
Yoon SJ, Lee JG |
| 17101 - 17110 |
Thermodynamic analysis of synthetic hydrocarbon fuel production in pressurized solid oxide electrolysis cells
Sun XF, Chen M, Jensen SH, Ebbesen SD, Graves C, Mogensen M |
| 17111 - 17117 |
NiB nanoparticles: A new nickel-based catalyst for hydrogen storage properties of MgH2
Liu G, Qiu FY, Li J, Wang YJ, Li L, Yan C, Jiao LF, Yuan HT |
| 17118 - 17125 |
Reversible hydrogen storage in a 3NaBH(4)/YF3 composite
Zou JX, Li LJ, Zeng XQ, Ding WJ |
| 17126 - 17130 |
Mechanical alloying preparation of fullerene-like Co3C nanoparticles with high hydrogen storage ability
Gao P, Wang Y, Yang SQ, Chen YJ, Xue Z, Wang LQ, Li GB, Sun YZ |
| 17131 - 17136 |
Hydrogen storage nanocrystalline TiFe intermetallic compound: Synthesis by mechanical alloying and compacting
Zadorozhnyy V, Klyamkin S, Zadorozhnyy M, Bermesheva O, Kaloshkin S |
| 17137 - 17145 |
Hydrogen storage properties and mechanisms of the Mg(BH4)(2)-NaAlH4 system
Liu YF, Yang YJ, Zhou YF, Zhang Y, Gao MX, Pan HG |
| 17146 - 17152 |
Superior hydrogen storage properties of Mg95Ni5+10 wt.% nanosized Zr0.7Ti0.3Mn2+3 wt.% MWCNT prepared by hydriding combustion synthesis followed by mechanical milling (HCS+MM)
Wei LJ, Gu H, Zhu YF, Li LQ |
| 17153 - 17157 |
Hydrogen storage in lithium-decorated benzene complexes
Li P, Deng SH, Zhang L, Liu GH, Yu JY |
| 17158 - 17171 |
The effect of flow distributors on the liquid water distribution and performance of a PEM fuel cell
Jithesh PK, Bansode AS, Sundararajan T, Das SK |
| 17172 - 17179 |
Experimental investigation of the effect of channel length on performance and water accumulation in a PEMFC parallel flow field
Bachman J, Charvet M, Santamaria A, Tang HY, Park JW, Walker R |
| 17180 - 17190 |
Development of non-perfluorinated hybrid materials for single-cell proton exchange membrane fuel cells
Thanganathan U, Dixon D, Ghatty SL, Rambabu B |
| 17191 - 17202 |
Design of a mobile PEM power backup system through detailed dynamic and control analysis
Iora P, Thangavelautham J |
| 17203 - 17208 |
Effects of atmospheric aerosol on the performance of environmentally sustainable passive air-breathing PEM fuel cells
Faber P, Drewnick F, Piske J, Kurz T, Borrmann S |
| 17209 - 17216 |
Synthesis and evaluation of (La0.6Sr0.4)(Co0.2Fe0.8)O-3 (LSCF)-Y0.08Zr0.92O1.96 (YSZ)-Gd0.1Ce0.9O2-delta (GDC) dual composite SOFC cathodes for high performance and durability
Ko HJ, Myung JH, Lee JH, Hyun SH, Chung JS |
| 17217 - 17224 |
Cobalt-free composite cathode for SOFCs: Brownmillerite-type calcium ferrite and gadolinium-doped ceria
Lee SJ, Yong SM, Kim DS, Kim DK |
| 17225 - 17234 |
Experimental and numerical studies on chemically reacting gas flow in the porous structure of a solid oxide fuel cells internal fuel reformer
Brus G |
| 17235 - 17244 |
Chemical compatibility between MgO-SiO2-B2O3-La2O3 glass sealant and low, high temperature electrolytes for solid oxide fuel cell applications
Kaur G, Pandey OP, Singh K |
| 17245 - 17252 |
A tolerance criterion for tar concentration in a model wood gas for a nickel/scandia-stabilized zirconia cermet anode in a solid oxide fuel cell
Namioka T, Nagai Y, Yoshikawa K, Min TJ |
| 17253 - 17257 |
Chemical compatibility and electrical contact between Ni-Cr-Mo alloy and LaCo0.6Ni0.4O3-delta in intermediate temperature solid oxide fuel cells
Zhang WY, Wang FZ, Wang KS, Pu J, Chi B, Jian L |
| 17258 - 17267 |
A tank in series model for alkaline fuel cell in cogeneration of hydrogen peroxide and electricity
De Schepper P, Danilov V, Denayer JFM |
| 17268 - 17274 |
The effects of freeze-thaw cycling and gas purging on performance degradation in direct methanol fuel cells
Oh Y, Kim SK, Lim S, Jung DH, Peck DH, Shul Y |
| 17275 - 17284 |
Sorption properties of hydrogen-selective PDMS/zeolite 4A mixed matrix membrane
Rezakazemi M, Shahidi K, Mohammadi T |
| 17285 - 17293 |
Detailed numerical simulation of syngas combustion under partially premixed combustion engine conditions
Zhang F, Yu R, Bai XS |
| 17294 - 17309 |
Dynamics of upstream flame propagation in a hydrogen-enriched premixed flame
De A, Acharya S |
| 17310 - 17320 |
Experimental investigation of the effect of spark plug gap on a hydrogen fueled SI engine
Ceper BA |
| 17321 - 17335 |
A preliminary infrastructure design to use fossil fuels with carbon capture and storage and renewable energy systems
Han JH, Ryu JH, Lee IB |
| 17336 - 17349 |
Risk assessment for the preparation of compressed oxidant-fuel gas mixtures. Application to the H-2/air mixture manufacturing
Paillard CE, Naudet V |
| 17350 - 17350 |
Editorial for special issues on hydrogen safety
Wen JX |
| 17351 - 17357 |
HIAD - hydrogen incident and accident database
Galassi MC, Papanikolaou E, Baraldi D, Funnemark E, Haland E, Engebo A, Haugom GP, Jordan T, Tchouvelev AV |
| 17358 - 17363 |
Lessons learned from safety events
Weiner SC, Fassbender LL |
| 17364 - 17372 |
Hydrogen storage - Industrial prospectives
Barthelemy H |
| 17373 - 17379 |
A homogeneous non-equilibrium two-phase critical flow model
Travis JR, Koch DP, Breitung W |
| 17380 - 17389 |
CFD computations of liquid hydrogen releases
Ichard M, Hansen OR, Middha P, Willoughby D |
| 17390 - 17399 |
Numerical study of the near-field of highly underexpanded turbulent gas jets
Velikorodny A, Kudriakov S |
| 17400 - 17408 |
Experimental study of the concentration build-up regimes in an enclosure without ventilation
Cariteau B, Tkatschenko I |
| 17409 - 17414 |
High-order perturbation solutions to a LH2 spreading model with continuous spill
Kim M, Do K, Choi B, Han Y |
| 17415 - 17425 |
Risk assessment by means of Bayesian networks: A comparative study of compressed and liquefied H-2 transportation and tank station risks
Pasman HJ, Rogers WJ |
| 17426 - 17435 |
LES modelling of hydrogen release and accumulation within a non-ventilated ambient pressure garage using the ADREA-HF CFD code
Koutsourakis N, Venetsanos AG, Bartzis JG |
| 17436 - 17445 |
Natural and forced ventilation of buoyant gas released in a full-scale garage: Comparison of model predictions and experimental data
Prasad K, Pitts WM, Fernandez M, Yang JC |
| 17446 - 17456 |
Experimental investigation of hydrogen release and ignition from fuel cell powered forklifts in enclosed spaces
Ekoto IW, Houf WG, Evans GH, Merilo EG, Groethe MA |
| 17457 - 17469 |
Dispersion and burning behavior of hydrogen released in a full-scale residential garage in the presence and absence of conventional automobiles
Pitts WM, Yang JC, Blais M, Joyce A |
| 17470 - 17477 |
Experimental study of hydrogen releases in the passenger compartment of a Piaggio Porter
Schiavetti M, Mattoli V, Lutzemberger G, Dario P, Carcassi M |
| 17478 - 17487 |
Cell failure mechanisms in PEM water electrolyzers
Millet P, Ranjbari A, de Guglielmo F, Grigoriev SA, Aupretre F |
| 17488 - 17496 |
Comparison of NFPA and ISO approaches for evaluating separation distances
LaChance JL, Middleton B, Groth KM |
| 17497 - 17501 |
Hydrogen safety training for laboratory researchers and technical personnel
Aceves SM, Espinosa-Loza F, Petitpas G, Ross TO, Switzer VA |
| 17502 - 17508 |
Let's go green with hydrogen! The general public's perspective
Zimmer R, Welke J |
| 17509 - 17516 |
Study of potential leakage on several stressed fittings for hydrogen pressures up to 700 bar
Houssin-Agbomson D, Jamois D, Proust C, Daubech J, Ruban S, Jallais S |
| 17517 - 17522 |
Numerical study on fast filling of 70 MPa type III cylinder for hydrogen vehicle
Zhao YZ, Liu GS, Liu YL, Zheng JY, Chen YC, Zhao L, Guo JX, He YT |
| 17523 - 17528 |
Low energy hydrogen sensor
Linke S, Dallmer M, Werner R, Moritz W |
| 17529 - 17539 |
Micro-wrinkled palladium surface for hydrogen sensing and switched detection of lower flammability limit
Greco F, Ventrelli L, Dario P, Mazzolai B, Mattoli V |
| 17540 - 17548 |
Inter-laboratory assessment of hydrogen safety sensors performance under anaerobic conditions
Buttner WJ, Burgess R, Rivkin C, Post MB, Boon-Brett L, Black G, Harskamp F, Moretto P |
| 17549 - 17560 |
Ignitability and mixing of underexpanded hydrogen jets
Ruggles AJ, Ekoto IW |
| 17561 - 17570 |
Self-ignition of hydrogen releases through electrostatic discharge induced by entrained particulates
Merilo EG, Groethe MA, Adamo RC, Schefer RW, Houf WG, Dedrick DE |
| 17571 - 17579 |
Numerical study of spontaneous ignition in pressurized hydrogen release through a length of tube with local contraction
Xu BP, Wen JX |
| 17580 - 17588 |
Flammability limits and laminar flame speed of hydrogen-air mixtures at sub-atmospheric pressures
Kuznetsov M, Kobelt S, Grune J, Jordan T |
| 17589 - 17598 |
Ignition and heat radiation of cryogenic hydrogen jets
Friedrich A, Breitung W, Stern G, Veser A, Kuznetsov M, Fast G, Oechsler B, Kotchourko N, Jordan T, Travis JR, Xiao J, Schwall M, Rottenecker M |
| 17599 - 17605 |
Effect of hydrogen concentration on vented explosion overpressures from lean hydrogen-air deflagrations
Bauwens CR, Chao J, Dorofeev SB |
| 17606 - 17615 |
Experimental and numerical investigation of DDT in hydrogen-Air behind a single obstacle
Gaathaug AV, Vaagsaether K, Bjerketvedt D |
| 17616 - 17623 |
Quantifying the hydrogen embrittlement of pipeline steels for safety considerations
Briottet L, Moro I, Lemoine P |
| 17624 - 17629 |
Study on the harm effects of releases from liquid hydrogen tank by consequence modeling
Li ZY, Pan XM, Meng X, Ma JX |
| 17630 - 17638 |
Fire risk on high-pressure full composite cylinders for automotive applications
Ruban S, Heudier L, Jamois D, Proust C, Bustamante-Valencia L, Jallais S, Kremer-Knobloch K, Maugy C, Villalonga S |
| 17639 - 17644 |
Influence of pressure and temperature on the fatigue strength of Type-3 compressed-hydrogen tanks
Tomioka J, Kiguchi K, Tamura Y, Mitsuishi H |
| 17645 - 17654 |
Data for the evaluation of hydrogen risks onboard vehicles: Outcomes from the French project drive
Gentilhomme O, Proust C, Jamois D, Tkatschenko I, Cariteau B, Studer E, Masset F, Joncquet G, Amielh M, Anselmet F |
