| 10323 - 10337 |
Time development of new hydrogen transmission pipeline networks for France
Andre J, Auray S, De Wolf D, Memmah MM, Simonnet A |
| 10338 - 10348 |
Efficient carbon dioxide electrolysis in a symmetric solid oxide electrolyzer based on nanocatalyst-loaded chromate electrodes
Ruan C, Xie K, Yang L, Ding B, Wu Y |
| 10349 - 10358 |
Performance and structural stability of Gd0.2Ce0.8O1.9 infiltrated La0.8Sr0.2MnO3 nano-structured oxygen electrodes of solid oxide electrolysis cells
Chen KF, Ai N, Jiang SP |
| 10359 - 10373 |
Elementary reaction modeling and experimental characterization of solid oxide fuel-assisted steam electrolysis cells
Luo Y, Shi YX, Li WY, Ni M, Cai NS |
| 10374 - 10379 |
Effects of surface coating with polyaniline on electrochemical properties of La-Mg-Ni-based electrode alloys
Wang BP, Zhao LM, Cai CS, Wang SX |
| 10380 - 10391 |
Hydrogen, nitrogen and carbon dioxide production through chemical looping using iron-based oxygen carrier - A Green plant for H-2 and N-2 production
Edrisi A, Mansoori Z, Dabir B, Shahnazari A |
| 10392 - 10398 |
Al-Li3AlH6: A novel composite with high activity for hydrogen generation
Wu T, Xu F, Sun LX, Cao Z, Chu HL, Sun YJ, Wang L, Chen PH, Chen J, Pang Y, Zou YF, Qiu SJ, Xiang CL, Zhang HZ |
| 10399 - 10408 |
Synthesizing hydrogen from ammonia over Ru incorporated SiO2 type nanocomposite catalysts
Varisli D, Elverisli EE |
| 10409 - 10416 |
Hydrogen production by steam reforming of dimethyl ether and CO-PrOx in a metal foam micro-reactor
Yan CF, Hai H, Guo CQ, Li WB, Huang SL, Chen H |
| 10417 - 10425 |
Improvement of carbon monoxide-dependent hydrogen production activity in Citrobacter amalonaticus Y19 by over-expressing the CO-sensing transcriptional activator, CooA
Ainala SK, Seol E, Sekar BS, Park S |
| 10426 - 10433 |
Oxygen-dependent enhancement of hydrogen production by engineering bacterial hemoglobin in Escherichia coli
Jo BH, Kim JYH, Seo JH, Cha HJ |
| 10434 - 10444 |
Iron-iron hydrogenase active subunit covalently linking to organic chromophore for light-driven hydrogen evolution
Gao S, Huang S, Duan Q, Hou JH, Jiang DY, Liang QC, Zhao JX |
| 10445 - 10453 |
Hydrogen production by steam reforming of ethanol over P123-assisted mesoporous Ni-Al2O3-ZrO2 xerogel catalysts
Han SJ, Bang Y, Yoo J, Park S, Kang KH, Choi JH, Song JH, Song IK |
| 10454 - 10466 |
Study on the preparation of Ni-La-Ce oxide catalyst for steam reforming of ethanol
Liu F, Zhao L, Wang H, Bai X, Liu Y |
| 10467 - 10475 |
Multi-walled carbon nanotubes supported porous nickel oxide as noble metal-free electrocatalysts for efficient water oxidation
Yu XX, Xu P, Hua TY, Han A, Liu X, Wu HT, Du PW |
| 10476 - 10484 |
Monodispersed p(2-VP) and p(2-VP-co-4-VP) particle preparation and their use as template for metal nanoparticle and as catalyst for H-2 production from NaBH4 and NH3BH3 hydrolysis
Sahiner N, Yasar AO |
| 10485 - 10492 |
Electrodeposition and electro-catalytic study of nanocrystalline Ni-Fe alloy
Ullal Y, Hegde AC |
| 10493 - 10497 |
Metal sulfides as anode catalysts in direct alkaline sulfide fuel cell
Kim K, Son J, Han JI |
| 10498 - 10506 |
Resource scarcity in palladium membrane applications for carbon capture in integrated gasification combined cycle units
Helmi A, Gallucci F, Annaland MV |
| 10507 - 10516 |
Economic implications of pre- and post-combustion calcium looping configurations applied to gasification power plants
Cormos CC |
| 10517 - 10524 |
Cycling performance and hydriding kinetics of LaNi5 and LaNi4.73Sn0.27 alloys in the presence of CO
Borzone EM, Blanco MV, Meyer GO, Baruj A |
| 10525 - 10536 |
Tritium absorption/desorption in ITER-like tungsten
El-Kharbachi A, Chene J, Garcia-Argote S, Marchetti L, Martin F, Miserque F, Vrel D, Redolfi M, Malard V, Grisolia C, Rousseau B |
| 10537 - 10545 |
Effects of partial substitutions of cerium and aluminum on the hydrogenation properties of La(0.65-x)CexCa1.03Mg1.32Ni(9-y)Aly alloy
Lim KL, Liu YN, Zhang QA, Chan SLI |
| 10546 - 10551 |
Reduction and unusual recovery in the reversible hydrogen storage capacity of V1-xTix during hydrogen cycling
Kim H, Sakaki K, Saita I, Enoki H, Noguchi K, Machida A, Watanuki T, Nakamura Y |
| 10552 - 10563 |
Role of heat pipes in improving the hydrogen charging rate in a metal hydride storage tank
Liu YZ, Wang H, Prasad AK, Advani SG |
| 10564 - 10584 |
A comparative analysis of the cryo-compression and cryo-adsorption hydrogen storage methods
Petitpas G, Benard P, Klebanoff LE, Xiao J, Aceves S |
| 10585 - 10599 |
The effect of milling energy input and molar ratio on the dehydrogenation and thermal conductivity of the (LiNH2 + nMgH(2) (n=0.5, 0.7, 0.9, 1.0, 1.5 and 2.0) nanocomposites
Varin RA, Parviz R, Polanski M, Wronski ZS |
| 10600 - 10605 |
The effect of Sc addition on the hydrogen storage capacity of Ti0.32Cr0.43V0.25 alloy
Kwon H, Kim J, Cho SW, Yoo JH, Roh KM, Kim W |
| 10606 - 10612 |
Two-dimensional Sc2C: A reversible and high-capacity hydrogen storage material predicted by first-principles calculations
Hu QK, Wang HY, Wu QH, Ye XT, Zhou AG, Sun DD, Wang LB, Liu BZ, He JL |
| 10613 - 10626 |
Diagnostic tools for PEMFCs: from conception to implementation
Cadet C, Jemei S, Druart F, Hissel D |
| 10627 - 10640 |
Water transport study in a high temperature proton exchange membrane fuel cell stack
Bezmalinovic D, Strahl S, Roda V, Husar A |
| 10641 - 10654 |
Improving the PEMFC energy efficiency by optimizing the fueling rates based on extremum seeking algorithm
Bizon N |
| 10655 - 10663 |
Experimental investigation on water and heat management in a PEM fuel cell using response surface methodology
Kahveci EE, Taymaz I |
| 10664 - 10682 |
Implementation of discrete wavelet transform-based discrimination and state-of-health diagnosis for a polymer electrolyte membrane fuel cell
Kim J, Tak Y |
| 10683 - 10696 |
Dynamic modeling of a high-temperature proton exchange membrane fuel cell with a fuel processor
Park J, Min K |
| 10697 - 10709 |
Pore-network modeling of liquid water flow in gas diffusion layers of proton exchange membrane fuel cells
Shahraeeni M, Hoorfar M |
| 10710 - 10717 |
Novel YBaCo3.2Ga0.8O7+delta as a cathode material and performance optimization for IT-SOFCs
Zhou QJ, Shi Y, Wei T, Li ZP, An DM, Hu JW, Zhao WH, Zhang W, Ji ZH, Wang JH |
| 10718 - 10723 |
Time-dependent performance change of single layer fuel cell with Li0.4Mg0.3Zn0.3O/Ce0.8Sm0.2O2-delta composite
Hu HG, Lin QZ, Zhu ZG, Liu XR, Zhu B |
| 10724 - 10730 |
Facile microwave-assisted synthesized reduced graphene oxide/tin oxide nanocomposite and using as anode material of microbial fuel cell to improve power generation
Mehdinia A, Ziaei E, Jabbari A |
| 10731 - 10747 |
A review on hydrogen industrial aerospace applications
Cecere D, Giacomazzi E, Ingenito A |
| 10748 - 10756 |
Hydrogen fuel rocket engines simulation using LOGOS code
Smirnov NN, Betelin VB, Shagaliev RM, Nikitin VF, Belyakov IM, Deryuguin YN, Aksenov SV, Korchazhkin DA |
| 10757 - 10787 |
Model study of a fuel cell range extender for a neighborhood electric vehicle (NEV)
Casolari BL, Ellington MA, Oros JM, Schuttinger P, Radley CJ, Kiley KA, Klebanoff LE |
| 10788 - 10801 |
Hydrogen non-premixed combustion in enclosure with one vent and sustained release: Numerical experiments
Molkov V, Shentsov V, Brennan S, Makarov D |
