| 1 - 12 |
Comparative assessment of hydrogen production methods from renewable and non-renewable sources
Acar C, Dincer I |
| 13 - 27 |
Techno-economic and environmental evaluations of large scale gasification-based CCS project in Romania
Cormos CC |
| 28 - 40 |
Comparison of ionically and ionical-covalently cross-linked polyaromatic membranes for SO2 electrolysis
Peach R, Krieg HM, Kruger AJ, van der Westhuizen D, Bessarabov D, Kerres J |
| 41 - 48 |
Electrochemical behavior of ammonia on Ni98Pd2 nano-structured catalyst
Allagui A, Sarfraz S, Ntais S, Al Momani F, Baranova EA |
| 49 - 53 |
In-situ measurement of hydrogen crossover in polymer electrolyte membrane water electrolysis
Bensmann B, Hanke-Rauschenbach R, Sundmacher K |
| 54 - 61 |
Exergy analysis of a simulation of the sulfuric acid decomposition process of the SI cycle for nuclear hydrogen production
Park J, Cho JH, Jung H, Jung KD, Moon I |
| 62 - 75 |
Limiting and achievable efficiencies for solar thermal hydrogen production
Mallapragada DS, Agrawal R |
| 76 - 85 |
Performance investigation of magnesium-chloride hybrid thermochemical cycle for hydrogen production
Ozcan H, Dincer I |
| 86 - 89 |
Effect of sulfuric acid on electro-electrodialysis of HIx solution
Tanaka N, Onuki K, Kubo S |
| 90 - 99 |
Improvement of photocatalytic hydrogen generation from CdSe/CdS/TiO2 nanotube-array coaxial heterogeneous structure
Wang HY, Zhu W, Chong BH, Qin K |
| 100 - 106 |
Concentration-dependent effects of metronidazole, inhibiting nitrogenase, on hydrogen photoproduction and proton-translocating ATPase activity of Rhodobacter sphaeroides
Sargsyan H, Gabrielyan L, Trchounian A |
| 107 - 118 |
Hydrogen systems for large-scale photovoltaic plants: Simulation with forecast and real production data
Zini G, Rosa AD |
| 119 - 126 |
Fabrication of graphene/CaIn2O4 composites with enhanced photocatalytic activity from water under visible light irradiation
Ding JJ, Yan WH, Sun S, Bao J, Gao C |
| 127 - 136 |
Preparation of TiO2-SiO2 aperiodic mesoporous materials with controllable formation of tetrahedrally coordinated Ti4+ ions and their performance for photocatalytic hydrogen production
Wu CM, Peng R, Dimitrijevic NM, Rajh T, Koodali RT |
| 137 - 149 |
Liquid phase reforming of woody biomass to hydrogen
Emerson SC, Zhu TL, Davis TD, Peles A, She Y, Willigan RR, Vanderspurt TH, Swanson M, Laudal DA |
| 150 - 158 |
Metabolomics of photobiological hydrogen production induced by CCCP in Chlamydomonas reinhardtii
Yang DW, Zhang YT, Barupal DK, Fan XL, Gustafson R, Guo RB, Fiehn O |
| 159 - 170 |
Hydrogen production from supercritical water reforming of glycerol in an empty Inconel 625 reactor
Pairojpiriyakul T, Kiatkittipong W, Assabumrungrat S, Croiset E |
| 171 - 182 |
Production of a hydrogen-rich gas from fast pyrolysis bio-oils: Comparison between homogeneous and catalytic steam reforming routes
Remon J, Broust F, Valette J, Chhiti Y, Alava I, Fernandez-Akarregi AR, Arauzo J, Garcia L |
| 183 - 195 |
Bio-fuel reforming for solid oxide fuel cell applications. Part 2: Biodiesel
Lin JF, Trabold TA, Walluk MR, Smith DF |
| 196 - 208 |
Bio-fuel reformation for solid oxide fuel cell applications. Part 3: Biodiesel-diesel blends
Lin JF, Trabold TA, Walluk MR, Smith DF |
| 209 - 220 |
Catalytic performance of CoAlZn and NiAlZn mixed oxides in hydrogen production by bio-ethanol partial oxidation
Kraleva E, Sokolov S, Nasillo G, Bentrup U, Ehrich H |
| 221 - 230 |
Enhanced hydrogen production from xylose and bamboo stalk hydrolysate by overexpression of xylulokinase and xylose isomerase in Klebsiella oxytoca HP1
Wu XB, Huang GF, Bai LP, Long MN, Chen QX |
| 231 - 248 |
Fault-tolerant control design for safe production of hydrogen from bio-ethanol
Luppi PA, Degliuomini LN, Garcia MP, Basualdo MS |
| 249 - 257 |
Effect of inhibitors on hydrogen consumption and microbial population dynamics in mixed anaerobic cultures
Shanmugam SR, Chaganti SR, Lalman JA, Heath DD |
| 258 - 266 |
Low-temperature steam reforming of methanol to produce hydrogen over various metal-doped molybdenum carbide catalysts
Ma YF, Guan GQ, Shi C, Zhu AM, Hao XG, Wang ZD, Kusakabe K, Abudula A |
| 267 - 276 |
Pyrolyzing cobalt diethylenetriamine chelate on carbon (CoDETA/C) as a family of non-precious metal oxygen reduction catalyst
Zhang HJ, Li HL, Li XT, Qiu HX, Yuan XX, Zhao B, Ma ZF, Yang JH |
| 277 - 287 |
Structure and catalytic properties of Ni/MWCNTs and Ni/AC catalysts for hydrogen production via ammonia decomposition
Zhang H, Alhamed YA, Kojima Y, Al-Zahrani AA, Miyaoka H, Petrov LA |
| 288 - 296 |
Electro-oxidation of methanol on SnO2-promoted Pd/MWCNTs catalysts in alkaline solution
Ren YB, Zhang SC, Li H |
| 297 - 304 |
Deactivation and regeneration of Ni catalyst during steam reforming of model biogas: An experimental investigation
Appari S, Janardhanan VM, Bauri R, Jayanti S |
| 305 - 316 |
NixCo1-x alloy nanoparticle-doped carbon nanofibers as effective non-precious catalyst for ethanol oxidation
Barakat NAM, Motlak M, Elzatahry AA, Khalil KA, Abdelghani EAM |
| 317 - 324 |
The significant role of oxygen vacancy in Cu/ZrO2 catalyst for enhancing water-gas-shift performance
Chen CQ, Ruan CX, Zhan YY, Lin XY, Zheng Q, Wei KM |
| 325 - 330 |
Influence of a reaction mixture streamline on partial oxidation of methane in an asymmetric microchannel reactor
Vorontsov VA, Gribauskiy AG, Makarshin LL, Andreev DV, Ylianitsky VY, Parmon VN |
| 331 - 338 |
Predicting the syngas hydrogen composition by using a dual stage equilibrium model
Silva VB, Rouboa A |
| 339 - 348 |
Mathematical modeling and optimization of hydrogen distribution network used in refinery
Jhaveri N, Mohanty B, Khanam S |
| 349 - 355 |
Effective thermal conductivity of MgH2 compacts containing expanded natural graphite under a hydrogen atmosphere
Shim JH, Park M, Lee YH, Kim S, Im YH, Suh JY, Cho YW |
| 356 - 365 |
Uniform Bi2S3 nanorods-assembled hollow spheres with excellent electrochemical hydrogen storage abilities
Jin RC, Li GH, Xu YB, Liu JS, Chen G |
| 366 - 375 |
Analysis of the uncertainties in gas uptake measurements using the Sieverts method
Webb CJ, Gray EM |
| 376 - 380 |
Hydrogen adsorption on graphene foam synthesized by combustion of sodium ethoxide
Lyth SM, Shao HY, Liu JF, Sasaki K, Akiba E |
| 381 - 390 |
Activity of Pd/C for hydrogen generation in aqueous formic acid solution
Hu CQ, Pulleri JK, Ting SW, Chan KY |
| 391 - 397 |
Single-step preparation and hydrogenation of single walled carbon nanotubes-titanium dioxide composite
Silambarasan D, Surya VJ, Iyakutti K, Vasu V |
| 398 - 405 |
The application of Pettifor structure maps to binary metal hydrides
Matysik P, Czujko T, Varin RA |
| 406 - 413 |
Effect of Co+2/BH4- ratio in the synthesis of Co-B catalysts on sodium borohydride hydrolysis
Manna J, Roy B, Vashistha M, Sharma P |
| 414 - 425 |
New electroless plating method for preparation of highly active Co-B catalysts for NaBH4 hydrolysis
Muir SS, Chen ZG, Wood BJ, Wang LZ, Lu GQ, Yao XD |
| 426 - 435 |
Hydrolytic dehydrogenation of ammonia borane and methylamine borane catalyzed by graphene supported Ru@Ni core-shell nanoparticles
Cao N, Su J, Luo W, Cheng GZ |
| 436 - 441 |
Synthesis of Cu@FeCo core-shell nanoparticles for the catalytic hydrolysis of ammonia borane
Qiu FY, Dai YL, Li L, Xu CC, Huang YN, Chen CC, Wang YJ, Jiao LF, Yuan HT |
| 442 - 448 |
Kinetic models of concentrated NaBH4 hydrolysis
Yu L, Pellechia P, Matthews MA |
| 449 - 458 |
A method for the ad hoc and real-time determination of the water balance in a PEMFC
Berning T |
| 459 - 468 |
Effect of the micro porous layer design on the dynamic performance of a proton exchange membrane fuel cell
Cho J, Oh H, Park J, Min K, Lee E, Jyoung JY |
| 469 - 480 |
Numerical investigation of the impact of two-phase flow maldistribution on PEM fuel cell performance
Ding Y, Bi XT, Wilkinson DP |
| 481 - 494 |
Prognostics of PEM fuel cell in a particle filtering framework
Jouin M, Gouriveau R, Hissel D, Pera MC, Zerhouni N |
| 495 - 504 |
Study on the performance of a proton exchange membrane fuel cell related to the structure design of a gas diffusion layer substrate
Cho J, Oh H, Park J, Min K, Lee E, Jyoung JY |
| 505 - 531 |
Chromium deposition and poisoning of cathodes of solid oxide fuel cells - A review
Jiang SP, Chen XB |
| 532 - 542 |
Parameter identification for solid oxide fuel cells using cooperative barebone particle swarm optimization with hybrid learning
Jiang B, Wang N, Wang LP |
| 543 - 551 |
Sm3+ and Sr2+ co-doped ceria prepared by citrate-nitrate auto-combustion method
Jaiswal N, Upadhyay S, Kumar D, Parkash O |
| 552 - 561 |
Experimental study of SOFC system heat-up without safety gases
Halinen M, Thomann O, Kiviaho J |
| 562 - 570 |
Optimization of electrochemical performance of Ca3Co2O6 cathode on yttria-stabilized zirconia electrolyte for intermediate temperature solid oxide fuel cells
Yu SC, Chen H, Li RF, Dai HL, He SC, Guo LC |
| 571 - 581 |
An improved energy management strategy for FC/UC hybrid electric vehicles propelled by motor-wheels
Lachhab I, Krichen L |
| 582 - 592 |
Optimization of the overall energy consumption in cascade fueling stations for hydrogen vehicles
Rothuizen E, Rokni M |
| 593 - 601 |
Combustion characteristics and flame-kernel development of a laser ignited hydrogen-air mixture in a constant volume combustion chamber
Dharamshi K, Srivastava DK, Agarwal AK |
| 602 - 609 |
Effect of hydrogen percentage and air jet Reynolds number on fuel lean flame stability of LPG-fired inverse diffusion flame with hydrogen enrichment
Miao J, Leung CW, Cheung CS |
| 610 - 619 |
Mechanisms for adsorption, dissociation and diffusion of hydrogen in hydrogen permeation barrier of alpha-Al2O3: The role of crystal orientation
Zhang GK, Dou SP, Lu YJ, Shi Y, Lai XC, Wang XL |
| 620 - 629 |
Characteristics of resistivity-type hydrogen sensing based on palladium-graphene nanocomposites
Phan DT, Chung GS |
| 630 - 642 |
Hydrogen gas sensing based on polyaniline/anatase titania nanocomposite
Nasirian S, Moghaddam HM |
| 643 - 644 |
Comments on "Thermal cracking of methane into hydrogen for a CO2-Free utilization of natural gas" by A. Abanades, C. Rubbia and D. Salmieri, International Journal of Hydrogen Energy, 2013; 38: 8491-8496
Seifritz W |
| 645 - 645 |
Response to Dr. Walter Seifritz's comments on the manuscript: "Thermal cracking of methane into hydrogen for a CO2-Free utilization of natural gas" by Abanades et al., Int J Hydrogen Energy, 2013; 38: 8491-8496
Abanades A |
