| 1143 - 1158 |
Theoretical model and experimental analysis of a high pressure PEM water electrolyser for hydrogen production
Marangio F, Santarelli M, Cali M |
| 1159 - 1165 |
Study of steam electrolysis using a microtubular ceramic reactor
Hashimoto S, Liu Y, Mori M, Funahashi Y, Fujishiro Y |
| 1166 - 1175 |
Hydrolysis rate of submicron Zn particles for solar H-2 synthesis
Ernst FO, Steinfeld A, Pratsinis SE |
| 1176 - 1184 |
Preparation of stable CdS nanoparticles in aqueous medium and their hydrogen generation efficiencies in photolysis of water
Girginer B, Galli G, Chiellini E, Bicak N |
| 1185 - 1199 |
New insights into the mechanism of H-2 generation through NaBH4 hydrolysis on Co-based nanocatalysts studied by differential reaction calorimetry
Garron A, Swierczynski D, Bennici S, Auroux A |
| 1200 - 1207 |
Use of metallic Ni for H-2 production in S-I thermochemical cycle: Experimental and theoretical analysis
Lanchi M, Caputo G, Liberatore R, Marrelli L, Sau S, Spadoni A, Tarquini P |
| 1208 - 1217 |
Monoclinic zirconia-supported Fe3O4 for the two-step water-splitting thermochemical cycle at high thermal reduction temperatures of 1400-1600 degrees C
Gokon N, Murayama H, Umeda J, Hatamachi T, Kodama T |
| 1218 - 1225 |
A modified sulphur-iodine cycle for efficient solar hydrogen production
Prosini PP, Cento C, Giaconia A, Caputo G, Sau S |
| 1226 - 1232 |
Regulation of hydrogen production by Enterobacter aerogenes by external NADH and NAD(+)
Zhang C, Ma K, Xing XH |
| 1233 - 1243 |
Feasibility of biohydrogen production at low temperatures in unbuffered reactors
Gadhamshetty V, Johnson DC, Nirmalakhandan N, Smith GB, Deng SG |
| 1244 - 1252 |
Effect of iron concentration on continuous H-2 production using membrane bioreactor
Lee DY, Li YY, Oh YK, Kim MS, Noike T |
| 1253 - 1259 |
Application of desirability function based on neural network for optimizing biohydrogen production process
Wang JL, Wan W |
| 1260 - 1264 |
Hydrogen-rich gas from catalytic steam gasification of biomass in a fixed bed reactor: Influence of particle size on gasification performance
Luo SY, Xiao B, Guo XJ, Hu ZQ, Liu SM, He MY |
| 1265 - 1269 |
An experimental study on air gasification of biomass micron fuel (BMF) in a cyclone gasifier
Guo XJ, Xiao B, Liu SM, Hu ZQ, Luo SY, He MY |
| 1270 - 1274 |
An experimental study on a novel shredder for municipal solid waste (MSW)
Luo SY, Xiao B, Hu ZQ, Liu SM, Guo XJ |
| 1275 - 1291 |
Compartment model for steam reforming of methane in a membrane-assisted bubbling fluidized-bed reactor
Dehkordi AM, Memari M |
| 1292 - 1300 |
Autothermal reforming of methane to synthesis gas: Modeling and simulation
Nezhad MZ, Rowshanzamir S, Eikani MH |
| 1301 - 1309 |
Hydrogen production from two-step steam methane reforming in a fluidized bed reactor
Go KS, Son SR, Kim SD, Kang KS, Park CS |
| 1310 - 1323 |
Production of hydrogen and nanofibrous carbon by selective catalytic decomposition of propane
Solovyev EA, Kuvshinov DG, Ermakov DY, Kuvshinov GG |
| 1324 - 1335 |
Static and dynamic modeling of a diesel fuel processing unit for polymer electrolyte fuel cell supply
Chrenko D, Coulie J, Lecoq S, Pera MC, Hissel D |
| 1336 - 1341 |
Performance of copper-ceria catalysts for water gas shift reaction in medium temperature range
Gunawardana PVDS, Lee HC, Kim DH |
| 1342 - 1348 |
Syngas production from catalytic gasification of waste polyethylene: Influence of temperature on gas yield and composition
He MY, Xiao B, Hu ZQ, Liu SM, Guo XJ, Luo SY |
| 1349 - 1362 |
Enhancement of carbon dioxide removal in a hydrogen-permselective methanol synthesis reactor
Rahimpour MR, Alizadehhesari K |
| 1363 - 1369 |
Greenhouse gas emissions assessment of hydrogen and kerosene-fueled aircraft propulsion
Nojoumi H, Dincer I, Naterer GF |
| 1370 - 1376 |
Life cycle assessment of processes for hydrogen production. Environmental feasibility and reduction of greenhouse gases emissions
Dufour J, Serrano DP, Galvez JL, Moreno J, Garcia C |
| 1377 - 1382 |
Synthesis and hydrogen-storage behavior of metal-organic framework MOF-5
Li JP, Cheng SJ, Zhao Q, Long PP, Dong JX |
| 1383 - 1388 |
Electrochemical hydrogenation of nanocrystalline face-centered cubic Co powder
Chung SR, Wang KW, Teng MH, Perng TP |
| 1389 - 1398 |
Stability and bonding mechanism of ternary (Mg, Fe, Ni)H-2 hydrides from first principles calculations
Song Y, Zhang WC, Yang R |
| 1399 - 1404 |
Effect of rare earth elements on electrochemical properties of La-Mg-Ni-based hydrogen storage alloys
Li Y, Han D, Han SM, Zhu XL, Hu L, Zhang Z, Liu YW |
| 1405 - 1410 |
Hydrogen storage properties of Mg-30 wt.% LaNi5 composite prepared by hydriding combustion synthesis followed by mechanical milling (HCS plus MM)
Gu H, Zhu YF, Li LQ |
| 1411 - 1416 |
The desorption kinetics of the Mg(NH2)(2) + LiH mixture
Wang JC, Li HL, Wang SM, Liu XP, Li Y, Jiang LJ |
| 1417 - 1422 |
Effects of CeO2 additive on redox characteristics of Fe-based mixed oxide mediums for storage and production of hydrogen
Lee DH, Cha KS, Lee YS, Kang KS, Park CS, Kim YH |
| 1423 - 1428 |
The metal-carbon-fluorine system for improving hydrogen storage by using metal and fluorine with different levels of electronegativity
Im JS, Park SJ, Lee YS |
| 1429 - 1436 |
Influence of the substitution of La for Mg on the microstructure and hydrogen storage characteristics of Mg20-xLaxNi10 (x=0-6) alloys
Ren HP, Zhang YH, Li BW, Zhao DL, Guo SH, Wang XL |
| 1437 - 1443 |
Electrochemical hydrogen storage properties of ball-milled multi-wall carbon nanotubes
Wang Y, Deng WQ, Liu XW, Wang X |
| 1444 - 1449 |
Electrochemical properties of ball-milled LaMg12-Ni composites containing carbon nanotubes
Wang Y, Deng WQ, Liu XW, Wang SY, Wang X |
| 1450 - 1457 |
Nanoscale composition modulations in MgyTi1-yHx thin film alloys for hydrogen storage
Baldi A, Gremaud R, Borsa DM, Balde CP, van der Eerden AMJ, Kruijtzer GL, de Jongh PE, Dam B, Griessen R |
| 1458 - 1462 |
TiCrVMo alloys with high dissociation pressure for high-pressure MH tank
Matsunaga T, Kon M, Washio K, Shinozawa T, Ishikiriyama M |
| 1463 - 1467 |
Effects of substituting Al for Cr in the Ti0.32Cr0.43V0.25 alloy on its microstructure and hydrogen storage properties
Yoo JH, Shim G, Yoon JS, Cho SW |
| 1468 - 1471 |
Observation of apparent MOS regimes on Al/PECVD grown boron nitride/p-c-Si/Al MIS structure, investigated through admittance spectroscopy
Ozdemir O |
| 1472 - 1475 |
Hydrogenation of C14 Laves phase alloy: CaLi2
Liu X, Asano K, Terashita N, Akiba E |
| 1476 - 1482 |
Electrochemical properties of magnesium-based hydrogen storage alloys improved by transition metal boride and silicide additives
Jiao LF, Yuan HT, Wang YJ, Wang YM |
| 1483 - 1488 |
Structural characteristics and hydrogen storage properties of Ca3.0-xMgxNi9 (x=0.5, 1.0, 1.5 and 2.0) alloys
Si TZ, Zhang QA, Pang G, Liu DM, Liu N |
| 1489 - 1496 |
Oxidation behavior of metallic interconnects for SOFC in coal syngas
Li YH, Wu JW, Johnson C, Gemmen R, Scott XM, Liu XB |
| 1497 - 1507 |
Load sharing using fuzzy logic control in a fuel cell/ultracapacitor hybrid vehicle
Kisacikoglu MC, Uzunoglu M, Alam MS |
| 1508 - 1514 |
Experimental results from a 5 kW PEM fuel cell stack operated on simulated reformate from highly diluted hydrocarbon, fuels: Efficiency, dilution, fuel utilisation, CO poisoning and design criteria
Hedstrom L, Tingelof T, Alvfors P, Lindbergh G |
| 1515 - 1521 |
Effects of thermal oxi-nitridation on the corrosion resistance and electrical conductivity of 446M stainless steel for PEMFC bipolar plates
Lee KH, Lee SH, Kim JH, Lee YY, Kim YH, Kim MC, Wee DM |
| 1522 - 1530 |
Numerical analysis of the electrochemical impedance spectra of the cathode of direct methanol fuel cells
Chen M, Du CY, Yin GP, Shi PF, Zhao TS |
| 1531 - 1541 |
Three-dimensional simulation and optimization of an isothermal PROX microreactor for fuel cell applications
Vahabi M, Akbari MH |
| 1542 - 1547 |
La0.8Sr0.2MnO3 and (Mn1.5Co1.5)O-4 double layer coated by electrophoretic deposition on Crofer22 APU for SOEC interconnect applications
Yoo J, Woo SK, Yu JH, Lee S, Park GW |
| 1548 - 1555 |
The influences of some additives on electrochemical behaviour of nickel electrodes
Begum SN, Muralidharan VS, Basha CA |
| 1556 - 1559 |
Effect of nanosized Mg0.8Cu0.20O on electrochemical properties of Li/S rechargeable batteries
Zhang Y, Wu XB, Feng H, Wang LZ, Zhang AQ, Xia TC, Dong HC |
| 1560 - 1568 |
Comparison criteria for large-scale hydrogen liquefaction processes
Berstad DO, Stang JH, Neksa P |
| 1569 - 1577 |
Surface effects on flammable extent of hydrogen and methane jets
Hourri A, Angers B, Benard P |
| 1578 - 1584 |
Effects of Lewis number and preferential diffusion on flame characteristics in 80%H-2/20%CO syngas counterflow diffusion flames diluted with He and Ar
Park J, Lee DH, Yoon SH, Vu TM, Yun JH, Keel SI |
| 1585 - 1589 |
Highly porous palladium bulk: Preparation and properties as active metal material for displacement chromatographic process
Li M, Yang WF |
| 1590 - 1606 |
Experimental evaluation of barrier walls for risk reduction of unintended hydrogen releases
Schefer RW, Groethe M, Houf WG, Euans G |
| 1607 - 1612 |
Integral solutions for selected turbulent quantities of small-scale hydrogen leakage: A non-buoyant jet or momentum-dominated buoyant jet regime
El-Amin MF, Kanayama H |
| 1613 - 1619 |
Predictive model of onset of pipe failure due to a detonation of hydrogen-air and hydrocarbon-air mixtures
Kim DH, Yoh JJ |
| 1620 - 1626 |
Boundary layer theory approach to the concentration layer adjacent to the ceiling wall of a hydrogen leakage: Axisymmetric impinging and far regions
El-Amin MF, Kanayama H |
| 1627 - 1628 |
Comment on "Material-based hydrogen storage"
Drulis H |
| 1629 - 1629 |
Response to "Commentary by Dr. Henryk Drulis"
Yang JC |
