| 861 - 871 |
Using renewables and the co-production of hydrogen and electricity from CCS-equipped IGCC facilities, as a stepping stone towards the early development of a hydrogen economy
Haeseldonckx D, D'haeseleer W |
| 872 - 891 |
Optimum design and operation under uncertainty of power systems using renewable energy sources and hydrogen storage
Giannakoudis G, Papadopoulos AI, Seferlis P, Voutetakis S |
| 892 - 899 |
Development of a renewable hydrogen economy: optimization of existing technologies
Kelly NA, Gibson TL, Cai M, Spearot JA, Ouwerkerk DB |
| 900 - 911 |
Predicting efficiency of solar powered hydrogen generation using photovoltaic-electrolysis devices
Gibson TL, Kelly NA |
| 912 - 919 |
Monitoring and control of a hydrogen production and storage system consisting of water electrolysis and metal hydrides
Perez-Herranz V, Perez-Page M, Beneito R |
| 920 - 927 |
Characterization of energy losses in an upflow single-chamber microbial electrolysis cell
Lee HS, Rittmann BE |
| 928 - 935 |
Stand-alone PEM water electrolysis system for fail safe operation with a renewable energy source
Clarke RE, Giddey S, Badwal SPS |
| 936 - 941 |
Carbon nanotube-supported Pt-HxMoO3 as electrocatalyst for methanol oxidation
Zhou ZH, Li WS, Fu Z, Xiang XD |
| 942 - 948 |
Oxygen reduction reaction operated on magnetically-modified PtFe/C electrocatalyst
Zeng JH, Liao SJ, Lee JY, Liang ZX |
| 949 - 957 |
Pyrolysis-gasification of post-consumer municipal solid plastic waste for hydrogen production
Wu CF, Williams PT |
| 958 - 965 |
On the synthesis of hydrogen producing alternative thermochemical cycles with electrochemical steps
Andress RJ, Martin LL |
| 966 - 977 |
Design and reliability assessment of control systems for a nuclear-based hydrogen production plant with copper-chlorine thermochemical cycle
Al-Dabbagh AW, Lu LX |
| 978 - 991 |
Modeling the phase equilibria of the HIx mixture using the SAFT-VRE equation of state: Binary systems
Paricaud P, Tazi L, Borgard JM |
| 992 - 1000 |
Hydrogen production by the Cu-Cl thermochemical cycle: Investigation of the key step of hydrolysing CuCl2 to Cu2OCl2 and HCl using a spray reactor
Ferrandon MS, Lewis MA, Tatterson DF, Gross A, Doizi D, Croize L, Dauvois V, Roujou JL, Zanella Y, Carles P |
| 1001 - 1007 |
High performance ceramic carbon electrode-based anodes for use in the Cu-Cl thermochemical cycle for hydrogen production
Ranganathan S, Easton EB |
| 1008 - 1018 |
Plant sizing and evaluation of hydrogen production costs from advanced processes coupled to a nuclear heat source. Part I: Sulphur-iodine cycle
Leybros J, Gilardi T, Saturnin A, Mansilla C, Carles P |
| 1019 - 1028 |
Plant sizing and evaluation of hydrogen production costs from advanced processes coupled to a nuclear heat source: Part II: Hybrid-sulphur cycle
Leybros J, Saturnin A, Mansilla C, Gilardi T, Carles P |
| 1029 - 1037 |
Hydrogen generation through massive corrosion of deformed aluminum in water
Czech E, Troczynski T |
| 1038 - 1048 |
Hydrogen generation from water and aluminum promoted by sodium stannate
Soler L, Candela AM, Macanas J, Munoz M, Casado J |
| 1049 - 1053 |
Can aqueous hydrogen peroxide be used as a stand-alone energy source?
Disselkamp RS |
| 1054 - 1064 |
Studies on properties of laminar premixed hydrogen-added ammonia/air flames for hydrogen production
Lee JH, Kim JH, Park JH, Kwon OC |
| 1065 - 1073 |
Molecular characterization and homologous overexpression of [FeFe]-hydrogenase in Clostridium tyrobutyricum JM1
Jo JH, Jeon CO, Lee SY, Lee DS, Park JM |
| 1074 - 1088 |
Evidence for transcription of three genes with characteristics of hydrogenases in the green alga Chlamydomonas noctigama
Skjanes K, Pinto FL, Lindblad P |
| 1089 - 1098 |
Optimization of culture conditions for biological hydrogen production by Citrobacter freundii CWBI952 in batch, sequenced-batch and semicontinuous operating mode
Hamilton C, Hiligsmann S, Beckers L, Masset J, Wilmotte A, Thonart P |
| 1099 - 1105 |
Biohydrogen production from specified risk materials co-digested with cattle manure
Gilroyed BH, Li CL, Hao XY, Chu A, McAllister TA |
| 1106 - 1111 |
Effects of starch loading rate on performance of combined fed-batch fermentation of ground wheat for bio-hydrogen production
Ozmihci S, Kargi F |
| 1112 - 1116 |
Bacterial hydrogen production in recombinant Escherichia coli harboring a HupSL hydrogenase isolated from Rhodobacter sphaeroides under anaerobic dark culture
Lee SY, Lee HJ, Park JM, Lee JH, Park JS, Shin HS, Kim YH, Min J |
| 1117 - 1127 |
Screening for biohydrogen production by cyanobacteria isolated from the Baltic Sea and Finnish lakes
Allahverdiyeva Y, Leino H, Saari L, Fewer DP, Shunmugam S, Sivonen K, Aro EM |
| 1128 - 1137 |
A quantitative analysis of hydrogen production efficiency of the extreme thermophile Caldicellulosiruptor owensensis OLT
Zeidan AA, van Niel EWJ |
| 1138 - 1146 |
Hydrogen production through auto-thermal reforming of bio-ethanol over Co-based catalysts: effect of iron in Co/Al2O3 catalysts
Huang LH, Chen RR, Chu D, Hsu AT |
| 1147 - 1151 |
Hydrogen production from ethanol over Co/ZnO catalyst in a multi-layered reformer
Lee YK, Kim KS, Ahn JG, Son IH, Shin WC |
| 1152 - 1159 |
Hydrogen production from ethanol steam reforming in a micro-channel reactor
Cai WJ, Wang FG, van Veen A, Descorme C, Schuurman Y, Shen WJ, Mirodatos C |
| 1160 - 1190 |
Hydrogen production by methane decomposition: A review
Abbas HF, Daud WMAW |
| 1191 - 1204 |
Application of response surface methodology to assess the combined effect of operating variables on high-pressure coal gasification for H-2-rich gas production
Fermoso J, Gil MV, Arias B, Plaza MG, Pevida C, Pis JJ, Rubiera F |
| 1205 - 1212 |
Life cycle assessment of hydrogen production by methane decomposition using carbonaceous catalysts
Dufour J, Galvez JL, Serrano DP, Moreno J, Martinez G |
| 1213 - 1218 |
Valence band of catalyst doped sodium alanate by X-ray photoelectron spectroscopy using synchrotron radiation
Wan CB, Ju X, Qi Y, Chen Y, Wang SM, Liu XP, Jiang LJ, Shen J |
| 1219 - 1226 |
High-density automotive hydrogen storage with cryogenic capable pressure vessels
Aceves SM, Espinosa-Loza F, Ledesma-Orozco E, Ross TO, Weisberg AH, Brunner TC, Kircher O |
| 1227 - 1231 |
Effects of alkaline treatment of hydrogen storage alloy on electrocatalytic activity for NaBH4 oxidation
Wang GL, Wang XY, Miao RR, Cao DAX, Sun KN |
| 1232 - 1244 |
Effect of copper loading on copper-ceria catalysts performance in CO selective oxidation for fuel cell applications
Ayastuy JL, Gurbani A, Gonzalez-Marcos MP, Gutierrez-Ortiz MA |
| 1245 - 1249 |
Alloying effects of Ru and W on hydrogen diffusivity during hydrogen permeation through Nb-based hydrogen permeable membranes
Zhang GX, Yukawa H, Nambu T, Matsumoto Y, Morinaga M |
| 1250 - 1256 |
Improving the hydrogen absorption properties of commercial Mg-Zn-Zr alloy
Wang JY, Wu CY, Nieh JK, Lin HC, Lin KM, Bor HY |
| 1257 - 1266 |
Dynamic synthesis of ternary Mg2FeH6
Polanski M, Plocinski T, Kunce I, Bystrzycki J |
| 1267 - 1272 |
Structural investigation and hydrogen storage properties of Ca3-xLaxMg2Ni13 alloys
Si TZ, Pang G, Liu DM, Zhang QA |
| 1273 - 1279 |
Single-particle investigation on the activation process of a hydrogen storage alloy
Gao F, Yang YF, Liu J, Shao HX |
| 1280 - 1284 |
Open space for the physisorption of H-2: Cointercalation of graphite with Li, Ti metal atoms and ethylene molecules
Chu SB, Hu XR, Du CL, Wu XB, Dai YC, Hu LB, Deng JB, Feng YP |
| 1285 - 1295 |
Effect of C (graphite) doping on the H-2 sorption performance of the Mg-Ni storage system
Milanese C, Girella A, Garroni S, Bruni G, Berbenni V, Matteazzi P, Marini A |
| 1296 - 1299 |
In-situ infrared imaging methodology for measuring heterogeneous growth process of a hydride phase
Oguchi H, Tan Z, Heilweil EJ, Bendersky LA |
| 1300 - 1304 |
Enhancement of hydrogen storage capacity in polyaniline-vanadium pentoxide nanocomposites
Kim BH, Hong WG, Lee SM, Yun YJ, Yu HY, Oh SY, Kim CH, Kim YY, Kim HJ |
| 1305 - 1312 |
Zeolite confined palladium(0) nanoclusters as effective and reusable catalyst for hydrogen generation from the hydrolysis of ammonia-borane
Rakap M, Ozkar S |
| 1313 - 1320 |
Hydrogen storage in coiled carbon nanotubes
Gayathri V, Devi NR, Geetha R |
| 1321 - 1329 |
Alternative carriers for remote renewable energy sources using existing CNG infrastructure
Dickinson RR, Battye DL, Linton VM, Ashman PJ, Nathan GJ |
| 1330 - 1338 |
Multi-scale design simulation of a novel intermediate-temperature micro solid oxide fuel cell stack system
Lee SF, Hong CW |
| 1339 - 1346 |
Multi walled carbon nanotubes based micro direct ethanol fuel cell using printed circuit board technology
Jafri RI, Ramaprabhu S |
| 1347 - 1355 |
Study of the influence of the amount of PBI-H3PO4 in the catalytic layer of a high temperature PEMFC
Lobato J, Canizares P, Rodrigo MA, Linares JJ, Pinar FJ |
| 1356 - 1366 |
Structural, electrical and electrochemical characterizations of SrNb0.1Co0.9O3-delta as a cathode of solid oxide fuel cells operating below 600 degrees C
Zhou W, Jin WQ, Zhu ZH, Shao ZP |
| 1367 - 1376 |
Experimental and numerical study on premixed hydrogen/air flame propagation in a horizontal rectangular closed duct
Xiao HH, Wang QS, He XC, Sun JH, Yao LY |
| 1377 - 1389 |
Static and dynamic modeling of a diesel fed fuel cell power supply
Chrenko D, Lecoq S, Herail E, Hissel D, Pera MC |
| 1390 - 1400 |
A study on methane-air premixed flames interacting with syngas-air premixed flames
Kim JS, Park J, Bae DS, Vu TM, Ha JS, Kim TK |
| 1401 - 1411 |
Analysis of entropy generation in counter-flow premixed hydrogen-air combustion
Chen S |
| 1412 - 1419 |
Extension of the lean limit through hydrogen enrichment of a LFG-fueled spark-ignition engine and emissions reduction
Kornbluth K, Greenwood J, McCaffrey Z, Vernon D, Erickson P |
| 1420 - 1429 |
Conversion of a commercial spark ignition engine to run on hydrogen: Performance comparison using hydrogen and gasoline
Sopena C, Dieguez PM, Sainz D, Urroz JC, Guelbenzu E, Gandia LM |
| 1430 - 1442 |
Efficiency of hydrogen internal combustion engine combined with open steam Rankine cycle recovering water and waste heat
Yamada N, Mohamad MNA |
| 1443 - 1452 |
Hydrogen enrichment effects on the second law analysis of a lean burn natural gas engine
Ozcan H |
| 1453 - 1462 |
Experimental study on combustion and emissions performance of a hybrid hydrogen-gasoline engine at lean burn limits
Ji CW, Wang SF |
| 1463 - 1473 |
Partial substitution of hydrogen for conventional fuel in an aircraft by utilizing unused cargo compartment space
Turgut ET, Rosen MA |
| 1474 - 1484 |
Simulation of double-stage double-effect metal hydride heat pump
Satheesh A, Muthukumar P |
| 1485 - 1492 |
Hydrogen embrittlement of Cr-Mn-N-austenitic stainless steels
Michler T, Naumann J |
| 1493 - 1505 |
Safety assessment of envisaged systems for automotive hydrogen supply and utilization
Landucci G, Tugnoli A, Cozzani V |
| 1506 - 1514 |
A coupled elastoplastic-transient hydrogen diffusion analysis to simulate the onset of necking in tension by using the finite element method
Miresmaeili R, Ogino M, Nakagawa T, Kanayama H |
| 1515 - 1521 |
Harm effect distances evaluation of severe accidents for gaseous hydrogen refueling station
Li ZY, Pan XM, Ma JX |
