| 4451 - 4458 |
Steam electrolysis performance of intermediate-temperature solid oxide electrolysis cell and efficiency of hydrogen production system at 300 Nm(3) h(-1)
Wang ZW, Mori M, Araki T |
| 4459 - 4465 |
Effects of ionic catalysis on hydrogen production by the steam gasification of cellulose
Su S, Li W, Bai ZQ, Xiang HW, Bai J |
| 4466 - 4473 |
Effect of Ti sublayer on the ORR catalytic efficiency of dc magnetron sputtered thin Pt films
Ozturk O, Ozdemir OK, Ulusoy I, Ahsen AS, Slavcheva E |
| 4474 - 4483 |
Hydrogen production by catalytic supercritical water gasification of nitriles
Guo Y, Wang SZ, Xu DH, Gong YM, Tang XY, Zhang J |
| 4484 - 4495 |
Step-by-step methodology of developing a solar reactor for emission-free generation of hydrogen
Ozalp N, Shilapuram V |
| 4496 - 4507 |
Lagrangian characterization of multi-phase turbulent flow in a solar reactor for particle deposition prediction
Ozalp N, Kanjirakat A |
| 4508 - 4511 |
Effect of Sm-doping on the hydrogen permeation of Ni-La(2)Ce(2)O(7) mixed protonic-electronic conductor
Yan LT, Sun WP, Bi L, Fang SM, Tao ZT, Liu W |
| 4512 - 4523 |
Large-scale hydrogen liquefier utilising mixed-refrigerant pre-cooling
Berstad DO, Stang JH, Neksa P |
| 4524 - 4533 |
Development of large-scale hydrogen liquefaction processes from 1898 to 2009
Krasae-in S, Stang JH, Neksa P |
| 4534 - 4542 |
Site density effect of Ni particles on hydrogen desorption of MgH(2)
Yang WN, Shang CX, Guo ZX |
| 4543 - 4553 |
Adsorption of hydrogen atoms onto the exterior wall of carbon nanotubes and their thermodynamics properties
Ng TY, Ren YX, Liew KM |
| 4554 - 4561 |
The dehydrogenation performance and reaction mechanisms of Li(3)AlH(6) with TiF(3) additive
Liu SS, Zhang Y, Sun LX, Zhang J, Zhao JN, Xu F, Huang FL |
| 4562 - 4568 |
Thermochemical transformations in 2MNH(2)-3MgH(2) systems (M = Li or Na)
Dolotko O, Paulson N, Pecharsky VK |
| 4569 - 4575 |
Enhanced hydrogen sorption properties of Ni and Co-catalyzed MgH(2)
Mao JF, Guo ZP, Yu XB, Liu HK, Wu Z, Ni J |
| 4576 - 4581 |
Hydrogen adsorption on Pd-modified carbon nanofibres: Influence of CNF surface chemistry and impregnation procedure
Diaz E, Leon M, Ordonez S |
| 4582 - 4591 |
Analysis of PEM fuel cell experimental data using principal component analysis and multi linear regression
Placca L, Kouta R, Candusso D, Blachot JF, Charon W |
| 4592 - 4596 |
A cost-effective process for fabrication of metal-supported solid oxide fuel cells
Kong YH, Hua B, Pu JA, Chi B, Jian L |
| 4597 - 4605 |
Synthesis and characterization of electrolytes based on BaO-CeO(2)-GdO(1.5) system for Intermediate Temperature Solid Oxide Fuel Cells
Venkatasubramanian A, Gopalan P, Prasanna TRS |
| 4606 - 4621 |
Electrode in direct methanol fuel cells
Zainoodin AM, Kamarudin SK, Daud WRW |
| 4622 - 4629 |
Double microporous layer cathode for membrane electrode assembly of passive direct methanol fuel cells
Cao JY, Chen M, Chen J, Wang SJ, Zou ZQ, Li ZL, Akins DL, Yang H |
| 4630 - 4637 |
Electrochemical investigations on cobalt-microencapsulated MmNi(2.38)Al(0.82)Co(0.66)Si(0.77)Fe(0.13)Mn(0.24) hydrogen storage alloys for Ni-MH batteries
Manimaran K, Ananth MV, Raju M, Renganathan NG, Ganesan M, Nithya G |
| 4638 - 4651 |
Cost-effective energy carriers for transport - The role of the energy supply system in a carbon-constrained world
Hedenus F, Karlsson S, Azar C, Sprei F |
| 4652 - 4667 |
Systematic planning to optimize investments in hydrogen infrastructure deployment
Stephens-Romero SD, Brown TM, Kang JE, Recker WW, Samuelsen GS |
| 4668 - 4675 |
Effect of excess oxygen in plasma reforming of diesel fuel
Lee DH, Kim KT, Cha MS, Song YH |
| 4676 - 4686 |
Analysis of the particulate emissions and combustion performance of a direct injection spark ignition engine using hydrogen and gasoline mixtures
Zhao HY, Stone R, Zhou L |
| 4687 - 4701 |
A quasi-dimensional combustion model for performance and emissions of SI engines running on hydrogen-methane blends
Perini F, Paltrinieri F, Mattarelli E |
| 4702 - 4714 |
Vehicle driving cycle performance of the spark-less di-ji hydrogen engine
Boretti AA |
| 4715 - 4722 |
Characteristics of plasma induced by interaction of a free-oscillated laser pulse with a coal target in air and combustible gas
Yang QS, Peng ZM |
| 4723 - 4735 |
Numerical study of hydrogen triple flame response to mixture stratification, ambient temperature, pressure, and water vapor concentration
Owston R, Abraham J |
| 4736 - 4746 |
Analysis of entropy generation in non-premixed hydrogen versus heated air counter-flow combustion
Chen S, Han HF, Liu ZH, Li J, Zheng CG |
| 4747 - 4757 |
HySafe SBEP-V20: Numerical studies of release experiments inside a naturally ventilated residential garage
Papanikolaou EA, Venetsanos AG, Heitsch M, Baraldi D, Huser A, Pujol J, Garcia J, Markatos N |
| 4758 - 4775 |
Evaluation of barrier walls for mitigation of unintended releases of hydrogen
Houf W, Schefer R, Evans G, Merilo E, Groethe M |
| 4776 - 4786 |
Forced ventilation for sensing-based risk mitigation of leaking hydrogen in a partially open space
Matsuura K, Nakano M, Ishimoto J |
| 4787 - 4787 |
"Novel hydrogen production technologies and applications"
Dincer I, Naterer G |
| 4788 - 4807 |
Feasibility of an energy conversion system in Canada involving large-scale integrated hydrogen production using solid fuels
Gnanapragasam NV, Reddy BV, Rosen MA |
| 4808 - 4819 |
High-temperature electrolysis for large-scale hydrogen and syngas production from nuclear energy - summary of system simulation and economic analyses
O'Brien JE, McKellar MG, Harvego EA, Stoots CM |
| 4820 - 4830 |
Comparison of sulfur-iodine and copper-chlorine thermochemical hydrogen production cycles
Wang ZL, Naterer GF, Gabriel KS, Gravelsins R, Daggupati VN |
| 4831 - 4838 |
An exergy-cost-energy-mass analysis of a hybrid copper-chlorine thermochemical cycle for hydrogen production
Orhan MF, Dincer I, Rosen MA |
| 4839 - 4852 |
Thermophysical properties of copper compounds in copper-chlorine thermochemical water splitting cycles
Zamfirescu C, Dincer I, Naterer GF |
| 4853 - 4860 |
Kinetics study of the copper/hydrochloric acid reaction for thermochemical hydrogen production
Zamfirescu C, Naterer GF, Dincer I |
| 4861 - 4870 |
High-temperature electrolysis for large-scale hydrogen production from nuclear energy - Experimental investigations
Stoots CM, O'Brien JE, Condie KG, Hartvigsen JJ |
| 4871 - 4876 |
Ceramic carbon electrode-based anodes for use in the Cu-Cl thermochemical cycle
Ranganathan S, Easton EB |
| 4877 - 4882 |
Solid particle decomposition and hydrolysis reaction kinetics in Cu-Cl thermochemical hydrogen production
Daggupati VN, Naterer GF, Gabriel KS, Gravelsins RJ, Wang ZL |
| 4883 - 4892 |
Time and frequency domain analysis of hydrogen permeation across PdCu metallic membranes for hydrogen purification
Decaux C, Ngameni R, Solas D, Grigoriev S, Millet P |
| 4893 - 4900 |
Complexation in the Cu(II)-LiCl-H2O system at temperatures to 423 K by UV-Visible spectroscopy
Trevani L, Ehlerova J, Sedlbauer J, Tremaine PR |
| 4901 - 4908 |
Exergetic assessment of solar hydrogen production methods
Joshi AS, Dincer I, Reddy BV |
| 4909 - 4917 |
A solar hydrogen hybrid system with activated carbon storage
Zini G, Marazzi R, Pedrazzi S, Tartarini P |
| 4918 - 4924 |
Ovonic Renewable Hydrogen (ORH) - low temperature hydrogen from renewable fuels
Reichman B, Mays W, Strebe J, Fetcenko M |
| 4925 - 4932 |
Hydrogen production from solar energy powered supercritical cycle using carbon dioxide
Zhang XR, Yamaguchi H, Cao YH |
| 4933 - 4943 |
Hydrogen production from coal gasification for effective downstream CO2 capture
Gnanapragasam NV, Reddy BV, Rosen MA |
| 4944 - 4948 |
Iron oxide (n-Fe2O3) nanowire films and carbon modified (CM)-n-Fe2O3 thin films for hydrogen production by photosplitting of water
Frites M, Shaban YA, Khan SUM |
| 4949 - 4961 |
Potential methods for geothermal-based hydrogen production
Balta MT, Dincer I, Hepbasli A |
| 4962 - 4969 |
Challenges for renewable hydrogen production from biomass
Levin DB, Chahine R |
| 4970 - 4980 |
Thermodynamic analysis of hydrogen production from biomass gasification
Cohce MK, Dincer I, Rosen MA |
| 4981 - 4990 |
Exergy analysis of hydrogen production from biomass gasification
Abuadala A, Dincer I, Naterer GF |
| 4991 - 5000 |
Efficiency assessment of an integrated gasifier/boiler system for hydrogen production with different biomass types
Kalinci Y, Hepbasli A, Dincer I |
| 5001 - 5009 |
Effect of gasification agent on the performance of solid oxide fuel cell and biomass gasification systems
Colpan CO, Hamdullahpur F, Dincer I, Yoo Y |
| 5010 - 5014 |
An integrated system for hydrogen and methane production during landfill leachate treatment
Hafez H, Nakhla G, El Naggar H |
| 5015 - 5020 |
Hydrogen production from raw bioethanol steam reforming: Optimization of catalyst composition with improved stability against various impurities
Le Valant A, Can F, Bion N, Duprez D, Epron F |
| 5021 - 5027 |
Fermentative hydrogen production by diverse microflora
Baghchehsaraee B, Nakhla G, Karamanev D, Margaritis A |
| 5028 - 5033 |
The effect of dilution and L-malic acid addition on bio-hydrogen production with Rhodopseudomonas palustris from effluent of an acidogenic anaerobic reactor
Azbar N, Dokgoz FTC |
| 5034 - 5042 |
Effect of nickel loading on hydrogen production and chemical oxygen demand (COD) destruction from glucose oxidation and gasification in supercritical water
Youssef EA, Chowdhury MBI, Nakhla G, Charpentier P |
| 5043 - 5052 |
PEM water electrolyzers: From electrocatalysis to stack development
Millet P, Ngameni R, Grigoriev SA, Mbemba N, Brisset F, Ranjbari A, Etievant C |
| 5053 - 5060 |
Complementary techniques for solid oxide electrolysis cell characterisation at the micro- and nano-scale
Wiedenmann D, Hauch A, Grobety B, Mogensen M, Vogt UF |
| 5061 - 5069 |
Modelling, simulation and control of a proton exchange membrane fuel cell (PEMFC) power system
Al-Dabbagh AW, Lu LX, Mazza A |
| 5070 - 5076 |
Design and characterization of bi-functional electrocatalytic layers for application in PEM unitized regenerative fuel cells
Grigoriev SA, Millet P, Dzhus KA, Middleton H, Saetre TO, Fateev VN |
| 5077 - 5094 |
Cold start analysis of polymer electrolyte membrane fuel cells
Kui JA, Li XG |
| 5095 - 5103 |
Modeling of ion and water transport in the polymer electrolyte membrane of PEM fuel cells
Baschuk JJ, Li XG |
| 5104 - 5113 |
Energy analysis of a trigeneration plant based on solid oxide fuel cell and organic Rankine cycle
Al-Sulaiman FA, Dincer I, Hamdullahpur F |
| 5114 - 5123 |
Comparative combustion characteristics of gasoline and hydrogen fuelled ICEs
Nieminen J, D'Souza N, Dincer I |
| 5124 - 5132 |
Comparative exergy analyses of gasoline and hydrogen fuelled ICEs
Nieminen J, Dincer I |
| 5133 - 5144 |
Hydrogen storage in Mg: A most promising material
Jain IP, Lal C, Jain A |
| 5145 - 5153 |
Air quality and environmental impacts of alternative vehicle technologies in Ontario, Canada
Kantor I, Fowler MW, Hajimiragha A, Elkamel A |
| 5154 - 5163 |
An energy demand model for a fleet of plug-in fuel cell vehicles and commercial building interfaced with a clean energy hub
Syed F, Fowler M, Wan D, Maniyali Y |
