| 4109 - 4111 |
Energy efficiency, no: It's exergy efficiency!
Winter CJ |
| 4112 - 4118 |
Effect of ferrous ion on photo heterotrophic hydrogen production by Rhodobacter sphaeroides
Zhu H, Fang HHP, Zhang T, Beaudette LA |
| 4119 - 4134 |
Hydrogen production from biomass coupled with carbon dioxide capture: The implications of thermodynamic equilibrium
Florin NH, Harris AT |
| 4135 - 4141 |
Maximizing renewable hydrogen production from biomass in a bio/catalytic refinery
Westermann P, Jorgensen B, Lange L, Ahring BK, Christensen CH |
| 4142 - 4152 |
Electrochemical performance of crystalline Ni-Co-Mo-Fe electrodes obtained by mechanical alloying on the oxygen evolution reaction
Plata-Torres M, Torres-Huerta AM, Dominguez-Crespo MA, Arce-Estrada EM, Ramirez-Rodriguez C |
| 4153 - 4159 |
Electrodeposition of nanoporous nickel oxide film for electrochemical capacitors
Wu MS, Huang YA, Yang CH, Jow HH |
| 4160 - 4169 |
Conceptual design of hydrogen production system with thermochemical water-splitting iodine-sulphur process utilizing heat from the high-temperature gas-cooled reactor HTTR
Sakaba N, Kasahara S, Onuki K, Kunitomi K |
| 4170 - 4179 |
Investigation into a catalytically controlled reaction gasifier (CCRG) for coal to hydrogen
Castaldi MJ, Dooher JP |
| 4180 - 4185 |
Electrochemical characteristics of the ball-milled LaMg10-xTixNi2 alloys with Ni powders (x=1 and 2)
Wang Y, Wang X, Gao XP, Shenb P |
| 4186 - 4190 |
Hydrogenation properties of amorphous 2Mg+Fe/x wt% Ni materials prepared by mechanical alloying (x=0, 100, 200)
Okonska I, Iwasieczko W, Jarzebski M, Nowak M, Jurczyk A |
| 4191 - 4194 |
Dehydriding of Sn/MgH2 nanocomposite formed by ball milling of MgH2 with Sn
Imamura H, Yoshihara K, Yoa M, Kitazawa I, Sakata Y, Ooshima S |
| 4195 - 4201 |
Investigations on synthesis, characterization and hydrogenation behavior of hydrogen storage alloys, Mm(1-x)Ca(x)Ni(5-y-z)Al(y)Fe(z) (x=0, 0.05, 0.1, 0.2, 0.3; y=0, 0.1; z=0, 0.1)
Srivastava S, Upadhyay RK |
| 4202 - 4208 |
Formation of lattice strain in MmNi(4.30-x)Co(x)Al(0.30)Mn(0.40) (x=0, 0.75) during hydrogenation
Endo D, Sakaki K, Akiba E |
| 4209 - 4214 |
Structure and electrochemical characteristics of CeMn1-xAl1-xNi2x (x=0.00, 0.25, 0.50 and 0.75) alloys
Hou CP, Zhao MS, Qiao YQ, Li J, Huang L, Wang YZ, Liu X, Liu SZ, Yue M |
| 4215 - 4219 |
Effects of the ball-milling with LmNi(4.1)Al(0.25)Mn(0.3)Co(0.65) alloy on the electrode characteristics of Ti0.32Cr0.43V0.25 alloy for Ni-MH batteries
Park JY, Park CN, Park CJ, Choi J |
| 4220 - 4224 |
Study on the structure and electrochemical performance of AB(3)-type hydrogen storage composite electrode material
Liu Y, Wang YJ, Xiao LL, Song DW, Hao LF, Yuan HT |
| 4225 - 4232 |
An application of a homogenization method to the estimation of effective thermal conductivity of a hydrogen storage alloy bed considering variation of contact conditions between alloy particles
Ueoka K, Miyauchi S, Asakuma Y, Hirosawa T, Morozumi Y, Aoki H, Miura T |
| 4233 - 4237 |
Low-temperature adsorption of hydrogen on ion-exchanged Y zeolites
Jhung SH, Lee JS, Yoon JW, Kim DP, Chang JS |
| 4238 - 4249 |
Hydrogen storage by carbon materials synthesized from oil seeds and fibrous plant materials
Sharon M, Soga T, Afre R, Sathiyamoorthy D, Dasgupta K, Bhardwaj S, Sharon M, Jaybhaye S |
| 4250 - 4257 |
Geothermal energy use in hydrogen liquefaction
Kanoglu M, Dincer I, Rosen MA |
| 4258 - 4266 |
Water bath calorimetry on a catalytic reaction of atomic hydrogen
Mills RL, Zea H, He J, Dhandapani B |
| 4267 - 4271 |
Influence of air electrode electrocatalysts on performance of air-MH cells
Ananth MV, Manimaran K, Raj IA, Sureka N |
| 4272 - 4278 |
Design and fabrication of carbon nanotube-based microfuel cell and fuel cell stack coupled with hydrogen storage device
Reddy ALM, Ramaprabhu S |
| 4279 - 4284 |
Experimental study on a spark ignition engine fuelled by methane-hydrogen mixtures
Akansu SO, Kahraman N, Ceper B |
| 4285 - 4293 |
Improving thermal efficiency by reducing cooling losses in hydrogen combustion engines
Shudo T |
| 4295 - 4305 |
A follow-up and conclusive report on the attitude towards hydrogen fuel cell buses in the CUTE project - From passengers in Stockholm to bus operators in Europe
Saxe M, Folkesson A, Alvfors P |
| 4306 - 4318 |
Prospects of fuel cell auxiliary power units in the civil markets
Agnolucci P |
| 4319 - 4328 |
Economics and market prospects of portable fuel cells
Agnolucci P |
| 4329 - 4339 |
Study on capacity optimization of PEM fuel cell and hydrogen mixing gas-engine compound generator
Obara S, Tanno I |
| 4340 - 4349 |
Performance investigation of 2.4 kW PEM fuel cell stack in vehicles
Corbo P, Migliardini F, Veneri O |
| 4350 - 4357 |
High performance PEMFC stack with open-cathode at ambient pressure and temperature conditions
Santa Rosa DT, Pinto DG, Silva VS, Silva RA, Rangel CM |
| 4358 - 4364 |
AC impedance characteristics of a 2 kW PEM fuel cell stack under different operating conditions and load changes
Yan XQ, Hou M, Sun LY, Liang D, Shen Q, Xu HF, Ming PW, Yi BL |
| 4365 - 4380 |
AC impedance technique in PEM fuel cell diagnosis - A review
Yuan XZ, Wang HJ, Sun JC, Zhang JJ |
| 4381 - 4388 |
On the electrochemical impedance spectroscopy of direct methanol fuel cell
Lai CM, Lin JC, Hsueh KL, Hwang CP, Tsay KC, Tsai LD, Peng YM |
| 4389 - 4396 |
Ruthenium-free, carbon-supported cobalt and tungsten containing binary & ternary Pt catalysts for the anodes of direct methanol fuel cells
Zeng JH, Lee JY |
| 4397 - 4401 |
Synergistic effect of CeO2 modified Pt/C electrocatalysts on the performance of PEM fuel cells
Xu HF, Hou XL |
| 4402 - 4411 |
Enhancing the CO tolerance of PEMFC MEAs by combining sputter-deposited and direct-printed composite anode catalyst layers
Wan CH, Zhuang QH |
| 4412 - 4417 |
The effect of H2S and CO mixtures on PEMFC performance
Shi WY, Yi BL, Hou M, Shao ZG |
| 4418 - 4423 |
Optimization of parametric performance of a PEMFC
Kaytakoglu S, Akyalcin L |
| 4424 - 4437 |
The effects of non-uniform distribution of catalyst loading on polymer electrolyte membrane fuel cell performance
Roshandel R, Farhanieh B |
| 4438 - 4442 |
On the possibility of replacement of Pt by Pd in a hydrogen electrode of PEM fuel cells
Grigoriev SA, Lyutikova EK, Martemianov S, Fateev VN |
| 4443 - 4451 |
Gas diffusion through differently structured gas diffusion layers of PEM fuel cells
Zhan ZG, Xiao JS, Zhang YS, Pan M, Yuan RZ |
| 4452 - 4458 |
Effects of fabrication processes and material parameters of GDL on cell performance of PEM fuel cell
Yan WM, Hsueh CY, Soong CY, Chen FL, Cheng CH, Mei SC |
| 4459 - 4465 |
Improvement of water management in air-breathing and air-blowing PEMFC at low temperature using hydrophilic silica nano-particles
Jung UH, Jeong SU, Park KT, Lee HM, Chun K, Choi DW, Kim SH |
| 4466 - 4476 |
A three-dimensional full-cell CFD model used to investigate the effects of different flow channel designs on PEMFC performance
Ferng YM, Su A |
| 4477 - 4488 |
An analytical study of the PEM fuel cell with axial convection in the gas channel
Lin YT, Lin CT, Chen YC, Yin KM, Yang CT |
| 4489 - 4502 |
Effects of flow field and diffusion layer properties on water accumulation in a PEM fuel cell
Owejan JP, Trabold TA, Jacobson DL, Arif M, Kandlikar SG |
| 4503 - 4509 |
Investigation of resided water effects on PEM fuel cell after cold start
Hou JB, Yi BL, Yu HM, Hao LX, Song W, Fu Y, Shao ZG |
| 4510 - 4522 |
Effect of operating parameters on the hygro-thermal stresses in proton exchange membranes of fuel cells
Al-Baghdadi MARS, Al-Janabi HAKS |
| 4523 - 4536 |
Comparison between two PEM fuel cell durability tests performed at constant current and under solicitations linked to transport mission profile
Wahdame B, Candusso D, Francois X, Harel F, Pera MC, Hissel D, Kauffmann JM |
| 4537 - 4543 |
Properties of graphite-composite bipolar plate prepared by compression molding technique for PEM fuel cell
Dhakate SR, Mathur RB, Kakati BK, Dhami TL |
| 4544 - 4549 |
Agni-catalyzed anode for direct borohydride fuel cells
Feng RX, Dong H, Cao YL, Ai XP, Yang H |
| 4550 - 4558 |
Selective oxidation of CO in excess hydrogen over CuO/CexZr1-xO2-Al2O3 catalysts
Chen YZ, Liaw BJ, Chang WC, Huang CT |
| 4559 - 4574 |
Experimental and numerical analysis of a radial flow solid oxide fuel cell
Andreassi L, Rubeo G, Ubertini S, Lunghi P, Bove R |
| 4575 - 4590 |
Simulation of a tubular solid oxide fuel cell through finite volume analysis: Effects of the radiative heat transfer and exergy analysis
Calise F, d'Accadia MD, Restuccia G |
| 4591 - 4599 |
Energy and exergy analysis of internal reforming solid oxide fuel cell-gas turbine hybrid system
Bavarsad PG |
| 4600 - 4609 |
Exergetic performance coefficient analysis of a simple fuel cell system
Akkaya AV, Sahin B, Erdem HH |
