| 1 - 7 |
LiBH4 a new hydrogen storage material
Zuttel A, Wenger P, Rentsch S, Sudan P, Mauron P, Emmenegger C |
| 8 - 13 |
The Direct FuelCell (TM) stack engineering
Doyon J, Farooque M, Maru H |
| 14 - 22 |
Hydrogen based emergency back-up system for telecommunication applications
Varkaraki E, Lymberopoulos N, Zachariou A |
| 23 - 34 |
Electrochemical behaviour of lithium-nickel oxides in molten carbonate
Escudero MJ, Rodrigo T, Soler J, Daza L |
| 35 - 43 |
Stability of Fe-Cr alloy interconnects under CH4-H2O atmosphere for SOFCs
Horita T, Xiong YP, Yamaji K, Sakai N, Yokokawa H |
| 44 - 46 |
Bipolar plates for PEM fuel cells
Middelman E, Kout W, Vogelaar B, Lenssen J, de Waal E |
| 47 - 53 |
Innovative low temperature SOFCs and advanced materials
Zhu B, Yang XT, Xu J, Zhu ZG, Ji SJ, Sun MT, Sun JC |
| 54 - 60 |
Liquid-feed direct oxidation fuel cells using neat 2-propanol as fuel
Qi ZG, Kaufman A |
| 61 - 65 |
A new generation of water gas shift catalysts for fuel cell applications
Ruettinger W, Ilinich O, Farrauto RJ |
| 66 - 70 |
High temperature hybrid steam-reforming for hydrogen generation without catalyst
Marty P, Grouset D |
| 71 - 78 |
Development of a methanol fuelled reformer for fuel cell applications
Lindstrom B, Pettersson LJ |
| 79 - 85 |
Computer methods for performance prediction in fuel cells
Beale SB, Lin Y, Zhubrin SV, Dong W |
| 86 - 95 |
Efficient simulation of fuel cell stacks with the volume averaging method
Roos M, Batawi E, Harnisch U, Hocker T |
| 96 - 107 |
A global thermo-electrochemical model for SOFC systems design and engineering
Petruzzi L, Cocchi S, Fineschi F |
| XI - XI |
Special issue - Selected papers presented at the conference'Scientific Advances in Fuel Cell Systems' - Amsterdam, The Netherlands, 25-26 September 2002 - Preface
Moseley PT |
| 108 - 117 |
Analysis and optimization of hybrid MCFC gas turbines plants
Lunghi P, Bove R, Desideri U |
| 118 - 128 |
Design considerations for effective control of an afterburner sub-system in a combined heat and power (CHP) fuel cell system (FCS)
Colella WG |
| 129 - 149 |
Modelling results for the thermal management sub-system of a combined heat and power (CHP) fuel cell system (FCS)
Colella WG |
| 150 - 156 |
Protonic ceramic fuel cells for high-efficiency operation with methane
Coors WG |
| 157 - 161 |
Solvent activities of the fluorinated solid polymer electrolyte/water system in fuel cells
Kim TH, Bae YC |
| 162 - 171 |
Planar self-breathing fuel cells
Schmitz A, Tranitz M, Wagner S, Hahn R, Hebling C |
| 172 - 178 |
Electrode permeability and flow-field configuration: influence on the performance of a PEMFC
Soler J, Hontanon E, Daza L |
| 179 - 182 |
Impedance spectroscopy as a tool in the evaluation of MEA's
Romero-Castanon T, Arriaga LG, Cano-Castillo U |
| 183 - 188 |
Titanium sinter as gas diffusion backing in PEMFC
Hottinen T, Mikkola M, Mennola T, Lund P |
| 189 - 192 |
A multi-layer structured cathode for the PEMFC
Yoon YG, Yang TH, Park GG, Lee WY, Kim CS |
| 193 - 199 |
Current distribution in a single cell of PEMFC
Yoon YG, Lee WY, Yang TH, Park GG, Kim CS |
| 200 - 204 |
The effect of platinum loading in the self-humidifying polymer electrolyte membrane on water uptake
Kwak SH, Yang TH, Kim CS, Yoon KH |
| 205 - 211 |
Preparation and performance of a Nafion (R)/montmorillonite nanocomposite membrane for direct methanol fuel cell
Jung DH, Cho SY, Peck DH, Shin DR, Kim JS |
| 212 - 217 |
Residential fuel cell energy systems performance optimization using "soft computing" techniques
Entchev E |
| 218 - 227 |
The carbon dioxide concentrator by using MCFC
Sugiura K, Takei K, Tanimoto K, Miyazaki Y |
| 228 - 236 |
Optimum operating conditions of DIR-MCFC without vapor-phase carbonate pollution
Sugiura K, Daimon M, Tanimoto K |
| 237 - 247 |
Electrolytic hydrogen storage in reluctant intermetallic systems
Casellato U, Comisso N, Davolio G, Mengoli G |
| 248 - 255 |
Performance of a direct methanol fuel cell operated at atmospheric pressure
Nakagawa N, Xiu Y |
| 256 - 264 |
Synthesis of nanocrystalline materials for SOFC applications by acrylamide polymerisation
Tarancon A, Dezanneau G, Arbiol J, Peiro F, Morante JR |
| 265 - 269 |
Electrochemical studies of hydrogen evolution, storage and oxidation on carbon nanotube electrodes
Prosini PP, Pozio A, Botti S, Ciardi R |
| 270 - 275 |
Oxygen permeation and stability of La0.4Ca0.6Fe1-xCoxO3-delta (x=0, 0.25, 0.5) membranes
Diethelm S, Van herle J, Middleton PH, Favrat D |
| 276 - 285 |
LaCrO3-based anodes: stability considerations
Sfeir J |
| 286 - 297 |
Mixture preparation by cool flames for diesel-reforming technologies
Hartmann L, Lucka K, Kohne H |
| 298 - 303 |
Gold's future role in fuel cell systems
Cameron D, Holliday R, Thompson D |
| 304 - 310 |
FTIR study of methanol decomposition on gold catalyst for fuel cells
Boccuzzi F, Chiorino A, Manzoli A |
| 311 - 314 |
A novel process for stationary hydrogen production: the reformer sponge iron cycle (RESC)
Hacker V |
| 315 - 319 |
Hydrogen generation from water electrolysis - possibilities of energy saving
Stojic DL, Marceta MP, Sovilj SP, Miljanic SS |
| 320 - 324 |
Emission-free fuel reformers for mobile and portable fuel cell applications
Muradov N |
| 325 - 333 |
Characterization of Pt-based catalyst materials by voltammetric techniques
Koponen U, Kumpulainen H, Bergelin M, Keskinen J, Peltonen T, Valkiainen M, Wasberg M |
| 334 - 341 |
Evaluation of the nafion effect on the activity of Pt-Ru electrocatalysts for the electro-oxidation of methanol
Chu YH, Shul YG, Choi WC, Woo SI, Han HS |
| 342 - 348 |
Ammonia as a fuel in solid oxide fuel cells
Wojcik A, Middleton H, Damopoulos I, Van herle J |
| 349 - 357 |
Real life testing of a hybrid PEM fuel cell bus
Folkesson A, Andersson C, Alvfors P, Alakula M, Overgaard L |
| 358 - 366 |
Technical design and economic evaluation of a stand-alone PEFC system for buildings in Sweden
Wallmark C, Alvfors P |
| 367 - 374 |
Thermal modeling of a small anode supported solid oxide fuel cell
Larrain D, Van herle J, Marechal F, Favrat D |
| 375 - 383 |
Energy balance model of a SOFC cogenerator operated with biogas
Van herle J, Marechal F, Leuenberger S, Favrat D |
| 384 - 392 |
Autothermal reforming as a hydrocarbon fuel processing option for PEM fuel cell
Ersoz A, Olgun H, Ozdogan S, Gungor C, Akgun F, Tiris M |
| 393 - 404 |
Wood-fired fuel cells in selected buildings
McIlveen-Wright DR, McMullan JT, Guiney DJ |
| 405 - 410 |
Fully automatic test facilities for the characterisation of DMFC and PEFC MEAs
Gulzow E, Weisshaar S, Reissner R, Schroder W |
| 411 - 423 |
Optimization of a fuel cell system using process integration techniques
Godat J, Marechal F |
| 424 - 429 |
PEMFC systems: the need for high temperature polymers as a consequence of PEMFC water and heat management
Mallant RKAM |
| 430 - 439 |
Object-based modeling of SOFC system: dynamic behavior of micro-tube SOFC
Ota T, Koyama M, Wen CJ, Yamada Y, Takahashi H |
