| 8909 - 8917 |
Design of experiment approach applied to reducing and oxidizing tolerance of anode supported solid oxide fuel cell. Part II: Electrical, electrochemical and microstructural characterization of tape-cast cells
Faes A, Wuillemin Z, Tanasini P, Accardo N, Modena S, Schindler HJ, Cantoni M, Lubbe H, Diethelm S, Hessler-Wyser A, Van Herle J |
| 8918 - 8924 |
Performance of a high temperature polymer electrolyte membrane water electrolyser
Xu W, Scott K, Basu S |
| 8925 - 8930 |
Performance comparison of long and short-side chain perfluorosulfonic membranes for high temperature polymer electrolyte membrane fuel cell operation
Stassi A, Gatto I, Passalacqua E, Antonucci V, Arico AS, Merlo L, Oldani C, Pagano E |
| 8931 - 8941 |
Ni/YSZ anode - Effect of pre-treatments on cell degradation and microstructures
Hauch A, Jorgensen PS, Brodersen K, Mogensen M |
| 8942 - 8947 |
Electrolyte degradation in anode supported microtubular yttria stabilized zirconia-based solid oxide steam electrolysis cells at high voltages of operation
Laguna-Bercero MA, Campana R, Larrea A, Kilner JA, Orera VM |
| 8948 - 8954 |
Response of a planar solid oxide fuel cell to step load and inlet flow temperature changes
Kazempoor P, Ommi F, Dorer V |
| 8955 - 8966 |
Investigation of gas diffusion layer compression by electrochemical impedance spectroscopy on running polymer electrolyte membrane fuel cells
Dotelli G, Omati L, Stampino PG, Grassini P, Brivio D |
| 8967 - 8972 |
In situ metal ion contamination and the effects on proton exchange membrane fuel cell performance
Sulek M, Adams J, Kaberline S, Ricketts M, Waldecker JR |
| 8973 - 8982 |
One-dimensional and non-isothermal model for a passive DMFC
Oliveira VB, Rangel CM, Pinto AMFR |
| 8983 - 8993 |
About the process improvement of adsorptive desulphurisation by adding hydrogen donators as additives in liquid fuels
van Rheinberg O, Lucka K, Kohne H |
| 8994 - 9007 |
Novel hybrid membranes based on polybenzimidazole and ETS-10 titanosilicate type material for high temperature proton exchange membrane fuel cells: A comprehensive study on dense and porous systems
Eguizabal A, Lemus J, Urbiztondo M, Garrido O, Soler J, Blazquez JA, Pina MP |
| 9008 - 9012 |
Microplasma reforming of hydrocarbons for fuel cell power
Besser RS, Lindner PJ |
| 9013 - 9017 |
The effect of materials on proton exchange membrane fuel cell electrode performance
Millington B, Du SF, Pollet BG |
| 9018 - 9021 |
Stress analysis of solid oxide fuel cell anode microstructure reconstructed from focused ion beam tomography
Clague R, Shearing PR, Lee PD, Zhang Z, Brett DJL, Marquis AJ, Brandon NP |
| 9022 - 9026 |
Residual stress and redox cycling of segmented-in-series solid oxide fuel cells
Fujita K, Somekawa T, Hatae T, Matsuzaki Y |
| 9027 - 9035 |
Experimental and computational investigations of a compact steam reformer for fuel oil and diesel fuel
Grote M, Maximini M, Yang Z, Engelhardt P, Kohne H, Lucka K, Brenner M |
| 9036 - 9045 |
Model-based development of low-level control strategies for transient operation of solid oxide fuel cell systems
Sorrentino M, Pianese C |
| 9046 - 9050 |
Study on the crystallization behaviour and thermal stability of glass-ceramics used as solid oxide fuel cell-sealing materials
Godeke D, Dahlmann U |
| 9051 - 9057 |
Support schemes and ownership structures - the policy context for fuel cell based micro-combined heat and power
Schroeder ST, Costa A, Obe E |
| 9058 - 9068 |
Development of integrated fuel cell hybrid power source for electric forklift
Keranen TM, Karimaki H, Viitakangas J, Vallet J, Ihonen J, Hyotyla P, Uusalo H, Tingelof T |
| 9069 - 9075 |
Fuel cell system with sodium borohydride as hydrogen source for unmanned aerial vehicles
Kim K, Kim T, Lee K, Kwon S |
| 9076 - 9080 |
A 100-W class regenerative fuel cell system for lunar and planetary missions
Sone Y |
| 9081 - 9086 |
Dynamic behaviour of Li batteries in hydrogen fuel cell power trains
Veneri O, Migliardini F, Capasso C, Corbo P |
| 9087 - 9095 |
Hydrogen production by reforming of diesel fuel over catalysts derived from LaCo1-xRuxO3 perovskites: Effect of the partial substitution of Co by Ru (x=0.01-0.1)
Mota N, Navarro RM, Alvarez-Galvan MC, Al-Zahrani SM, Fierro JLG |
