| 967 - 980 |
Fuel cells and energy networks of electricity, heat, and hydrogen in residential areas
Aki H, Yamamoto S, Kondoh J, Maeda T, Yamaguchi H, Murata A, Ishii I |
| 981 - 993 |
Effective-use method of exhaust heat for distributed fuel cells
Obara S |
| 994 - 1009 |
Dynamic analyses of regenerative fuel cell power for potential use in renewable residential applications
Maclay JD, Brouwer J, Samuelsen GS |
| 1010 - 1018 |
A 10 kW class PEM fuel cell stack based on the catalyst-coated membrane (CCM) method
Hu MR, Sui S, Zhu XJ, Yu QC, Cao GY, Hong XY, Tu HY |
| 1019 - 1030 |
Characterisation and modelling of a 5 kW PEMFC for transportation applications
Candusso D, Harel F, De Bernardinis A, Francois X, Pera MC, Hissel D, Schott P, Coquery G, Kauffmann JM |
| 1031 - 1039 |
Studies on flooding in PEM fuel cell cathode channels
Su A, Weng FB, Hsu CY, Chen YM |
| 1040 - 1057 |
Analysis of the water and thermal management in proton exchange membrane fuel cell systems
Bao C, Ouyang MG, Yi BL |
| 1058 - 1065 |
Autothermal sorption-enhanced steam reforming of bio-oil/biogas mixture and energy generation by fuel cells: Concept analysis and process simulation
Iordanidis AA, Kechagiopoulos PN, Voutetakis SS, Lemonidou AA, Vasalos IA |
| 1066 - 1078 |
Optimization of Jet-A fuel reforming for aerospace applications
Ibarreta AF, Sung CJ |
| 1079 - 1090 |
Theoretical analysis of a pure hydrogen production separation plant for fuel cells dynamical applications
Capobianco L, Del Prete Z, Schiavetti P, Violante V |
| 1091 - 1102 |
Some technical issues of zero-emission coal technology
Slowinski G |
| 1103 - 1111 |
Microstructure, hydrogen distribution and electrical properties of melt grown high temperature protonic conductors
Berger MH, Sayir A, Berger P |
