51 |
Comparison of humidified hydrogen and partly pre-reformed natural gas as fuel for solid oxide fuel cells applying computational fluid dynamics Andersson M, Nakajima H, Kitahara T, Shimizu A, Koshiyama T, Paradis H, Yuan JL, Sunden B International Journal of Heat and Mass Transfer, 77, 1008, 2014 |
52 |
Study of a SOFC with a bimetallic Cu-Co-ceria anode directly fuelled with simulated biogas mixtures Fuerte A, Valenzuela RX, Escudero MJ, Daza L International Journal of Hydrogen Energy, 39(8), 4060, 2014 |
53 |
Thermal field under the effect of the chemical reaction of a direct internal reforming solid oxide fuel cell DIR-SOFC Dehimi S, Haddad D, Mebarki B, Bendris T, Aissat A International Journal of Hydrogen Energy, 39(27), 15261, 2014 |
54 |
An additional layer in an anode support for internal reforming of methane for solid oxide fuel cells Park YM, Kim H International Journal of Hydrogen Energy, 39(29), 16513, 2014 |
55 |
Performance degradation of solid oxide fuel cells due to sulfur poisoning of the electrochemical reaction and internal reforming reaction Vahc ZY, Jung CY, Yi SC International Journal of Hydrogen Energy, 39(30), 17275, 2014 |
56 |
In situ hydrogen utilization in an internal reforming methanol fuel cell Avgouropoulos G, Paxinou A, Neophytides S International Journal of Hydrogen Energy, 39(31), 18103, 2014 |
57 |
Carbon-tolerant solid oxide fuel cells using NiTiO3 as an anode internal reforming layer Wang ZQ, Wang ZB, Yang WQ, Peng RR, Lu YL Journal of Power Sources, 255, 404, 2014 |
58 |
Investigation into the effects of sulfur on syngas reforming inside a solid oxide fuel cell Li TS, Xu M, Gao CX, Wang BQ, Liu XY, Li BH, Wang WG Journal of Power Sources, 258, 1, 2014 |
59 |
Electrochemical evaluation of sulfur poisoning in a methane-fuelled solid oxide fuel cell: Effect of current density and sulfur concentration Hagen A, Johnson GB, Hjalmarsson P Journal of Power Sources, 272, 776, 2014 |
60 |
Additive effect of Ce, Mo and K to nickel-cobalt aluminate supported solid oxide fuel cell for direct internal reforming of methane Kwak BH, Park J, Yoon H, Kim HH, Kim L, Chung JS Korean Journal of Chemical Engineering, 31(1), 29, 2014 |