| 11 |
Analysis of a biogas-fed SOFC CHP system based on multi-scale hierarchical modeling
Wang YQ, Wehrle L, Banerjee A, Shi YX, Deutschmann O
Renewable Energy, 163, 78, 2021 |
| 12 |
Solid oxide fuel cells in combination with biomass gasification for electric power generation
Shi HG, Li QJ, Tan WY, Qiu H, Su C
Chinese Journal of Chemical Engineering, 28(4), 1156, 2020 |
| 13 |
Sucrose-nitrate auto combustion synthesis of Ce(0.85)Ln(0.10)Sr(0.05)O(2-delta) (Ln = La and Gd) electrolytes for solid oxide fuel cells
Vijaykumar V, Nirala G, Yadav D, Kumar U, Upadhyay S
International Journal of Energy Research, 44(6), 4652, 2020 |
| 14 |
Effect of interface morphology on the residual stress distribution in solid oxide fuel cell
Li QQ, Li GJ, Cao GL, Zhang XW, Cheng MC, Ma YF
International Journal of Energy Research, 44(5), 3497, 2020 |
| 15 |
Multi-objectiveoptimization of solid oxide fuel cell/gas turbine combined heat and power system: A comparison between particle swarm and genetic algorithms
Safari S, Hajilounezhad T, Ehyaei MA
International Journal of Energy Research, 44(11), 9001, 2020 |
| 16 |
Design and fabrication of novel interconnectors for solid oxide fuel cells via rubber pad forming
Timurkutluk B, Onbilgin S
International Journal of Energy Research, 44(11), 8716, 2020 |
| 17 |
Improvement of solid oxide fuel cell performance by a core-shell structured catalyst using low concentration coal bed methane fuel
Yan J, Guo WH, Chen HL, Shi J, Cheng FQ, Li SD, Shao ZP
International Journal of Energy Research, 44(7), 5516, 2020 |
| 18 |
Fabrication of high-quality electrode films for solid oxide fuel cell by screen printing: A review on important processing parameters
Baharuddin NA, Rahman NFA, Abd Rahman H, Somalu MR, Azmi MA, Raharjo J
International Journal of Energy Research, 44(11), 8296, 2020 |
| 19 |
Chemo-mechanical coupling model of solid oxide fuel cell under high-temperature oxidation
Chen YP, Hao WQ, Wang FH
International Journal of Energy Research, 44(8), 7068, 2020 |
| 20 |
Enhanced performance of lithiated cathode materials of LiCo0.6X0.4O2 (X = Mn, Sr, Zn) for proton-conducting solid oxide fuel cell applications
Yusoff WNAW, Somalu MR, Baharuddin NA, Muchtar A, Wei LJ
International Journal of Energy Research, 44(14), 11783, 2020 |
