| 61 |
Modeling of all-porous solid oxide fuel cells with a focus on the electrolyte porosity design
Xu HR, Chen B, Tan P, Xuan J, Maroto-Valer MM, Farrusseng D, Sun Q, Ni M
Applied Energy, 235, 602, 2019 |
| 62 |
Multi-objective optimization and comparative performance analysis of hybrid biomass-based solid oxide fuel cell/solid oxide electrolyzer cell/gas turbine using different gasification agents
Habibollahzade A, Gholamian E, Behzadi A
Applied Energy, 233, 985, 2019 |
| 63 |
Benefits from heat pipe integration in H-2/H2O fed SOFC systems
Marocco P, Ferrero D, Lanzini A, Santarelli M
Applied Energy, 241, 472, 2019 |
| 64 |
Thermo-environmental and economic analysis of an integrated municipal waste-to-energy solid oxide fuel cell, gas-, steam-, organic fluid- and absorption refrigeration cycle thermal power plants
Owebor K, Oko COC, Diemuodeke EO, Ogorure OJ
Applied Energy, 239, 1385, 2019 |
| 65 |
Evaluation of solid oxide fuel cell based polygeneration system in residential areas integrating with electric charging and hydrogen fueling stations for vehicles
Ramadhani F, Hussain MA, Mokhlis H, Fazly M, Ali JM
Applied Energy, 238, 1373, 2019 |
| 66 |
Health state prediction and analysis of SOFC system based on the data driven entire stage experiment
Wu XL, Xu YW, Xue T, Zhao DQ, Jiang JH, Deng ZH, Fu XW, Li X
Applied Energy, 248, 126, 2019 |
| 67 |
Modelling of a hybrid system for on-site power generation from solar fuels
Xu HR, Chen B, Tan P, Sun Q, Maroto-Valer MM, Ni M
Applied Energy, 240, 709, 2019 |
| 68 |
Atomic-layer-deposited ZrO2-doped CeO2 thin film for facilitating oxygen reduction reaction in solid oxide fuel cell
Yang BC, Go D, Oh S, Shin JW, Kim HJ, An J
Applied Surface Science, 473, 102, 2019 |
| 69 |
Evaluation of the CO2 tolerant cathode for solid oxide fuel cells: Praseodymium oxysulfates/Ba0.5Sr0.5Co0.8Fe0.2O3-delta
Yang T, Su C, Wang W, Meng LJ, Deng JG, Liu Y, Rathore SS, Shao ZP
Applied Surface Science, 472, 10, 2019 |
| 70 |
A comparative investigation on direct carbon solid oxide fuel cells operated with fuels of biochar derived from wheat straw, corncob, and bagasse
Qiu QY, Zhou MY, Cai WZ, Zhou Q, Zhang YP, Wang W, Liu ML, Liu J
Biomass & Bioenergy, 121, 56, 2019 |
