91 |
Techno-economic analysis of an integrated gasification direct-fired supercritical CO2 power cycle Weiland NT, White CW Fuel, 212, 613, 2018 |
92 |
Integration of chemical looping oxygen production and chemical looping combustion in integrated gasification combined cycles Cloete S, Giuffrida A, Romano M, Chiesa P, Pishahang M, Larring Y Fuel, 220, 725, 2018 |
93 |
Techno-economic assessment of the novel gas switching reforming (GSR) concept for gas-fired power production with integrated CO2 capture Nazir SM, Cloete S, Bolland O, Amini S International Journal of Hydrogen Energy, 43(18), 8754, 2018 |
94 |
Start-up improvement of a supplementary-fired large combined-cycle power plant Alobaid F Journal of Process Control, 64, 71, 2018 |
95 |
A new flexible geothermal based cogeneration system producing power and refrigeration Mahmoudi SMS, Kordlar MA Renewable Energy, 123, 499, 2018 |
96 |
Multi-objective design and operation of Solid Oxide Fuel Cell (SOFC) Triple Combined-cycle Power Generation systems: Integrating energy efficiency and operational safety Sharifzadeh M, Meghdari M, Rashtchian D Applied Energy, 185, 345, 2017 |
97 |
Process integration of a Calcium-looping process with a natural gas combined cycle power plant for CO2 capture and its improvement by exhaust gas recirculation Hu Y, Ahn H Applied Energy, 187, 480, 2017 |
98 |
Gas turbine combined cycle start-up and stress evaluation: A simplified dynamic approach Rossi I, Sorce A, Traverso A Applied Energy, 190, 880, 2017 |
99 |
Global optimization of microalgae-to-biodiesel chains with integrated cogasification combined cycle systems based on greenhouse gas emissions reductions Wu W, Wang PH, Lee DJ, Chang JS Applied Energy, 197, 63, 2017 |
100 |
Supercritical carbon dioxide cycles for power generation: A review Crespi F, Gavagnin G, Sanchez D, Martinez GS Applied Energy, 195, 152, 2017 |