81 |
Thermo-economic analysis and multi-objective optimization of a novel waste heat recovery system with a transcritical CO2 cycle for offshore gas turbine application Zhang Q, Ogren RM, Kong SC Energy Conversion and Management, 172, 212, 2018 |
82 |
Simulating combined cycle gas turbine power plants in Aspen HYSYS Liu ZM, Karimi IA Energy Conversion and Management, 171, 1213, 2018 |
83 |
Investigation of a combined cycle power plant coupled with a parabolic trough solar field and high temperature energy storage system Mehrpooya M, Tosang E, Dadak A Energy Conversion and Management, 171, 1662, 2018 |
84 |
New operating strategy for a combined cycle gas turbine power plant Liu ZM, Karimi IA Energy Conversion and Management, 171, 1675, 2018 |
85 |
Exergoeconomic optimization of a combined cycle power plant's bottoming cycle using organic working fluids Katulic S, Cehil M, Schneider DR Energy Conversion and Management, 171, 1721, 2018 |
86 |
Multi-objective optimization of a combined cycle using exergetic and exergoeconomic approaches Bahlouli K Energy Conversion and Management, 171, 1761, 2018 |
87 |
Thermoeconomic analysis of an integrated solar combined cycle power plant Calise F, d'Accadia MD, Libertini L, Vicidomini M Energy Conversion and Management, 171, 1038, 2018 |
88 |
Multi-objective optimization and decision making of endoreversible combined cycles with consideration of different heat exchangers by finite time thermodynamics Ghasemkhani A, Farahat S, Naserian MM Energy Conversion and Management, 171, 1052, 2018 |
89 |
An innovative self-adaptive method for improving heat sink utilization efficiency of hydrocarbon fuel in regenerative thermal protection system of combined cycle engine Jing TT, He GQ, Qin F, Li WQ, Zhang D, Zhang PK Energy Conversion and Management, 178, 369, 2018 |
90 |
The effects of combined-cycle generation and hydraulic fracturing on the price for coal, oil, and natural gas: Implications for carbon taxes Kaufmann RK, Hines E Energy Policy, 118, 603, 2018 |