(1)Bo Li, Shun-sen Wang. Thermodynamic analysis and optimization of a hybrid cascade supercritical carbon dioxide cycle for waste heat recovery. Energy, Volume 259, 2022, 125108. (中科院SCI一区Top期刊,IF:8.857)
(2)Bo Li, Shun-sen Wang. Thermo-economic analysis and optimization of a cascade transcritical carbon dioxide cycle driven by the waste heat of gas turbine and cold energy of liquefied natural gas. Applied Thermal Engineering, Volume 214, 2022, 118861. (中科院SCI二区Top期刊,IF:6.465)
(3)Bo Li, Shun-sen Wang, Jiafei Qiao, Bingbing Wang, Liming Song. Thermodynamic analysis and optimization of a dual-pressure Allam cycle integrated with the regasification of liquefied natural gas. Energy Conversion and Management, Volume 246, 2021, 114660. (中科院SCI一区Top期刊,IF:11.533)
(4)Bo Li, Shun-sen Wang, Yaobo Xu, Liming Song. Study on the off-design performance of supercritical carbon dioxide power cycle for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 233, 2021, 113890. (中科院SCI一区Top期刊,IF:11.533)
(5)Bo Li, Shun-sen Wang, Keke Wang, Liming Song. Comparative investigation on the supercritical carbon dioxide power cycle for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 228, 2021, 113670. (中科院SCI一区Top期刊,IF:11.533)
(6)Bo Li, Shun-sen Wang, Kai Wang, Liming Song. Thermo-economic analysis of a combined cooling, heating and power system based on carbon dioxide power cycle and absorption chiller for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 224, 2020, 113372. (中科院SCI一区Top期刊,IF:11.533)
(7)Bo Li, Shun-sen Wang. Thermo-economic analysis and optimization of a novel carbon dioxide based combined cooling and power system. Energy Conversion and Management, Volume 199, 2019, 112048. (中科院SCI一区Top期刊,IF:11.533)
(8)李博,王顺森,宋立明. Allam循环-跨临界CO2循环冷电联产系统的热力学分析[J].西安交通大学学报,2021,55(10):11-18.doi:10.7652/xjtuxb202110002. (中文核心期刊,EI收录)
(9)Bo Li, Shun-sen Wang, Liming Song. Advanced Exergy Analysis of the Supercritical Carbon Dioxide Power Cycle for Waste Heat Recovery of Gas Turbine[C]//Turbo Expo: Power for Land, Sea, and Air. American Society of Mechanical Engineers, 2021, 85048: V010T30A013. (ASME Turbo Expo国际会议,EI收录)
(10)Shun-sen Wang,Bo Li. Thermodynamic Analysis and Optimization of a Novel Power-Water Cogeneration System for Waste Heat Recovery of Gas Turbine. Entropy, 2021, 23(12), 1656. (中科院SCI三区,IF:2.738)
(1)Bo Li, Shun-sen Wang. Thermodynamic analysis and optimization of a hybrid cascade supercritical carbon dioxide cycle for waste heat recovery. Energy, Volume 259, 2022, 125108. (中科院SCI一区Top期刊,IF:8.857)
(2)Bo Li, Shun-sen Wang. Thermo-economic analysis and optimization of a cascade transcritical carbon dioxide cycle driven by the waste heat of gas turbine and cold energy of liquefied natural gas. Applied Thermal Engineering, Volume 214, 2022, 118861. (中科院SCI二区Top期刊,IF:6.465)
(3)Bo Li, Shun-sen Wang, Jiafei Qiao, Bingbing Wang, Liming Song. Thermodynamic analysis and optimization of a dual-pressure Allam cycle integrated with the regasification of liquefied natural gas. Energy Conversion and Management, Volume 246, 2021, 114660. (中科院SCI一区Top期刊,IF:11.533)
(4)Bo Li, Shun-sen Wang, Yaobo Xu, Liming Song. Study on the off-design performance of supercritical carbon dioxide power cycle for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 233, 2021, 113890. (中科院SCI一区Top期刊,IF:11.533)
(5)Bo Li, Shun-sen Wang, Keke Wang, Liming Song. Comparative investigation on the supercritical carbon dioxide power cycle for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 228, 2021, 113670. (中科院SCI一区Top期刊,IF:11.533)
(6)Bo Li, Shun-sen Wang, Kai Wang, Liming Song. Thermo-economic analysis of a combined cooling, heating and power system based on carbon dioxide power cycle and absorption chiller for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 224, 2020, 113372. (中科院SCI一区Top期刊,IF:11.533)
(7)Bo Li, Shun-sen Wang. Thermo-economic analysis and optimization of a novel carbon dioxide based combined cooling and power system. Energy Conversion and Management, Volume 199, 2019, 112048. (中科院SCI一区Top期刊,IF:11.533)
(8)李博,王顺森,宋立明. Allam循环-跨临界CO2循环冷电联产系统的热力学分析[J].西安交通大学学报,2021,55(10):11-18.doi:10.7652/xjtuxb202110002. (中文核心期刊,EI收录)
(9)Bo Li, Shun-sen Wang, Liming Song. Advanced Exergy Analysis of the Supercritical Carbon Dioxide Power Cycle for Waste Heat Recovery of Gas Turbine[C]//Turbo Expo: Power for Land, Sea, and Air. American Society of Mechanical Engineers, 2021, 85048: V010T30A013. (ASME Turbo Expo国际会议,EI收录)
(10)Shun-sen Wang,Bo Li. Thermodynamic Analysis and Optimization of a Novel Power-Water Cogeneration System for Waste Heat Recovery of Gas Turbine. Entropy, 2021, 23(12), 1656. (中科院SCI三区,IF:2.738)
(1)Bo Li, Shun-sen Wang. Thermodynamic analysis and optimization of a hybrid cascade supercritical carbon dioxide cycle for waste heat recovery. Energy, Volume 259, 2022, 125108. (中科院SCI一区Top期刊,IF:8.857)
(2)Bo Li, Shun-sen Wang. Thermo-economic analysis and optimization of a cascade transcritical carbon dioxide cycle driven by the waste heat of gas turbine and cold energy of liquefied natural gas. Applied Thermal Engineering, Volume 214, 2022, 118861. (中科院SCI二区Top期刊,IF:6.465)
(3)Bo Li, Shun-sen Wang, Jiafei Qiao, Bingbing Wang, Liming Song. Thermodynamic analysis and optimization of a dual-pressure Allam cycle integrated with the regasification of liquefied natural gas. Energy Conversion and Management, Volume 246, 2021, 114660. (中科院SCI一区Top期刊,IF:11.533)
(4)Bo Li, Shun-sen Wang, Yaobo Xu, Liming Song. Study on the off-design performance of supercritical carbon dioxide power cycle for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 233, 2021, 113890. (中科院SCI一区Top期刊,IF:11.533)
(5)Bo Li, Shun-sen Wang, Keke Wang, Liming Song. Comparative investigation on the supercritical carbon dioxide power cycle for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 228, 2021, 113670. (中科院SCI一区Top期刊,IF:11.533)
(6)Bo Li, Shun-sen Wang, Kai Wang, Liming Song. Thermo-economic analysis of a combined cooling, heating and power system based on carbon dioxide power cycle and absorption chiller for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 224, 2020, 113372. (中科院SCI一区Top期刊,IF:11.533)
(7)Bo Li, Shun-sen Wang. Thermo-economic analysis and optimization of a novel carbon dioxide based combined cooling and power system. Energy Conversion and Management, Volume 199, 2019, 112048. (中科院SCI一区Top期刊,IF:11.533)
(8)李博,王顺森,宋立明. Allam循环-跨临界CO2循环冷电联产系统的热力学分析[J].西安交通大学学报,2021,55(10):11-18.doi:10.7652/xjtuxb202110002. (中文核心期刊,EI收录)
(9)Bo Li, Shun-sen Wang, Liming Song. Advanced Exergy Analysis of the Supercritical Carbon Dioxide Power Cycle for Waste Heat Recovery of Gas Turbine[C]//Turbo Expo: Power for Land, Sea, and Air. American Society of Mechanical Engineers, 2021, 85048: V010T30A013. (ASME Turbo Expo国际会议,EI收录)
(10)Shun-sen Wang,Bo Li. Thermodynamic Analysis and Optimization of a Novel Power-Water Cogeneration System for Waste Heat Recovery of Gas Turbine. Entropy, 2021, 23(12), 1656. (中科院SCI三区,IF:2.738)
(1)Bo Li, Shun-sen Wang. Thermodynamic analysis and optimization of a hybrid cascade supercritical carbon dioxide cycle for waste heat recovery. Energy, Volume 259, 2022, 125108. (中科院SCI一区Top期刊,IF:8.857)
(2)Bo Li, Shun-sen Wang. Thermo-economic analysis and optimization of a cascade transcritical carbon dioxide cycle driven by the waste heat of gas turbine and cold energy of liquefied natural gas. Applied Thermal Engineering, Volume 214, 2022, 118861. (中科院SCI二区Top期刊,IF:6.465)
(3)Bo Li, Shun-sen Wang, Jiafei Qiao, Bingbing Wang, Liming Song. Thermodynamic analysis and optimization of a dual-pressure Allam cycle integrated with the regasification of liquefied natural gas. Energy Conversion and Management, Volume 246, 2021, 114660. (中科院SCI一区Top期刊,IF:11.533)
(4)Bo Li, Shun-sen Wang, Yaobo Xu, Liming Song. Study on the off-design performance of supercritical carbon dioxide power cycle for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 233, 2021, 113890. (中科院SCI一区Top期刊,IF:11.533)
(5)Bo Li, Shun-sen Wang, Keke Wang, Liming Song. Comparative investigation on the supercritical carbon dioxide power cycle for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 228, 2021, 113670. (中科院SCI一区Top期刊,IF:11.533)
(6)Bo Li, Shun-sen Wang, Kai Wang, Liming Song. Thermo-economic analysis of a combined cooling, heating and power system based on carbon dioxide power cycle and absorption chiller for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 224, 2020, 113372. (中科院SCI一区Top期刊,IF:11.533)
(7)Bo Li, Shun-sen Wang. Thermo-economic analysis and optimization of a novel carbon dioxide based combined cooling and power system. Energy Conversion and Management, Volume 199, 2019, 112048. (中科院SCI一区Top期刊,IF:11.533)
(8)李博,王顺森,宋立明. Allam循环-跨临界CO2循环冷电联产系统的热力学分析[J].西安交通大学学报,2021,55(10):11-18.doi:10.7652/xjtuxb202110002. (中文核心期刊,EI收录)
(9)Bo Li, Shun-sen Wang, Liming Song. Advanced Exergy Analysis of the Supercritical Carbon Dioxide Power Cycle for Waste Heat Recovery of Gas Turbine[C]//Turbo Expo: Power for Land, Sea, and Air. American Society of Mechanical Engineers, 2021, 85048: V010T30A013. (ASME Turbo Expo国际会议,EI收录)
(10)Shun-sen Wang,Bo Li. Thermodynamic Analysis and Optimization of a Novel Power-Water Cogeneration System for Waste Heat Recovery of Gas Turbine. Entropy, 2021, 23(12), 1656. (中科院SCI三区,IF:2.738)
(1)Bo Li, Shun-sen Wang. Thermodynamic analysis and optimization of a hybrid cascade supercritical carbon dioxide cycle for waste heat recovery. Energy, Volume 259, 2022, 125108. (中科院SCI一区Top期刊,IF:8.857)
(2)Bo Li, Shun-sen Wang. Thermo-economic analysis and optimization of a cascade transcritical carbon dioxide cycle driven by the waste heat of gas turbine and cold energy of liquefied natural gas. Applied Thermal Engineering, Volume 214, 2022, 118861. (中科院SCI二区Top期刊,IF:6.465)
(3)Bo Li, Shun-sen Wang, Jiafei Qiao, Bingbing Wang, Liming Song. Thermodynamic analysis and optimization of a dual-pressure Allam cycle integrated with the regasification of liquefied natural gas. Energy Conversion and Management, Volume 246, 2021, 114660. (中科院SCI一区Top期刊,IF:11.533)
(4)Bo Li, Shun-sen Wang, Yaobo Xu, Liming Song. Study on the off-design performance of supercritical carbon dioxide power cycle for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 233, 2021, 113890. (中科院SCI一区Top期刊,IF:11.533)
(5)Bo Li, Shun-sen Wang, Keke Wang, Liming Song. Comparative investigation on the supercritical carbon dioxide power cycle for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 228, 2021, 113670. (中科院SCI一区Top期刊,IF:11.533)
(6)Bo Li, Shun-sen Wang, Kai Wang, Liming Song. Thermo-economic analysis of a combined cooling, heating and power system based on carbon dioxide power cycle and absorption chiller for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 224, 2020, 113372. (中科院SCI一区Top期刊,IF:11.533)
(7)Bo Li, Shun-sen Wang. Thermo-economic analysis and optimization of a novel carbon dioxide based combined cooling and power system. Energy Conversion and Management, Volume 199, 2019, 112048. (中科院SCI一区Top期刊,IF:11.533)
(8)李博,王顺森,宋立明. Allam循环-跨临界CO2循环冷电联产系统的热力学分析[J].西安交通大学学报,2021,55(10):11-18.doi:10.7652/xjtuxb202110002. (中文核心期刊,EI收录)
(9)Bo Li, Shun-sen Wang, Liming Song. Advanced Exergy Analysis of the Supercritical Carbon Dioxide Power Cycle for Waste Heat Recovery of Gas Turbine[C]//Turbo Expo: Power for Land, Sea, and Air. American Society of Mechanical Engineers, 2021, 85048: V010T30A013. (ASME Turbo Expo国际会议,EI收录)
(10)Shun-sen Wang,Bo Li. Thermodynamic Analysis and Optimization of a Novel Power-Water Cogeneration System for Waste Heat Recovery of Gas Turbine. Entropy, 2021, 23(12), 1656. (中科院SCI三区,IF:2.738)
(1)Bo Li, Shun-sen Wang. Thermodynamic analysis and optimization of a hybrid cascade supercritical carbon dioxide cycle for waste heat recovery. Energy, Volume 259, 2022, 125108. (中科院SCI一区Top期刊,IF:8.857)
(2)Bo Li, Shun-sen Wang. Thermo-economic analysis and optimization of a cascade transcritical carbon dioxide cycle driven by the waste heat of gas turbine and cold energy of liquefied natural gas. Applied Thermal Engineering, Volume 214, 2022, 118861. (中科院SCI二区Top期刊,IF:6.465)
(3)Bo Li, Shun-sen Wang, Jiafei Qiao, Bingbing Wang, Liming Song. Thermodynamic analysis and optimization of a dual-pressure Allam cycle integrated with the regasification of liquefied natural gas. Energy Conversion and Management, Volume 246, 2021, 114660. (中科院SCI一区Top期刊,IF:11.533)
(4)Bo Li, Shun-sen Wang, Yaobo Xu, Liming Song. Study on the off-design performance of supercritical carbon dioxide power cycle for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 233, 2021, 113890. (中科院SCI一区Top期刊,IF:11.533)
(5)Bo Li, Shun-sen Wang, Keke Wang, Liming Song. Comparative investigation on the supercritical carbon dioxide power cycle for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 228, 2021, 113670. (中科院SCI一区Top期刊,IF:11.533)
(6)Bo Li, Shun-sen Wang, Kai Wang, Liming Song. Thermo-economic analysis of a combined cooling, heating and power system based on carbon dioxide power cycle and absorption chiller for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 224, 2020, 113372. (中科院SCI一区Top期刊,IF:11.533)
(7)Bo Li, Shun-sen Wang. Thermo-economic analysis and optimization of a novel carbon dioxide based combined cooling and power system. Energy Conversion and Management, Volume 199, 2019, 112048. (中科院SCI一区Top期刊,IF:11.533)
(8)李博,王顺森,宋立明. Allam循环-跨临界CO2循环冷电联产系统的热力学分析[J].西安交通大学学报,2021,55(10):11-18.doi:10.7652/xjtuxb202110002. (中文核心期刊,EI收录)
(9)Bo Li, Shun-sen Wang, Liming Song. Advanced Exergy Analysis of the Supercritical Carbon Dioxide Power Cycle for Waste Heat Recovery of Gas Turbine[C]//Turbo Expo: Power for Land, Sea, and Air. American Society of Mechanical Engineers, 2021, 85048: V010T30A013. (ASME Turbo Expo国际会议,EI收录)
(10)Shun-sen Wang,Bo Li. Thermodynamic Analysis and Optimization of a Novel Power-Water Cogeneration System for Waste Heat Recovery of Gas Turbine. Entropy, 2021, 23(12), 1656. (中科院SCI三区,IF:2.738)
(1)Bo Li, Shun-sen Wang. Thermodynamic analysis and optimization of a hybrid cascade supercritical carbon dioxide cycle for waste heat recovery. Energy, Volume 259, 2022, 125108. (中科院SCI一区Top期刊,IF:8.857)
(2)Bo Li, Shun-sen Wang. Thermo-economic analysis and optimization of a cascade transcritical carbon dioxide cycle driven by the waste heat of gas turbine and cold energy of liquefied natural gas. Applied Thermal Engineering, Volume 214, 2022, 118861. (中科院SCI二区Top期刊,IF:6.465)
(3)Bo Li, Shun-sen Wang, Jiafei Qiao, Bingbing Wang, Liming Song. Thermodynamic analysis and optimization of a dual-pressure Allam cycle integrated with the regasification of liquefied natural gas. Energy Conversion and Management, Volume 246, 2021, 114660. (中科院SCI一区Top期刊,IF:11.533)
(4)Bo Li, Shun-sen Wang, Yaobo Xu, Liming Song. Study on the off-design performance of supercritical carbon dioxide power cycle for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 233, 2021, 113890. (中科院SCI一区Top期刊,IF:11.533)
(5)Bo Li, Shun-sen Wang, Keke Wang, Liming Song. Comparative investigation on the supercritical carbon dioxide power cycle for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 228, 2021, 113670. (中科院SCI一区Top期刊,IF:11.533)
(6)Bo Li, Shun-sen Wang, Kai Wang, Liming Song. Thermo-economic analysis of a combined cooling, heating and power system based on carbon dioxide power cycle and absorption chiller for waste heat recovery of gas turbine. Energy Conversion and Management, Volume 224, 2020, 113372. (中科院SCI一区Top期刊,IF:11.533)
(7)Bo Li, Shun-sen Wang. Thermo-economic analysis and optimization of a novel carbon dioxide based combined cooling and power system. Energy Conversion and Management, Volume 199, 2019, 112048. (中科院SCI一区Top期刊,IF:11.533)
(8)李博,王顺森,宋立明. Allam循环-跨临界CO2循环冷电联产系统的热力学分析[J].西安交通大学学报,2021,55(10):11-18.doi:10.7652/xjtuxb202110002. (中文核心期刊,EI收录)
(9)Bo Li, Shun-sen Wang, Liming Song. Advanced Exergy Analysis of the Supercritical Carbon Dioxide Power Cycle for Waste Heat Recovery of Gas Turbine[C]//Turbo Expo: Power for Land, Sea, and Air. American Society of Mechanical Engineers, 2021, 85048: V010T30A013. (ASME Turbo Expo国际会议,EI收录)
(10)Shun-sen Wang,Bo Li. Thermodynamic Analysis and Optimization of a Novel Power-Water Cogeneration System for Waste Heat Recovery of Gas Turbine. Entropy, 2021, 23(12), 1656. (中科院SCI三区,IF:2.738)
