副教授
性别:男
在职信息:在职
所在单位:能源与动力工程学院
入职时间:2006-09-04
访问量:
最后更新时间:..
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[21]
于泽庭.
CO_2近零排放固体氧化物燃料电池冷热电联供系统的性能分析.
《中国电机工程学报》,
37,
200,
2017.
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[22]
于泽庭.
Thermodynamic analysis and multi-objective optimization of a novel power/cooling cogeneration system for low-grade heat sources.
ENERGY CONVERSION AND MANAGEMENT,
166,
64,
2018.
-
[23]
于泽庭.
Design and optimization of a novel composite bionic flow field structure using three-dimensional multiphase computational fluid dynamic method for proton exchange membrane fuel cell.
ENERGY CONVERSION AND MANAGEMENT,
247,
2021.
-
[24]
于泽庭.
Thermodynamic analysis of a novel combined cooling and power system driven by low-grade heat sources.
Energy,
156,
319,
2018.
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[25]
于泽庭.
Thermodynamic analysis of an integrated solid oxide fuel cell, Organic Rankine Cycle and absorption chiller trigeneration system with CO2 capture.
ENERGY CONVERSION AND MANAGEMENT,
171,
350,
2018.
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[26]
陈常念.
The Characteristics of Heat Transfer in Plate Phase Change Energy Storage Unit.
45TH SME NORTH AMERICAN MANUFACTURING RESEARCH CONFERENCE (NAMRC 45),
35,
1303,
2019.
-
[27]
苏瑞智.
Performance analysis and multi-objective optimization of an integrated gas turbine/supercritical CO2 recompression/transcritial CO2 cogeneration system using liquefied natural gas cold energy.
Energy Conversion and Management,
220,
2020.
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[28]
于泽庭.
Performance analysis and multi-objective optimization of an integrated gas turbine/supercritical CO2 recompression/transcritial CO2 cogeneration system using liquefied natural gas cold energy.
Energy Conversion and Management,
220,
2020.
-
[29]
于泽庭.
Performance assessment and optimization of an integrated solid oxide fuel cell-gas turbine cogeneration system.
International journal of hydrogen energy,
45,
17702,
2020.
-
[30]
于泽庭.
Thermodynamic analysis and multi-objective optimization of a novel power generation system driven by geothermal energy.
energy,
199,
2020.
-
[31]
于泽庭.
Energy, exergetic and economic analysis and multi-objective optimization of atmospheric and pressurized SOFC based trigeneration systems.
Energy Conversion and Management,
239,
2021.
-
[32]
张涛.
太阳能耦合质子交换膜燃料电池余热回收研究.
《农业工程学报》,
35,
239,
2019.
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[33]
蒙青山.
Thermodynamic analysis of combined power generation system based on SOFC/GT and transcritical carbon dioxide cycle.
International journal of hydrogen energy,
42,
4673,
2017.
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[34]
于泽庭.
Thermodynamic analysis and multi-objective optimization of a novel power generation system driven by geothermal energy.
energy,
199,
1,
2020.
-
[35]
于泽庭.
一种低温余热驱动的新型功冷联供系统.
中国电机工程学报,
38,
2679,
2018.
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[36]
张承慧 and 于泽庭.
Thermodynamic analysis of a novel combined cooling and power system driven by low-grade heat sources.
energy,
156,
319,
2018.
-
[37]
韩吉田 , 赵红霞 and 于泽庭.
Theoretical study on a novel ammonia–water cogeneration system with adjustable cooling to power ratios.
Applied energy,
122,
53,
2014.
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[38]
赵红霞 and 于泽庭.
Thermodynamic analysis of an integrated solid oxide fuel cell, Organic Rankine Cycle and absorption chiller trigeneration system with CO2 capture.
Energy Conversion and Management,
171,
350,
2018.
-
[39]
于泽庭.
Thermodynamic analysis and multi-objective optimization of a novel power generation system driven by geothermal energy.
energy,
199,
1,
2020.
-
[40]
张承慧 and 于泽庭.
Thermodynamic analysis and multi-objective optimization of a novel power/cooling cogeneration system for low-grade heat sources.
Energy Conversion and Management,
166,
64,
2018.
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