于泽庭

副教授

访问次数：次

教育经历

• 2008-9 — 2012-12
  山东大学
  热能工程
  博士生
• 2003-9 — 2006-7
  山东大学
  工程热物理
  硕士生
• 1999-9 — 2003-7
  山东大学
  热能与动力工程
  工学学士学位

工作经历

• 2006-09 — 至今
   山大能源与动力工程学院 

研究方向

1.制冷与低温技术

论文成果

(1) 田英男.Conventional and advanced exergy analysis of large-scale adiabatic compressed air energy storage system.Journal of Energy Storage.2023,57

(2) 刘洪建.Research on Liquid Water Distribution in PEMFC Cathode Porous Media.International Journal of Electrochemical Science.2020,15 (7):6717-6736

(3) 卞飞宇.Energy, exergy, economy analysis, and multi-objective optimization of a novel integrated energy system by combining artificial neural network and whale optimization algorithm.INTERNATIONAL JOURNAL OF ENERGY RESEARCH.2022,46 (0363-907X):24179

(4) 于泽庭.Optimal coupling design for organic Rankine cycle and radial turbine rotor using CFD modeling, machine learning and genetic algorithm.ENERGY CONVERSION AND MANAGEMENT.2023 (0196-8904)

(5) 苏瑞智.Performance Analysis of an Integrated Supercritical CO2 Recompression/Absorption Refrigeration/Kalina Cycle Driven by Medium-Temperature Waste Heat.JOURNAL OF THERMAL SCIENCE.2022,31 (1003-2169):2051

(6) 于泽庭.Improvement of the three-dimensional fine-mesh flow field of proton exchange membrane fuel cell (PEMFC) using CFD modeling, artificial neural network and genetic algorithm.International journal of hydrogen energy.2022,47 (82):35038

(7) 许国平.Performance improvement of solid oxide fuel cells by combining three-dimensional CFD modeling, artificial neural network and genetic algorithm.ENERGY CONVERSION AND MANAGEMENT.2022 (0196-8904)

(8) 刘文静.Performance improvement of an integrated system with high-temperature PEMFC, Kalina cycle and concentrating photovoltaic (CPV) for low temperature heat recovery.Applied thermal engineering.2023 (1359-4311)

(9) 梁文兴.Investigation of a novel near-zero emission poly-generation system based on biomass gasification and SOFC: A thermodynamic and exergoeconomic evaluation.Energy .2023,282

(10) 纪少波.Study on the correlation between combustion status and block vibration induced by piston slap.Applied Acoustics.2022,199 (10):1

(11) 王寒冰.Energy, exergetic and economic analysis and multi-objective optimization of atmospheric and pressurized SOFC based trigeneration systems.Energy Conversion and Management.2021,239

(12) 陈常念.Entropy Flow Analysis of Thermal Transmission Process in Integrated Energy System Part I: Theoretical Approach Study.PROCESSES.2022,10 (9)

(13) 陈常念.Entropy Flow Analysis of Thermal Transmission Process in Integrated Energy System Part II: Comparative Case Study.PROCESSES.2022,10 (9)

(14) 卞飞宇.太阳能驱动的氢-冷-热-电综合能源系统性能分析.供用电.2022,39 (01):17-23

(15) 纪少波.Evaluation Method of Naturalistic Driving Behaviour for Shared-Electrical Car.energies.2022,15 (13):1

(16) 于泽庭.Investigation and optimization of a two-stage cascade ORC system for medium and low-grade waste heat recovery using liquefied natural gas cold energy.International Journal of Refrigeration.2022,135 (2022):97

(17) 于泽庭.基于代理模型的三维梯形流道质子交换膜燃料电池结构优化设计.《中国电机工程学报》.2022,42 (6):2238

(18) 冯春雨.Energetic, exergetic and economic analysis and multi-objective optimization of two novel ammonia-water absorption combined power and cooling cycles driven by low-grade heat sources.Energy Conversion and Management.2021,248

(19) 于泽庭.Performance assessment and optimization of two novel cogeneration systems integrating proton exchange membrane fuel cell with organic flash cycle for low temperature geothermal heat recovery.Energy.2022,243 (122725)

(20) 于泽庭.Study on a near-zero emission SOFC-based multi-generation system combined with organic Rankine cycle and transcritical CO2 cycle for LNG cold energy recovery.ENERGY CONVERSION AND MANAGEMENT.2022,253 (115188)

(21) 付佃亮.Linking pinch analysis and shifted temperature driving force plot for analysis and retrofit of heat exchanger network.Journal of Cleaner Production.2021,315

(22) 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》.2017,37 (1):200

(23) 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.2018,166 (0):64

(24) 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.2021,247 (0)

(25) 于泽庭.Thermodynamic analysis of a novel combined cooling and power system driven by low-grade heat sources.Energy.2018,156 (0):319

(26) 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.2018,171 (0):350

(27) 陈常念.The Characteristics of Heat Transfer in Plate Phase Change Energy Storage Unit.45TH SME NORTH AMERICAN MANUFACTURING RESEARCH CONFERENCE (NAMRC 45).2019,35 :1303

(28) 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.2020,220

(29) 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.2020,220 (15)

(30) 于泽庭.Performance assessment and optimization of an integrated solid oxide fuel cell-gas turbine cogeneration system.International journal of hydrogen energy.2020,45 (35):17702

(31) 于泽庭.Thermodynamic analysis and multi-objective optimization of a novel power generation system driven by geothermal energy.energy.2020,199

(32) 于泽庭.Energy, exergetic and economic analysis and multi-objective optimization of atmospheric and pressurized SOFC based trigeneration systems.Energy Conversion and Management.2021,239 (114183)

(33) 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》.2019,35 (12):239

(34) 蒙青山.Thermodynamic analysis of combined power generation system based on SOFC/GT and transcritical carbon dioxide cycle.International journal of hydrogen energy.2017, 42 (7):4673

(35) 于泽庭.Thermodynamic analysis and multi-objective optimization of a novel power generation system driven by geothermal energy.energy.2020,199 (0):1

(36) 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.2018,38 (8):2679

(37) 于泽庭.Thermodynamic analysis of a novel combined cooling and power system driven by low-grade heat sources.energy.2018,156 :319

(38) 于泽庭.Theoretical study on a novel ammonia–water cogeneration system with adjustable cooling to power ratios.Applied energy.2014,122 (1):53

(39) 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.2018,171 :350

(40) 于泽庭.Thermodynamic analysis and multi-objective optimization of a novel power generation system driven by geothermal energy.energy.2020,199 :1

(41) 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.2018,166 :64

(42) 于泽庭.CO2 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》.2017,37 (1):200

(43) 赵红霞.Simulation and optimization of a R744 two- temperature supermarket refrigeration system with an ejector.《INTERNATIONAL JOURNAL OF REFRIGERATION-REVUE INTERNATIONALE DU FROID》.2018,90 (6):73

(44) 韩吉田.Investigation on performance of an integrated solid oxide fuel cell and absorption chiller tri-generation system.Int. J. of Hydrogen Energy.2011,36 (16):8592

(45) 韩吉田.Analysis of total energy system based on solid oxide fuel cell for combined cooling, heating and power applications.Int. J. of Hydrogen Energy.2010,35 (7):2703

(46) 赵红霞.Modeling and investigation of a steam-water injector.Energy Conversion and Management.2017,151 (11):170

(47) 赵红霞.Study on the performance of a steam ejector with auxiliary entrainment inlet and its application in MED-TVC desalination system.Applied Thermal Engineering.2019,159 (1)

(48) 韩吉田.基于燃料电池的分布式热电冷联供总能系统.《武汉理工大学学报》.2006

(49) 黄卓.Simulation and optimization of a R744 two- temperature supermarket refrigeration system with an ejector.《INTERNATIONAL JOURNAL OF REFRIGERATION-REVUE INTERNATIONALE DU FROID》.2018,90 :73

(50) 韩吉田.设置富氨蒸气回热器的固体氧化物燃料电池/燃气轮机/卡琳娜联合循环系统的热力性能分析.《中国电机工程学报》.2014,34 (26):4483

(51) 赵红霞.Experimental study of vacuum spray ice slurry production.6th Asian Conference on Refrigeration and Air Conditioning, ACRA 2012.2012 :345

(52) 于泽庭.一种输出冷功比可调的新型功冷联供系统性能分析.2013中国工程热物理学会 -工程热力学与能源利用.2013

(53) 韩吉田.新Kalina循环系统(KCS)34的热力学分析.发电与空调.2014,35 (3):9

(54) 赵红霞.Numerical Study of Enhanced Heat Transfer and Flow of Water-glycol Mixture in Transversely Ribbed Circular Tubes.The 6th International Symposium on Multiphase Flow, Heat Mass Transfer and Energy Conversion.2010,1207 (0):883

(55) 于泽庭.固体氧化物燃料电池分布参数模拟研究.《工程热物理学报》.2016,37 (1):135

(56) 韩吉田.基于太阳能卡琳娜循环的冷热电联供系统热力学分析.制冷技术.2013 :16

(57) 韩吉田.一种R245fa与氨水联合蒸汽动力循环.中国工程热物理学会工程热力学与能源利用.2013

(58) 韩吉田.改进前后Kalina循环热力性能的对比分析.2013年中国工程热物理学会传热传质学术会议，重庆.2013

(59) 韩吉田.改进前后有机朗肯循环的热力学分析.冷藏技术.2014

(60) 韩吉田.Kalina循环系统KCS11的热力学研究.节能.2014 (8)

(61) 韩吉田.冷前回热式Kalina循环系统(KCS)34g的热力学分析.《制冷与空调》.2014,14 (8):50

(62) 韩吉田.太阳能热水器传热传质和强化传热研究.电力与能源.2014,35 (1):27

(63) 于泽庭.一种输出冷功比可调的新型功冷联供系统性能研究.《工程热物理学报》.2015,36 (2):254

(64) 韩吉田.Investigation on performance of an integrated solid oxide fuel cell and absorption chiller tri-generation system.Int. J. of Hydrogen Energy.2011,36 (16):8592

(65) 韩吉田.Analysis of total energy system based on solid oxide fuel cell for combined cooling, heating and power applications.Int. J. of Hydrogen Energy.2010,35 (7):2703

(66) 于泽庭.CO2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》.2017,37 (01):200

(67) 赵红霞.Modeling and investigation of a steam-water injector.ENERGY CONVERSION AND MANAGEMENT.2017,151 :170

(68) 赵红霞.Study on the performance of a steam ejector with auxiliary entrainment inlet and its application in MED-TVC desalination system.Applied Thermal Engineering.2019,159

(69) 韩吉田.基于燃料电池的分布式热电冷联供总能系统.《武汉理工大学学报》.2006

(70) 韩吉田.设置富氨蒸气回热器的固体氧化物燃料电池/燃气轮机/卡琳娜联合循环系统的热力性能分析.《中国电机工程学报》.2014,34 (26):4483

(71) 赵红霞.Experimental study of vacuum spray ice slurry production.6th Asian Conference on Refrigeration and Air Conditioning, ACRA 2012.2012 :345

(72) 韩吉田.新Kalina循环系统(KCS)34的热力学分析.发电与空调.2014,35 (3):9

(73) 赵红霞.Numerical Study of Enhanced Heat Transfer and Flow of Water-glycol Mixture in Transversely Ribbed Circular Tubes.The 6th International Symposium on Multiphase Flow, Heat Mass Transfer and Energy Conversion.2010,1207 (0):883

(74) 韩吉田.基于太阳能卡琳娜循环的冷热电联供系统热力学分析.制冷技术.2013 :16

(75) 韩吉田.一种R245fa与氨水联合蒸汽动力循环.中国工程热物理学会工程热力学与能源利用.2013

(76) 韩吉田.改进前后Kalina循环热力性能的对比分析.2013年中国工程热物理学会传热传质学术会议，重庆.2013

(77) 韩吉田.改进前后有机朗肯循环的热力学分析.冷藏技术.2014

(78) 韩吉田.Kalina循环系统KCS11的热力学研究.节能.2014 (8)

(79) 韩吉田.冷前回热式Kalina循环系统(KCS)34g的热力学分析.《制冷与空调》.2014,14 (8):50

(80) 韩吉田.太阳能热水器传热传质和强化传热研究.电力与能源.2014,35 (1):27

(81) 韩吉田.Investigation on performance of an integrated solid oxide fuel cell and absorption chiller tri-generation system.Int. J. of Hydrogen Energy.2011,36 (16):8592

(82) 韩吉田.Analysis of total energy system based on solid oxide fuel cell for combined cooling, heating and power applications.Int. J. of Hydrogen Energy.2010,35 (7):2703

(83) 赵红霞.Experimental study of vacuum spray ice slurry production.6th Asian Conference on Refrigeration and Air Conditioning, ACRA 2012.2012 :345

(84) 赵红霞.Numerical Study of Enhanced Heat Transfer and Flow of Water-glycol Mixture in Transversely Ribbed Circular Tubes.The 6th International Symposium on Multiphase Flow, Heat Mass Transfer and Energy Conversion.2010,1207 (0):883

(85) 黄卓.Simulation and optimization of a R744 two- temperature supermarket refrigeration system with an ejector.《INTERNATIONAL JOURNAL OF REFRIGERATION-REVUE INTERNATIONALE DU FROID》.2018,90 :73

(86) 韩吉田.基于燃料电池的分布式热电冷联供总能系统.《武汉理工大学学报》.2006

(87) 韩吉田.改进前后有机朗肯循环的热力学分析.冷藏技术.2014

(88) 韩吉田.Kalina循环系统KCS11的热力学研究.节能.2014 (8)

(89) 韩吉田.冷前回热式Kalina循环系统(KCS)34g的热力学分析.《制冷与空调》.2014,14 (8):50

(90) 韩吉田.新Kalina循环系统(KCS)34的热力学分析.发电与空调.2014,35 (3):9

(91) 韩吉田.太阳能热水器传热传质和强化传热研究.电力与能源.2014,35 (1):27

(92) 韩吉田.设置富氨蒸气回热器的固体氧化物燃料电池/燃气轮机/卡琳娜联合循环系统的热力性能分析.《中国电机工程学报》.2014,34 (26):4483

(93) 韩吉田.基于太阳能卡琳娜循环的冷热电联供系统热力学分析.制冷技术.2013 :16

(94) 韩吉田.一种R245fa与氨水联合蒸汽动力循环.中国工程热物理学会工程热力学与能源利用.2013

(95) 韩吉田.改进前后Kalina循环热力性能的对比分析.2013年中国工程热物理学会传热传质学术会议，重庆.2013

(96) 韩吉田.Investigation on performance of an integrated solid oxide fuel cell and absorption chiller tri-generation system.Int. J. of Hydrogen Energy.2011,36 (16):8592

(97) 韩吉田.Analysis of total energy system based on solid oxide fuel cell for combined cooling, heating and power applications.Int. J. of Hydrogen Energy.2010,35 (7):2703

(98) 于泽庭.固体氧化物燃料电池分布参数模拟研究.《工程热物理学报》.2016,37 (1):135

(99) 于泽庭.一种输出冷功比可调的新型功冷联供系统性能研究.《工程热物理学报》.2015,36 (2):254

(100) 于泽庭.一种输出冷功比可调的新型功冷联供系统性能分析.2013中国工程热物理学会 -工程热力学与能源利用.2013

(101) 于泽庭.CO2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》.2017,37 (01):200

专利

1. 一种集成生物质气化和燃料电池的综合能源系统

2. 一种基于生物质气化和固体氧化物燃料电池的多联供系统

3. 手调螺旋管成型机

4. 一种充分利用中低品位工业余热的功冷联供系统及方法

5. 质子交换膜燃料电池流道结构及质子交换膜燃料电池

6. 一种利用LNG冷能的燃气轮机余热利用系统及其方法

7. 一种冷热电联供系统

8. 高温质子交换膜燃料电池冷热电三联供系统及其工作方法

9. 一种利用LNG冷能的中低温余热发电系统及其工作方法

10. 基于双级ORC和LNG冷能利用的燃料电池联供发电系统

11. 一种双吸收型冷联供循环系统及其方法

12. 一种功冷联供循环系统及方法

13. 一种氨吸收式动力和喷射式制冷复合循环系统及方法

14. 一种 CO₂零排放的固体氧化物燃料电池冷热p

15. 基于双级ORC和LNG冷能利用的燃料电池联供发电系统

16. 可部分回收利用的SOFC驱动的新型冷热电联供系统

17. 一种功冷联供循环系统及方法

18. 一种氨吸收式动力和喷射式制冷复合循环系统及方法

19. 新型内燃机余热利用冷热电联供系统及其工作方法

20. 基于SOFC/GT和膜分离技术的低碳排放功冷联供系统

21. 一种个人冷却系统

科研项目

1. 空气能与燃气耦合供热智能系统及其一体机研发, 2025/04/08-2025/12/31

2. 燃料电池氢气循环泵及引射器协同控制算法研究, 2025/01/01-2026/12/31

3. 运检算法及平台接口开发服务, 2025/01/16-2025/05/15

4. 低温余热发电系统设计, 2023/03/25-2024/12/31

5. 空气能与燃气耦合供热智能系统及其一体机研发与示范, 2023/07/01-2025/07/31

6. 低温余热发电系统及高效透平研发, 2023/03/25-2024/12/31

7. 新能源整车热管理系统专业模型库（两相、热力）开发及验证, 2023/11/28-2024/12/31

8. 多场景制用氢系统仿真模型研究, 2022/10/11-2024/12/31

9. 工业基础软件热管理模型库开发及验证, 2022/10/06-2023/06/30

10. 多场景制用氢系统仿真技术研究, 2022/10/11-2024/12/31

11. 基于人工智能和大数据技术的低温余热发电系统研发, 2022/03/15-2023/01/14

12. 含氢多能源供需系统的协同运行优化理论与方法, 2021/12/01-2026/12/31

13. 近零排放的含氢多能源系统集成优化与协同调控, 2022/01/01-2026/12/31

14. 基于温度计算的电站阀门内漏监视系统研究, 2021/03/24-2021/12/31

15. 计及多能互补的区域综合能源利用系统低碳经济运行, 2021/04/21-2022/04/20

16. 新一代综合能源系统协同优化控制基础理论与关键技术, 2019/11/18-2024/12/31

17. 多能互补分布式能源系统的集成特性与协同调控研究, 2019/04/26-2022/06/30

18. 新型风力压缩空气储能接入CCHP型微网优化控制与关键技术, 2013/08/15-2018/12/31

19. 有机工质与朗肯动力循环系统耦合匹配的多流体相似模化理论与实验研究, 2014/12/01-2017/12/31

20. 真空冷冻法制备冰浆关键问题的研究, 2010/01/01-2012/12/31

21. 基于替代制冷剂的临界热流密度和干涸后传热的流体模化研究, 2008/01/01-2010/12/31

22. 可再生能源分布式冷热电联供系统优化设计与协同控制, 2015/08/17-2019/12/31

23. 弱磁场影响水结晶过程的基础研究, 2013/08/15-2016/12/31

24. 电磁声场辅助下快速冷冻技术的开发, 2011/01/01-2013/12/31

25. 真空冷冻法制备冰浆关键问题研究, 2010/01/01-2012/12/31

26. 含压缩空气的多维主动复合储能系统优化控制, 2015/08/17-2019/12/31

27. 基于SOFC/GT和吸收式功冷耦合循环的CO2准零排放分布式冷热电联供系统特性及能量管理策略研究, 2013/10/28-2016/12/31

28. 基于SOFC/GT和氨吸收式动力/制冷复合循环的CO2准零排放分布式冷热电联供系统特性协同仿真与优化集成研究, 2013/08/15-2017/12/31

29. 燃料电池发动机热管理系统研发, 2018/01/01-2019/12/31

30. 基于SOFC联合循环的生物质能高效梯级利用与CO2控制一体化分布式多联供系统集成机理与协同优化研究, 2015/12/09-2016/12/31

31. 基于大温差供热技术的热电联产系统建模及通用计算程序开发, 2015/08/30-2016/12/15

32. 燃气内燃机/燃气轮机热电冷联供系统, 2014/09/01-2015/03/31

33. 压缩空气储能冷热电多能量形式统一归算方法研究, 2014/01/01-2018/12/31

授课信息

1. 可再生能源的高效转换和利用技术

2. 可再生能源的高效转换和利用技术

3. 可再生能源的高效转换和利用技术

4. 可再生能源的高效转换和利用技术

5. 能量转换系统与设备II

6. 可再生能源的高效转换和利用技术

7. 可再生能源的高效转换和利用技术

8. 可再生能源的高效转换和利用技术

9. 可再生能源的高效转换和利用技术

10. 可再生能源的高效转换和利用技术

11. 认识实习

12. 专业英语

13. 生产实习

14. 锅炉原理Ⅰ

15. 生产实习

16. 认识实习

17. 锅炉原理Ⅱ

18. 锅炉原理Ⅱ

19. 专业英语

20. 可再生能源的高效转换和利用技术

21. 可再生能源的高效转换和利用技术

22. 专业英语

23. 专业英语

24. 锅炉原理Ⅱ

25. 锅炉原理Ⅱ

26. 可再生能源的高效转换和利用技术

学生信息

1.高越

2.张海刚

3.李致宇

4.何小宏

5.吴皓南

6.乔砚锦

7.荣繁华

8.刘文静

9.王长江

10.卞飞宇

11.许国平

12.冯春雨

13.夏雷

14.苏瑞智

15.孙嘉楠

16.王彤彤

17.郭英伦

18.殷纪强

19.田民丽