陈林根

陈林根，武汉工程大学，机电工程学院，工大学者领军教授，博士生导师。1964年11月27日出生，1979年考入海军工程学院，1983年、1986年和1998年分别获得工学学士、硕士和博士学位，1992年破格晋升副教授，1996年破格晋升教授。荣立二等功1次, 三等功3次。1998年获首届中国科协“求是杰出青年实用工程奖”。被评为全军优秀教师，全军优秀博士。获政府特殊津贴，军队优秀专业技术人才一类岗位津贴。入选教育部新世纪优秀人才资助计划，新世纪百千万人才工程国家级人选。2001年获“全国百篇优秀博士学位论文奖”。人民日报、光明日报、科技日报、中国教育报、解放军报、人民海军报、长江日报、《军事》杂志和《海军》杂志等报道了事迹.                                                                                                

联系方式

电子邮箱: lingenchen@hotmail.com; lgchenna@yahoo.com

长期从事热科学理论(有限时间热力学，自然组织构形理论)和舰艇动力技术保障工作，建立了新的概念和方法，推动了舰艇装备科学化管理。主持国家“973”课题、国防“973”子课题、国家自然科学基金、国家重点研发计划课题、军委科技委创新特区项目等国家级项目13项，总装和海装项目30项, 教育项目8项。截止2021年10月，在欧美国际出版社出版著作3部，在国内出版专著13部，主编出版译著15部；在70余种欧美国际学术刊物上发表论文750篇，在《中国科学》（包括物理学，化学，技术科学）和《科学通报》中、英文版发表论文134篇，在国际学术会议发表论文104篇；690篇为SCI收录，32篇为ESI高被引论文 ，14300 余篇次为国内外学者引用(自引除外),H因子为57。2014年至2020年每年均入选Elsevier中国高被引学者。获湖北省自然科学二、三等奖9项, 教育部高等学校自然科学二等奖1项, 军队科技进步二、三等奖5项, 军队教学成果二、三等奖3项。                 

已指导出站博士后 9 名；毕业博士 30 名、硕士 39 名。获得2个全国优秀博士学位论文提名指导教师奖, 64个海军、全军和湖北省优秀博士、硕士学位论文指导教师奖。

曾任海军工程大学核能科学与工程系主任，研究生院院长，船舶与动力学院院长, 动力工程学院院长, 舰船动力 工程国家级实验教学示范中心 主任等职务。先后应聘担任51种学术兼职工作， 包括 :教育部高等学校能源动力类专业教学指导委员会委员、副主任委员，中国工程热物理学会理事, 中国工程热物理学会工程热力学分会副主任委员,全国高校工程热物理学会副理事长，中国能源研究会热力学与工程应用分会副主任委员,5个国家和省部级重点实验室学术委员会委员，18家国际和7家国内刊物的编委。

教育经历（按时间倒序排序）

1999.03-2000.02 俄罗斯普希金海军工程学院进修舰船动力                 

1994.09-1998.05 海军工程学院工程热物理博士                 

1983.09-1986.02 海军工程学院船舶动力装置硕士                 

1979.09-1983.07 海军工程学院燃气动力工程学士                 

工作经历（科研与学术工作经历，按时间倒序排序）

2019.01-             武汉工程大学机电工程学院工大学者领军教授                 

2017.12-2018.12   海军工程大学动力工程学院热力工程教研室教授

2015.01-2017.11   舰船动力 工程国家级实验教学示范中心主 任

2014.01-2017.11   舰船动力 工程军队重点实验室 主任

2012.06-2017.11   海军工程大学动力工程学院院长                 

2010.12-2012.05   海军工程大学船舶与动力学院院长                 

2004.11-2010.11   海军工程大学研究生院（筹）院长                 

2001.03-2004.10   海军工程大学核能科学与工程系主任                 

1996.12-2001.02   海军工程学院蒸汽燃气核动力系汽轮机教研室教授                 

1992.12-1996.11   海军工程学院蒸汽燃气核动力系汽轮机教研室副教授                 

主持的主要科研项目（非涉密）和人才计划项目情况（按时间倒序排序）

1.      国家自然科学基金项目  船舶高热流密度三维电子器件强化散热机理研究及系统优化设计 52171317  2022 年01月-2025年12月                 

2.     国家自然科学基金项目  船海用蒸汽动力装置多目标构形优化 51779262  2018年01月-2021年12月                 

3.     国防科技创新特区（军委科技委）项目  基于新型半导体结构的微纳米发电技术研究2017年07月-2018年06月                 

4.      国家重点研发计划项目 2017YFB0603500 高温固体散料余热梯级回收及品位提升技术  课题三 2017YFB0603503宽温域余热高效利用及能质品位提升技术子课题固体散料分级取热、余热利用与能质品位梯级提升系统的能效分析  2017年07月-2019年12月                 

5.     总装备部预研项目  海水电解合成燃油系统热力学建模分析与综合优化研究  2016年1月-2019年08月                 

6.     国家自然科学基金项目不可逆过程与循环的广义热力学优化 51576207  2016年01月-2019年12月                 

7.      国家自然科学基金委“变革新”重大项目“热质理论的关键科学问题” 51356001 子课题  基于火积耗散率极值原理的构形优化及实验研究    2015年01月-2016年12月                 

8.      国家重点基础研究发展计划(973)项目2012CB720400钢铁生产过程高效节能基础研究  课题五 2012CB720405 钢铁流程系统的能耗排放特征及其广义热力学优化2012年01月-2016年08月                 

9.      国家自然科学基金项目多尺度体点传热传质问题的多目标构形优化 51176203  2012年01月-2015年12月                 

10.  海军高新科技人才工程高级专家培养对象资助基金项目2007年1月-2011年12月

11.  全国工程硕士专业学位教育指导委员会研究课题  军队院校工程硕士研究生培养质量评估体系研究，2007年12月-2008年12月                 

12.  教育部新世纪优秀人才资助基金项目  广义热力学优化理论NCET-04-1006, 2004年1月-2008年12月                 

13. 教育部高等学校优秀博士学位论文作者专项资助基金项目  200136, 广义热力学优化理论若干问题研究，2002年1月-2007年03月

14.  国家973项目研究任务  G2000026301, 场协同理论的热力学分析,2000年4月-2004年12月

获得的主要教学科研奖励（非涉密）（按时间倒序排序）

1.    2020.12  湖北省自然科学二等奖(第一获奖人) 内燃机循环热力学优化

2.    2019.12教育部高等学校自然科学二等奖(第一获奖人) 微纳米和量子循环热力学优化                 

3.     2017.12湖北省自然科学二等奖(第一获奖人) 半导体热电转换装置的新构型和热力学优化

4.     2015.12湖北省自然科学二等奖(第一获奖人) 传热过程与热力循环的最优构型研究

5.    2014.12  湖北省自然科学三等奖(第一获奖人) 导热构形优化若干问题研究

6.     2014.02  军队院校教学成果三等奖 (第一获奖人) 强化质量意识，创新指导方法， 培养高水平博硕群体

7.     2013.12  湖北省自然科学二等奖(第一获奖人) 两热源正反向理论循环的有限时间热力学分析和优化

8.    2012.12  湖北省自然科学三等奖(第一获奖人) 简单和复杂燃气轮机循环的有限时间热力学分析和优化

9.     2008.12    湖北省自然科学三等奖(第二获奖人) 量子热机、热声热机和斯特林热机的有限时间热力学研究

10. 2006.12    湖北省自然科学三等奖(第一获奖人) 吸收式循环有限时间热力学优化

11. 2004.02  军队院校教学成果二等奖 (第一获奖人) 三大动力合训  培养高素质综合性复合型人才                

12. 2004.02  军队院校教学成果二等奖 (第二获奖人) 工程热物理学科建设与研究生培养的实践

13. 2002.10 湖北省自然科学二等奖(第一获奖人) 有限时间热力学若干问题研究                

14. 2001.09 全军优秀教师、

15. 2001.09 全国百篇优秀博士学位论文奖 不可逆过程和循环的有限时间热力学分析

16. 2000.05  政府特殊津贴

17. 2000.05  全军院校教书育人优秀教师

18. 1998.09  中国科协首届求是杰出青年实用工程奖

出版的主要学术专著（按时间倒序排序）

1.    陈林根,戈延林. 内燃机循环热力学优化理论. 北京: 科学出版社, 2022

2.   陈林根, 刘晓威. 不可逆量子布雷顿循环热力学优化理论. 北京: 科学出版社, 2022

3.    陈林根, 王超, 张磊, 夏少军, 宋汉江. 海基合成燃油系统关键单元的热力学优化理论. 北京: 科学出版社, 2022

4.     陈林根, 丁泽民, 周俊乐. 不可逆微型能量转换系统的热力学优化. 北京: 科学出版社, 2022                                                                                

5.     陈林根, 李俊. 两热源循环热力学优化理论.北京: 科学出版社, 2021                                                                                

6.    Chen Lingen, Wu Wenjun,Feng Huijun. ConstructalDesign for Heat Conduction .London: BookPublisher International, 2021          

7.     陈林根, 夏少军. 不可逆循环的广义热力学动态优化—工程热力装置与广义机循环. 北京: 科学出版社, 2018                                                                                

8.   陈林根, 夏少军. 不可逆循环的广义热力学动态优化—热力与化学理论循环. 北京: 科学出版社, 2018

9.    陈林根, 夏少军. 不可逆过程的广义热力学动态优化. 北京: 科学出版社, 2017

10. 毕月红,陈林根. 空气热泵性能有限时间热力学优化. 北京: 科学出版社, 2017

11. 陈林根, 冯辉君. 流动和传热传质过程的多目标构形优化. 北京: 科学出版社, 2016

12. 陈林根, 刘永葆. 教学改革和人才培养研究与实践. 北京: 海潮出版社, 2016

13. 吴锋, 陈林根, 孙丰瑞, 喻九阳. 斯特林机的有限时间热力学优化. 北京：化学工业出版社, 2008                 

14. 陈林根. 不可逆过程和循环的有限时间热力学分析. 北京: 高等教育出版社, 2005

15. Chen Lingen, Sun Fengrui. Advancesin Finite Time Thermodynamics: Analysis and Optimization. New York:Nova Science Publishers, 2004

16. Wu Chih, Chen Lingen, Chen Jincan. Recent Advances in Finite TimeThermodynamics. New York: Nova Science Publishers, 1999

近三年发表的主要学术论文（按时间倒序排序）

1        Chen Lingen, Wu Zhixiang, Feng Huijun, Ge Yanlin. Constructal design for dual-pressureaxial-flow turbine in organic Rankine cycle. Energy Reports, in press,

2        Liu Peng, Wu Jiafeng, Chen Lingen, Liu Zhichun, Liu Wei. Multi-objective optimization design of ribbed absorber tubein parabolic trough receiver coupled with CFD method and genetic algorithm.Energy Reports, in press,

3        Maleki Akbar,El Haj Assad Mamdouh, Nazari Mohammad Alhuyi, Rosen Marc A, Bui Dieu Tien, ChenLingen. A review of nanomaterial incorporated phase change materialsfor solar thermal energy storage. Solar Energy, in press, DOI: 10.1016/j.solener.2021.08.051

4        Li Penglei, Chen Lingen, Xia Shaojun,Kong Rui, Ge Yanlin.Total entropy generation rate minimization configurationof a membrane reactor of methanol synthesis viacarbon dioxide hydrogenation. Science China:Technological Sciences, in press

5        Osman Sohaib,Sharifpur Mohsen, Meyer Josua P, Chen Lingen. The influenceof high porosity Nickel foam on thetransition flow regime for heattransfer and pressure drop characteristics in a rectangular channel. Journal of Thermal Analysis and Calorimetry, in press.

6        Haghighi Arman, Maleki Akbar, El Haj AssadMamdouh, Chen Lingen, Alhuyi Nazari Mohammad, Shadloo Mostafa Safdari. A review on heat transfer characteristicsof cryogenic heat pipes. Journalof Thermal Analysis and Calorimetry, in press,

7        Jiang Fan, Meng Fankai, Chen Lingen, ChenZhaojun. Thermodynamic analysis andexperimental research of water-cooled small space thermoelectricair-conditioner. Journal of Thermal Science, in press,

8        Wang Chao, Xia Shaojun, Chen Lingen,Ge Yanlin, Zhang Lei, Feng Huijun. Effects of design parameters on entropy generationrate of sulphuric acid decomposition process. International Journal of Ambient Energy, in press.

9        KongRui, Chen Lingen, Xia Shaojun, Li Penglei, Ge Yanlin. Performance analysis of hydrogen iodide decompositionmembrane reactor under different sweep modes.Energy Conversion and Management, 2021, 244: 114436.

10     Feng Huijun, Wu Zhixiang, Chen Lingen, Ge Yanlin. Constructal thermodynamic optimization for dual-pressure organic Rankinecycle in waste heat utilization system.EnergyConversion and Management, 2021, 227: 113585.

11     Tang Wei, Feng Huijun, Chen Lingen, Xie Zhuojun, Shi Junchao. Constructal design for aboiler economizer.Energy,2021, 223: 120013.

12     Wu Heng, Ge Yanlin, Chen Lingen,Feng Huijun. Power, efficiency, ecological functionand ecological coefficient of performance optimizations of an irreversible Dieselcycle based on finite piston speed.Energy, 2021, 216, 119235.

13    Wu Zhixiang, Chen Lingen, FengHuijun, Ge Yanlin. Constructal thermodynamic optimization for a novel Kalina-organic Rankinecombined cycle to utilize waste heat. Energy Reports, 2021, 7: 6095-6106.

14    Zhang Zhiming, Feng Huijun, Chen Lingen, Ge Yanlin. Multi-objective constructal design for compound heatdissipation channels in a three-dimensional trapezoidal heat generation body.International Communications inHeat and Mass Transfer, 2021, 127: 105584.

15     Li Jun, Chen Lingen. Exergoeconomic performance optimization ofspace thermoradiative cell. The European Physical Journal Plus, 2021, 136(6):644.

16     MohsenPourkiaei S, Ahmadi M H, Ghazvini M, Moosavi S, Pourfayaz F, Kumar R, Chen Lingen. Statusof direct and indirect solar desalination methods: Comprehensive review. The European PhysicalJournal Plus,2021, 136(5): 602.

17     Ge Yanlin, Chen Lingen, Feng Huijun. Ecologicaloptimization of an irreversible Diesel cycle. The European Physical Journal Plus, 2021, 136(2): 198.

18     Qiu Susu, Ding Zemin, Chen Lingen, Ge Yanlin. Performance optimizationof three-terminal energy selective electron generators.Science China:Technological Sciences, 2021, 64(8): 1641-1652.

19     Qiu Susu, Ding Zemin, Chen Linegen, Ge Yanlin. Performance optimizationof thermionic refrigerators based on van der Waals heterostructures.Science China: Technological Sciences, 2021, 64(5): 1007-1016.

20     ChenChen, You Jiang, Feng Huijun, Chen Lingen. A multi-objective study on theconstructal design of non-uniform heat generating disc cooled by radial- anddendritic-pattern cooling channels.Science China:Technological Sciences, 2021, 64(4) 729-744.

21     Wang Liang, XieZhihui, Chen Lingen, Wang Rong, Feng Huijun, You Jiang.Equivalent thermal resistance minimization for a circular disc heat sink with revertingmicrochannels based on constructal theory and entransy theory. Science China: Technological Sciences, 2021, 64(1) 111-121.

22     Ding Zemin, Qiu Susu, Chen Lingen,Wang Wenhua. Modeling andperformance optimization of double-resonance electronic cooling device with threeelectron reservoirs.Journal of Non-EquilibriumThermodynamics, 2021, 46(3): 273-289.

23     Qi Congzheng, Ding Zemin, ChenLingen, Ge Yanlin, Feng Huijun. Modelling of irreversible two-stage combinedthermal Brownian refrigerators and their optimal performance. Journal of Non-Equilibrium Thermodynamics, 2021, 46(2):175-189.

24     Chen Lingen, Meng Fankai, Ge Yanlin, Feng Huijun.Performance optimization for a multielement thermoelectric refrigeratorwith another linear heat transfer law. Journal of Non-EquilibriumThermodynamics, 2021, 46(2): 149-162.

25     Liu Xiaowei, Chen Lingen, Ge Yanlin, Feng Huijun, Wu Feng, LorenziniGiulio. Exergy-based ecological optimization of an irreversible quantum Carnot heatpump with spin-1/2 systems. Journal of Non-EquilibriumThermodynamics, 2021, 46(1) 61-76.

26    Feng Huijun,Tang Wei, Chen Lingen, Shi Junchao, Wu Zhixiang. Multi-objective constructal optimization for marine condensers.Energies, 2021, 14(17): 5545.

27    Shi Shuangshaung, Ge Yanlin, Chen Lingen,Feng Fuijun. Performanceoptimizationswith single-,bi-, tri- and quadru-objective for irreversible Atkinson cycle with nonlinear variation of workingfluid's specific heat. Energies, 2021, 14(14): 4175.

28    Wang Ruibo, Chen Lingen, Ge Yanlin, Feng Huijun. Optimizing power and thermal efficiency of an irreversiblevariable-temperature heat reservoir Lenoir cycle. AppliedSciences, 2021, 11(15): 7171.

29     Wang Tan, Ge Yanlin, Chen Lingen, Feng Huijun, YuJiuyang. Optimal heat exchanger areadistribution and low-temperature heat sink temperature for power optimizationof an endoreversible space Carnot cycle.Entropy, 2021, 23(10): 1285 .

30    Gong Qirui, Ge Yanlin, Chen Lingen, Shi Shuangshuang, Feng Huijun.Performance analyses and four-objective optimizations of an irreversible rectangular cycle.Entropy, 2021, 23(9): 1203.

31    Shi Shuangshaung, Chen Lingen, Ge Yanlin,Feng Fuijun. Performance optimizations with single-,bi-, tri- and quadru-objective for irreversible Dieselcycle. Entropy, 2021, 23(7): 826.

32     Chen Lingen, Meng Zewei, Ge Yanlin, Wu Feng. Performance analysis andoptimization for irreversible combined quantum Carnot heat engine working withideal quantum gases. Entropy, 2021, 23(5): 536.

33     Wang Ruibo, Ge Yanlin, Chen Lingen, Feng Huijun, Wu Zhixiang. Power and thermal efficiency optimization of an irreversible steady flowLenoir cycle. Entropy, 2021,23(4): 425.

34     Qi Congzheng, Ding Zemin, ChenLingen, Ge Yanlin, Feng Huijun. Modeling andperformance optimization of an irreversible two-stage combined thermal Brownianheat engine.Entropy, 2021, 23(4):419.

35     Tang Chenqi, Chen Lingen, Feng Huijun,Ge Yanlin. Four-objective optimization for an improvedirreversible closed modified simple Brayton cycle. Entropy, 2021, 23(3): 282.

36     Kong Rui, Chen Lingen, Xia Shaojun, Li Penglei, Ge Yanlin. Minimization ofentropy generation rate in hydrogen iodidedecomposition reactor heated by high-temperature helium. Entropy, 2021, 23(1): 82.

37     DingZemin, Chen Lingen, Liu Xiaowei.Thermodynamic optimization for irreversible thermal Brownian motors,energy selective electron engines and thermionic devices. International Journal of Ambient Energy, 2021, 42(10): 1218-1222.

38     Xia Shaojun, Chen Lingen.Maximum workoutput from electric battery with variable equivalent capacitance.International Journal of Ambient Energy,2021, 42(10): 1178-1186.

39     Xia Shaojun, Chen Lingen, Sun Fengrui. Entropy generation minimisationfor heat exchangers with heat leakage. InternationalJournal of Ambient Energy, 2021, 42(7): 789-794.

40     Xia Shaojun, Xie Zhihui, Chen Lingen, Ge Yanlin. An inverse optimisationfor heat exchangers with entransy dissipation minimisation.International Journal ofAmbient Energy,2021, 42(7): 730-735.

41     Ge Yanlin, Wang Wenhua, Chen Lingen, Meng Fankai.Exergoeconomic performance analyses and optimizationof an irreversible closed intercooled regenerated gas turbine cycle. InternationalJournal of Ambient Energy, 2021,42(2): 211-219.

42     Qiu Susu, Ding Zemin, Chen Linegen. Performance evaluation andparametricoptimum design of irreversible thermionic generatorsbased on van der Waals heterostructures. Energy Conversion and Management, 2020, 225: 113360.

43     Chen Lingen, Feng Huijun, Ge Yanlin.Maximumenergy output chemical pump configuration with aninfinite-low- and a finite-high-chemical potential mass reservoirs.Energy Conversionand Management, 2020, 223: 113261.

44     Feng Huijun, Chen Weijian, Chen Linegen, Tang Wei. Power and efficiencyoptimizations of an irreversible regenerative organic Rankine cycle. Energy Conversion and Management, 2020, 220: 113079.

45     Chen Lingen, Shen Jiafeng, Ge Yanlin, Wu Zhixiang,Wang Wenhua, Zhu Fuli, Feng Huijun. Power and efficiency optimization of openMaisotsenko-Brayton cycle and performance comparison with traditional open regenerated Braytoncycle. Energy Conversion and Management, 2020, 217: 113001.

46     Wu Zhixiang,Feng Huijun, Chen Lingen, Tang Wei, Shi Junzhao, Ge Yanlin.Constructal thermodynamicoptimization for ocean thermal energy conversion system with dual-pressureorganic Rankine cycle.Energy Conversion and Management, 2020, 210: 112727.

47     Feng Huijun, Qin Wuanxu, Chen Linegen, Cai Cunguang, Ge Yanlin, Xia Shaojun. Power output, thermalefficiency and exergy-based ecological performance optimizations of an irreversibleKCS-34 coupled to variable temperature heat reservoirs. Energy Conversionand Management, 2020, 205: 112424.

48     Chen Lingen, Yang Bo, Feng Huijun, Ge Yanlin, Xia Shaojun. Performance optimization of an open simple-cycle gasturbine combined cooling, heating and power plant driven by basic oxygenfurnace gas in China’s steelmaking plants.Energy,2020, 203: 117791.

49     Feng Huijun, Xie Zhuojun, Chen Lingen, Wu Zhixiang,Xia Shaojun. Constructal design for supercharged boilersuperheater. Energy, 2020, 191: 116484.

50     Meng Zewei, ChenLingen. Theoreticalmaximum efficiency and higher power output in triboelectric nanogenerators. Energy Reports, 2020, 6: 2463-2475.

51     Tang Chenqi, Feng Huijun, ChenLingen, Wang Wenhuan.Power density analysis and multi-objective optimization for a modified endoreversiblesimple closed Brayton cycle with oneisothermal heat process.Energy Reports, 2020, 6: 1648-1657.                 

52     Li Penglei, ChenLingen, Xia Shaojun, Zhang Lei, Kong Rui, Ge Yanlin, Feng Huijun. Entropy generation rate minimization forsteam methane reforming reactor heated by molten salt. Energy Reports, 2020, 6: 685-697.

53     Açıkkalp Emin, Chen Lingen, Ahmadi M H. Comparative performance analyses of molten carbonate fuelcell-alkali metal thermal to electric converter and molten carbonate fuel cell-thermo-electricgenerator hybrid systems. Energy Reports, 2020, 6: 10-16.

54     Jagtap Hanumant P, Bewoor AnandK,Kumar Ravinder_, Ahmadi Mohammad Hossein, Chen Lingen. Performanceanalysis and availability optimization to improve maintenance schedule for theturbine-generator subsystem of a thermal power plant using particle swarmoptimization.Reliability Engineering& System Safety, 2020, 204: 107130.

55     Feng Huijun, Cai Cunguang, ChenLingen, Wu Zhixiang, Lorenzini Giulio. Constructal design of a shell-and-tubecondenser with ammonia-water working fluid. International Communications inHeat and Mass Transfer, 2020, 118: 104867.

56     You Jiang, Feng Huijun, Chen Linegen, Xie Zhihui,Xia Shaojun. Constructal design and experimental validation of anon-uniform heat generating body with rectangular cross-section and parallelcircular cooling channels.International Journal of Heat and Mass Transfer, 2020, 148: 119028.

57     Zhang Lei, Chen Lingen, Xia Shaojun, Ge Yanlin, Wang Chao, Feng Huijun.Multi-objectiveoptimization for helium-heated reverse water gas shift reactor by using NSGA-II. International Journal of Heatand Mass Transfer, 2020, 148: 119025.

58     Mahdavi Mostafa, Sharifpur Mohsen,Meyer Josua P, Chen Lingen. Thermalanalysis of a nanofluid free jet impingement on a rotating disk using volumeof fluid in combination with discretemodelling. InternationalJournal of Thermal Sciences, 2020, 158: 106532.

59     Chen Lingen, Meng Fankai, Ge Yanlin,Feng Huijun, Xia Shaojun. Performance optimization of a class of combined thermoelectric heatingdevices.Science China: Technological Sciences, 2020, 63(12)2640-2648.

60     Chen Lingen, Yang Aibo, Feng Huijun,Ge Yanlin, Xia Shaojun. Constructaldesign progress for eight types of heat sinks.Science China: Technological Sciences, 2020, 63(6): 879-911.

61     Ding Zemin, Ge Yanlin, Chen Lingen,Feng Huijun, Xia Shaojun. Optimal performanceregions of Feynman’s ratchet engine with different optimizationcriteria. Journal of Non-Equilibrium Thermodynamics, 2020, 45(2): 191-207.

62     Feng Huijun, You Jiang, Chen Lingen, Ge Yanlin, Xia Shaojun. Constructal design of anon-uniform heat generating disc based on entropy generation minimization. The European Physical Journal Plus, 2020, 135(2): 257.

63     AghayariR, Maddah H, Mohsen Pourkiaei S, Ahmadi M H, Chen Lingen, Ghazvini M. Experimental andtheoretical studies of heattransfer in a double-pipe heat exchanger equipped with twisted tape andnanofluid. The European Physical Journal Plus , 2020, 135(2): 252.  

64     Nasirzadehroshenin F,Sadeghzadeh M, Khadang A, Maddah H, Ahmadi M H, Sakhaeinia H, Chen Lingen. Modeling of heat transferperformance of carbon nanotube nanofluid in a tube with fixed wall temperatureby using ANN-GA. TheEuropean Physical Journal Plus , 2020,135(2): 217.

65     Chen Lingen, Meng Fankai, Ding Zemin,Xia Shaojun, Feng Huijun. Thermodynamic modeling and analysis of an air-cooledsmall space thermoelectric cooler. The European PhysicalJournal Plus, 2020, 135(1): 80.

66     Chen Lingen, Liu Xiaowei, Wu Feng, Feng Huijun, Xia Shaojun. Power andefficiency optimization of an irreversible quantum Carnot heat engine workingwith harmonic oscillators.Physica A: Statistical Mechanicsand its Applications,2020, 550: 124140.

67     YinYong, Chen Lingen, WuFeng, Ge Yanlin. Work output and thermal efficiency of an endoreversible entangled quantum Stirling engine with a 1D isotropic Heisenberg model.Physica A: Statistical Mechanics and its Applications,2020, 547: 123856.                 

68     Chen Lingen, Liu Xiaowei, Wu Feng, Xia Shaojun, Feng Huijun. Exergy-based ecological optimization ofan irreversible quantum Carnot heat pump with harmonic oscillators.Physica A: Statistical Mechanics and its Applications,2020, 537: 122597.

69     Chen Lingen, Tang Chenqi, FengHuijun, Ge Yanlin. Power,efficiency, power density and ecological function optimizations for an irreversible modified closedvariable-temperature reservoirregenerative Brayton cycle with one isothermal heating process.Energies, 2020, 13(19): 5133.

70     Chen Lingen, Ma Kang, Feng Huijun, GeYanlin. Optimalconfiguration of a gas expansion process in a piston-type cylinder withgeneralized convective heat transfer law. Energies, 2020, 13(12): 3229.

71     Tang Chenqi, Chen Lingen, Feng Huijun,Wang Wenhuan, Ge Yanlin. Power optimization of a modified closed binary Braytoncycle with two isothermal heating processes and coupled to variable-temperaturereservoirs. Energies, 2020, 13(12): 3212.

72    Wei Shuhuan,Feng Huijun, Chen Lingen, Ge Yanlin. Constructal equivalentthermal resistance minimization for Tau-shaped fin. Entropy, 2020, 22(11): 1206.

73    Shi Shuangshaung, Ge Yanlin,Chen Lingen, Feng Fuijun. Four objective optimization of irreversible Atkinson cycle based onNSGA-II. Entropy, 2020, 22(10): 1150.

74     Sun Ming, Xia Shaojun, ChenLingen, Wang Chao, Tang Chenqi. Minimumentropy generation rate and maximum yield optimization of sulfuric aciddecomposition process using NSGA-II. Entropy, 2020, 22(10): 1065.                 

75     Chen Lingen, Ma Kang, Ge Yanlin, Feng Huijun. Re-optimization of expansion work of a heated workingfluid with generalized radiativeheat transfer law.Entropy, 2020, 22(7): 720.

76     Chen Lingen, Feng Huijun, Ge Yanlin. Power and efficiencyoptimization for open combined regenerative Brayton and inverse Brayton cycleswith regeneration before the inverse cycle. Entropy, 2020,22(6): 677.

77     WangRong, Xie Zhihui, Yin Yong, Chen Lingen. Constructal design ofelliptical cylinders with heat generating for entropy generation minimization. Entropy, 2020, 22(6): 651.

78     Wu Zhixiang, Feng Huijun, Chen Lingen, Ge Yanlin. Performance optimization of a condenserin ocean thermal energy conversion (OTEC) system based on constructal theoryand multi-objective genetic algorithm.Entropy, 2020, 22(6): 641.

79     Zhang Fengyin, Feng Huijun, Chen Lingen, You Jiang, Xie Zhuojun. Constructal design of an arrow-shaped high thermal conductivity channelin a square heat generation body.Entropy, 2020, 22(4): 475.

80     Meng Zewei, ChenLingen, Wu Feng. Optimal power and efficiency of multi-stage endoreversiblequantum Carnot heat engine with harmonic oscillators at the classical limit. Entropy, 2020, 22(4): 457.  

81     Chen Lingen, GeYanlin, Liu Chang, Feng Huijun, Lorenzini Giulio. Performance of universal reciprocating heat-engine cycle withvariable specific heats ratio of working fluid. Entropy, 2020, 22(4): 397.

82     Liu Xiaowei,Chen Lingen, Wei Shuhuan, Meng Fankai. Optimal ecological performanceinvestigation of a quantum harmonic oscillator Brayton refrigerator. Transactions of ASME, Journalof Thermal Science and Engineering Applications, 2020,12(1): 011007.

83     E Qing, Wu Feng, Chen Lingen, Qiu Yinan. Thermodynamicoptimization for a quantum thermoacoustic refrigeration micro-cycle. Journal of CentralSouth University, 2020, 27(9): 2754-2762.

84     Payambarpour Seyed Abdolkarim, Shokouhmand Hossein, Ahmadi MohammadHossein,El Haj Assa M damdouh, Chen Lingen. Effect of wetnesspattern on the fin-tube heat exchanger performance under partially wet-surfacecondition.Thermal Science andEngineering Progress, 2020, 19: 100619.                 

85     Wu Zhixiang, FengHuijun, Chen Lingen, Xie Zhuojun, Cai Cunguang, Xia Shaojun. Optimal design of dual-pressureturbine in OTEC system based on constructal theory.EnergyConversion and Management, 2019,201: 112179.

86     MirzaeeM, ZareR, Maddah H, Sadeghzadeh M, Ahmadi M H, Acıkkalp E, Chen Lingen.Thermodynamic analysis ofdifferent scenarios in a CCHP system with microturbine - absorption chiller, and heat exchanger. Energy Conversionand Management, 2019, 198: 111919.

87     Ramezanizadeh M, AhmadiM H, Nazari M A,Sadeghzadeh M, Chen Lingen. A reviewon the utilizedmachine learning approaches for modeling the dynamic viscosity of nanofluids.Renewableand Sustainable Energy Reviews,2019, 114: 109345.

88     Pourkiaei S M,Ahmadi M H, Sadeghzadeh M,Moosavi S, Pourfayaz F, Chen Lingen, Yazdi M A, Kumar R.Thermoelectric coolerand thermoelectric generator devices: a review of present and potentialapplications, modeling and materials.Energy, 2019, 186: 115849.

89     Wu Zhixiang, Feng Huijun, Chen Lingen, XieZhuojun,Cai Cunguang. Pumpingpower minimization of anevaporator in ocean thermal energy conversion system based on constructal theory. Energy,2019, 181: 974-984.

90     FengHuijun, Tao Guisheng, Tang Chenqi, Ge Yanlin, Chen Lingen, Xia Shaojun.Exergoeconomic performance optimization for aregenerative gas turbine closed-cycle heat and power cogeneration plant. Energy Reports, 2019, 5:1525-1531.

91     You Jiang, Feng Huijun, Chen Lingen, XieZhihui. Constructal design of nonuniform heat generating areabased on triangular elements: A case of entropy generation minimization. InternationalJournal of Thermal Sciences,2019, 139: 403-412.

92     Ramezanizadeh M, NazariM A, Ahmadi M H,Chen Lingen. A review on the approaches applied for coolingfuel cells.International Journal of Heat and Mass Transfer, 2019, 139: 517-525.

93     XieZhuojun,Feng Huijun, Chen Lingen, Wu Zhixiang. Constructal design for supercharged boiler evaporator.International Journal of Heat and Mass Transfer, 2019, 138: 571-579.

94     Zhang Lei, Xia Shaojun, Chen Lingen, Ge Yanlin, Wang Chao, Feng Huijun. Entropy generation rate minimization for hydrocarbon synthesisreactor from carbon dioxide and hydrogen. International Journal of Heat and Mass Transfer, 2019, 137: 1112-1123.

95     Cai Cunguang, FengHuijun, Chen Lingen, Wu Zhixiang, Xie Zhuojun. Constructal design of a shell-and-tube evaporator with ammonia-waterworking fluid. International Journal of Heat and Mass Transfer,2019, 135, 541-547.

96     Chen Lingen, You Jiang, Feng Huijun, Xie Zhihui. Constructaloptimization for “disc-point” heat conduction with nonuniform heat generating. InternationalJournal of Heat and Mass Transfer, 2019, 134: 1191-1198.

97     Feng Huijun, Chen Lingen, Wu Zhixiang, Xie Zhuojun. Constructal design of a shell-and-tube heat exchanger for organicfluid evaporation process.International Journal of Heat and Mass Transfer,2019, 131: 750-756.                                                                                                

98     Feng Huijun, Chen Lingen, Xia Shaojun. Constructal designfor disc-shaped heat exchanger with maximum thermal efficiency.International Journal of Heatand Mass Transfer, 2019, 130: 740-746.

99     ChenLingen, Feng Huijun, Xie Zhihui, Sun Fengrui. Progress of constructal theory inChina over the past decade. International Journal of Heat and Mass Transfer,2019, 130: 393-419.

100  Chen Lingen, GeYanlin, Qin Xiaoyong, Xie Zhihui. Exergy-basedecological optimization for a four-temperature-level absorption heat pump withheat resistance, heat leakage and internal irreversibility.InternationalJournal of Heat and Mass Transfer, 2019, 129: 855-861.

101  Yang Aibo, Chen Lingen, Xie Zhihui, Feng Huijun, Sun Fengrui. Constructal operation cost minimization forin-line cylindrical pin-fin heat sinks. International Journal of Heat and Mass Transfer,2019, 129: 562-568.

102  Feng Huijun, ChenLingen, Xie Zhihui. Constructal entransydissipation rate minimization for X-shaped vascular networks. Science China: Technological Sciences, 2019, 62(12),2195-2203.

103  Ding Zemin, Chen Lingen, Ge Yanlin, XieZhihui. Optimal performance regions of an irreversible energy selectiveelectron heat engine with double resonance.Science China: Technological Sciences, 2019, 62(3): 397-405.

104  Sadeghzadeh M,AhmadiM H,Kahani M,Sakhaeinia H,Chaji H,Chen Lingen. Smart modeling by using ArtificialIntelligent techniques on thermal performance of flat plate solar collectorusing nanofluid.Energy Science& Engineering,2019, 7(5): 1649-1658.

105  Jilte RD, Kumar R, Ahmadi M H, ChenLingen. Investigationon battery thermal management system employing phase change material withcell-to-cell air cooling. Applied Thermal Engineering,2019, 161: 114199.

106  ShenJiafeng, Chen Lingen, Ge Yanlin, Zhu Fuli, Wu Zhixiang. Optimum ecological performance ofirreversible reciprocating Maisotsenko-Braytoncycle. The European Physical Journal Plus,2019, 134(6): 293.

107  Qiu Susu, Ding Zemin, Chen Lingen, Meng Fankai, Sun Fengrui. Optimalperformance regions of energy selective electron cooling devices consisting ofthree reservoirs. TheEuropean Physical Journal Plus, 2019, 134(6): 273.

108  Li Penglei, Chen Lingen, Xia Shaojun, Zhang Lei. Entropy generationrate minimization for in methanol synthesis via CO₂ hydrogenationreactor. Entropy, 2019, 21(2):174.

109  Li Penglei, Chen Lingen, Xia Shaojun, Zhang Lei. Maximum hydrogenproduction rate optimization in tubular steam methane reforming reactor. International Journal of Chemical Reactor Engineering, 2019, (9):20180191.

110  Wu Zhixiang, Chen Lingen, GeYanlin, Sun Fengrui. Power, efficiency and ecological funnction optimizationfor an air-standard irreversible Dual-Miller cycle.Frontiers in Energy, 2019, 13(3): 579-589.

111  ZhuFuli, Chen Lingen, Wang Wenhua. Thermodynamic analysisand optimization of irreversible Maisotsenko-Diesel cycle. Journal of ThermalSciences, 2019, 28(4): 659-668.

112  陈林根, 冯辉君, 吴志祥, 唐威, 谢卓君, 戈延林. 船海用蒸汽动力装置构形优化的研究进展. 中国科学: 技术科学,in press, doi: 10.1360/SST-2020-0393

113  邱肃肃, 陈林根, 丁泽民, 戈延林. 太阳能驱动单级异质结热离子发电装置性能优化.中国科学: 技术科学,in press, doi:10.1360/SST-2021-0260                

114  朱鸿威, 陈林根, 冯辉君. 戈延林. 叶形四边形产热体火积耗散率最小导热构形优化.中国科学: 技术科学,in press, doi: 10.1360/SST-2021-0238

115  施双双, 戈延林, 陈林根. 不可逆Otto循环功率密度分析与多目标优化. 中国科学: 技术科学, in press, doi: 10.1360/SST-2021-0168

116  石俊朝, 冯辉君, 陈林根, 戈延林. 太阳能海洋热能转换系统中平板太阳能集热器构形设计.中国科学: 技术科学, in press, doi: 10.1360/SST-2020-0277

117  齐丛正,丁泽民, 陈林根, 戈延林, 冯辉君.联合热驱动布朗热泵的建模与性能分析.中国科学: 技术科学, in press, doi: 10.1360/SST-2020-0417                 

118  李云峰, 谢志辉, 陈林根,冯辉君. 圆柱发热体内圆截面液冷通道的构形优化.工程热物理学报, in press

119  吴志祥, 冯辉君, 陈林根,戈延林. 基于热效率最大的卡琳娜-有机朗肯联合循环构形热力学优化.工程热物理学报, in press

120  尤江, 陈林根, 冯辉君, 陈霁恒. 非均匀产热圆盘流动与换热构形设计.工程热物理学报, in press

121  尤江, 陈林根,冯辉君, 童大鹏,陈霁恒, 丁志龙. 内嵌冷却流道的双梯形非均匀产热体构形设计. 工程热物理学报, in press

122  杨爱波, 陈林根, 冯辉君, 戈延林. 基于换热率最大的翅针单列热沉构形优化. 工程热物理学报, in press  

123  陈林根, 冯辉君, 谢卓君, 唐威, 戈延林. 基于火积理论的船用锅炉构形优化.中国科学: 技术科学, 2021, 51(10): 1208-1218.

124  夏少军, 陈林根, 王超. 一类普适电化学反应系统的最优电流路径.中国科学: 技术科学, 2021, 51(9): 1025-1039.                 

125  孔锐, 陈林根,夏少军, 张磊,李鹏蕾, 戈延林,冯辉君. 碘化氢分解反应器熵产生率最小化.中国科学: 技术科学, 2021, 51(5): 565-579.

126  陈林根, 王超,张磊, 夏少军.海基合成燃油系统关键单元的热力学分析与优化研究进展. 中国科学: 技术科学,2021, 51(2): 137-175.

127  尤江, 陈林根,冯辉君, 谢志辉.非均匀矩形产热体对流换热构形设计.工程热物理学报, 2021, 42(8): 2079-2084.

128  孔锐, 陈林根,夏少军, 李鹏蕾, 戈延林. 基于最小熵产率的碘化氢分解膜反应器最优构型.工程热物理学报, 2021,42(7): 1637-1644.

129  李鹏蕾, 陈林根, 夏少军,孔锐, 吴志祥,戈延林. 基于熔融盐加热的SMR膜反应器热力学优化.工程热物理学报, 2021, 42( 6): 1363-1368.

130  李俊, 陈林根.普适传热定律下不可逆卡诺制冷循环的㶲经济性能. 热科学与技术, 2021, 20(1): 72-78.

131  冯辉君, 陈林根, 吴志祥, 谢卓君, 夏少军. 基于火积理论的有机工质管壳式换热器构形优化.中国科学: 技术科学, 2020, 50(12): 1577-1587.

132  夏少军, 陈林根,冯辉君. 两有限势库内可逆广义机最大广义输出的最优构型. 中国科学: 技术科学, 2020, 50(3):276-286.

133  冯辉君, 陈林根,吴志祥, 唐威,石俊朝. 基于火积理论的有机工质管壳式冷凝器构形优化. 化工学报, 2020, 71(S2):98-103.  

134  蔡存光, 赵光超, 陈林根, 冯辉君, 肖伟. 基于氨水工质的管壳式冷凝器多目标构形优化.工程热物理学报, 2020, 41(9): 2253-2258.

135  江帆, 孟凡凯, 陈林根, 沈佳峰. 变温热源小型热电冷水机结构设计与性能分析.工程热物理学报, 2020, 41(7): 1573-1578.  

136  陈林根, 夏少军, 冯辉君. 不可逆循环广义热力学动态优化研究进展.中国科学: 技术科学, 2019, 49(11): 1223-1267.

137  陈林根, 夏少军. 不可逆过程广义热力学动态优化研究进展.中国科学: 技术科学, 2019, 49(9):981-1022.

138  王亮, 谢志辉,孙丰瑞, 陈林根.基于多物理场耦合计算的工质回流式微通道正六边形热沉的构形研究.中国科学: 技术科学,2019, 49(7): 741-752.                   

139  夏少军, 陈林根. 广义流传递过程的广义耗散最小化.中国科学: 技术科学, 2019, 49(5): 501-507.  

140  尤江, 冯辉君, 陈林根. 非均匀产热“盘-点”导热构形优化.工程热物理学报, 2019, 40(9): 2137-2142.  

141 石瀚楠, 谢志辉, 孙丰瑞, 陈林根, 冯辉君. 树状脉管通道热沉的当量热阻分析与构形设计. 工程热物理学报, 2019, 40(7): 1590-1595.  

142  夏少军, 陈林根,孙丰瑞. 广义辐射传热条件下有热漏换热过程火积耗散最小化.工程热物理学报, 2019, 40(6): 1350-1361.