王学生

王学生

E-mail: wangxs@ecust.edu.cn
职位: 博士生导师
职称: 教授

 

 

 





个人简介:

        王学生,籍贯山东。现任上海市化学化工学会理事、化工机械与装备专业委员会主任,全国锅炉压力容器标准化技术委员会低温专委会委员。长期从事压力容器、换热设备的的设计与开发工作,特别是在高压容器和新型高效换热器的结构设计与优化,以及复杂、极端条件下压力容器的强度计算与应力分析等方面有丰富的工程经验。持有压力容器规则设计及SAD分析设计审核(批)证书。发表学术论文百余篇,其中SCI论文50余篇。担任国内外多家重要期刊的审稿人。先后承担或参与九五国家科技攻关、973项目、国家863项目,国家自然科学基金项目等国家、省部级科研项目20余项。获国家科技进步奖2项,省部级科技进步奖10余项,专利20余项,出版专著3部。


        哈尔滨船舶工程学院(现哈尔滨工程大学机械工程系舰船机械专业,获学士学位(1983.9-1987.7)

        郑州工学院(现郑州大学) 化工系 化工过程机械专业,获硕士学位(1990.9-1993.6)

        ok138cn太阳集团古天乐 化工机械研究所 化工过程机械专业,获博士学位(1998.9-2001.10)

        上海交通大学 制冷与低温工程研究所 动力工程及工程热物理博士后流动站工作(2002.4-2004.4)

        ok138cn太阳集团古天乐化工机械研究所任职(2004.04— )

 

联系方法:

通讯地址:上海市梅陇路130号402信箱;

邮编:200237;

电话:021-64251768; 传真: 021-64253105

E-mail: wangxs@ecust.edu.cn

研究方向

        (1)过程装备现代设计理论与技术;

        (2)压力容器分析设计及结构优化;

        (3)强化传热传质及新型高效节能换热设备的开发研究;

        (4)热隐身衣、热伪装装置和流动隐身衣等超材料研究;

        (5)承压设备失效分析、安全评定与风险、寿命评估;

        (6)清洁能源装备设计理论研究及其装备研发。


        招生专业:动力工程及工程热理、机械工程、能源动力、机械等

        欢迎勤奋认真、积极主动的学生加入本课题组攻读研究生,可根据以上兴趣选择研究方向。更多信息请点击课题组网站

科研项目

        先后承担或参与多项国家科技攻关项目、973项目、863项目、国家自然科学基金项目、国家博士后科学基金研究项目,主持数十项教育部科学技术研究项目、上海市自然科学基金项目、上海市科技兴市专项项目、上海市科委节能减排重大专项课题江苏重大技术转移、中国石油化工集团有限公司、航天科技集团有限公司以及中国船舶重工集团有限公司等省部级以上科研项目,与中石油、中石化、中化集团、国核集团等多家设计院长期保持良好的合作关系。


获奖成果

        先后获得了新型纵流壳程换热设备现代设计技术的研究与应用(国家科技进步二等奖)、新型高效节能换热设备项目产品(国家科技进步三等奖)、系列高通量换热器研制及其产业化成套装备技术(上海市人民政府科技进步一等奖)、大型高效双管板换热系统关键技术研究(江苏省科技进步三等奖)、新型降膜蒸发/再沸设备关键技术研究与应用(国石油化工联合会科技进步三等奖,被列入经信部和发改委重点推广计划)、外表面烧结型高通量换热器研制及工业化应用(中国石油化工集团公司科技进步三等奖)、江苏省创新创业人才等奖项。


代表性著作

      近年来,以第一作者或通讯作者发表学术论文百余篇,在International  Journal  of  Heat  and  Mass  Transfer, Energy, Applied Thermal Engineering, iScience, International Journal of Thermal Sciences等国际重要期刊发表SCI论文20余篇;授权专利20余项。

      部分代表性论文如下:

  1. Chen-Long   Wu, Bin   Wang*, Hao Wang, Neng-Zhi   Yao, Xuesheng Wang*. Optimal design of maximally amplified thermal   concentrators with homogeneous and isotropic materials. International Communications in Heat and Mass Transfer 152 (2024) 107326. [SCI]
  2. Hao Wang, Nengzhi Yao, Bin Wang*, Xuesheng Wang*. A Transient Transformation Theory for the Design of Convective Thermal Metamaterials: Cloaks, Concentrators, and Rotators. International  Journal  of  Heat  and  Mass  Transfer  221  (2024)  125088.  [SCI]
  3. 姚能智,王浩,王斌*,王学生*. 基于变换流体动力学的文丘里效应旋聚器的设计与非互易特性研究, 物理学报 71 (2022) 104701.[SCI]
  4. 王浩,姚能智,王斌*,王学生*. 流动隐身衣的均匀化设计与减阻特性, 物理学报 71 (2022) 134703.[SCI]
  5. Nengzhi Yao, Hao Wang, Bin Wang*, Wang Xuesheng*, Jiping Huang*, Convective thermal cloaks with homogeneous and isotropic parameters and drag-free characteristics for viscous potential flows. iScience 25 (2022) 105461. [SCI]
  6. Wang Hao,Yao Neng-Zhi,Wang Bin*,Shih Tien-Mo,Wang Xuesheng*. Homogeneous Venturi-effect concentrators for creeping flows: Magnifying flow velocities and heat fluxes simultaneously[J]. Applied Thermal Engineering, 2022,206. [SCI]
  7. Yuan Yuyang,Cao Jiaming,Wang Xuesheng*,Zhang Zhao,Liu Yanbin. Economic-effectiveness analysis of micro-fins helically coiled tube heat exchanger and optimization based on multi-objective differential evolution algorithm[J]. Applied Thermal Engineering,2022,201. [SCI]
  8.  Ying Hong, Xuesheng Wang*, Yan Wang, Zhao Zhang and Yong Han. Evaluation of the residual stress in stainless steel 304L hydraulically expanded joints. Proc IMechE Part E: J Process Mechanical Engineering, 2021, Vol. 235(2) 428–439. [SCI]
  9.  Yuan Yuyang,Wang Xuesheng*,Meng Xiangyu,Zhang Zhao,Cao Jiaming. A strategy for helical coils multi-objective optimization using differential evolution algorithm based on entropy generation theory[J]. International Journal of Thermal Sciences,2021,164. [SCI]
  10. Cao Jiaming,Wang Xuesheng*,Yuan Yuyang,Zhang Zhao,Liu Yanbin. Multi-objective optimization of micro-fin helical coil tubes based on the prediction of artificial neural networks and entropy generation theory[J]. Case Studies in Thermal Engineering,2021,28. [SCI]
  11. Yanbin Liu, Xuesheng Wang*,Qiming Men,Xiangyu Meng. Experimental study of heat transfer outside C-shaped tube in water tank[J]. Annals of Nuclear Energy,2020,135. [SCI]
  12. Ying Hong,Xuesheng Wang*,Yan Wang,Zhao Zhang. Study on reducing the risk of stress corrosion cracking of austenitic stainless steel hydraulically expanded joints[J]. Engineering Failure Analysis,2020,113.
  13. Xianyong Fan,Xuesheng Wang*,Qingzhu Chen. Theoretical and numerical investigations of manufacturing bimetal CRA-lined pipes using thermo-hydraulic forming[J]. Journal of Thermal Analysis and Calorimetry,2020,145. [SCI]
  14. Yanbin Liu,Xuesheng Wang*,Qiming Men,Xiangyu Meng. Experimental study of heat transfer outside C-shaped tube in water tank[J]. Annals of Nuclear Energy,2020,135. [SCI]
  15. Yong Han,Xue-sheng Wang*,Zhao Zhang,Hao-nan Zhang. Multi-objective optimization of geometric parameters for the helically coiled tube using Markowitz optimization theory[J]. Energy,2020,192. [SCI]
  16. Yong Han,Xue-sheng Wang*,Hao-nan Zhang,Qin-zhu Chen,Zhao Zhang. Multi-objective optimization of helically coiled tube heat exchanger based on entropy generation theory[J]. International Journal of Thermal Sciences,2020,147. [SCI]
  17. Yanbin Liu,Xuesheng Wang*,Xiangyu Meng,Dawei Wang. A review on tube external heat transfer for passive residual heat removal heat exchanger in nuclear power plant[J]. Applied Thermal Engineering,2018,149. [SCI]
  18. Qing Zhang,Xuesheng Wang*,Weicheng Ruan,Qinzhu Chen,Zilong Liu. Performance study of finned tube evaporative air cooler based on experiment and numerical simulation[J].Numerical Heat Transfer, Part A: Applications,2018,74(4). [SCI]
  19. Liu Yanbin,Wang Xuesheng*,Men Qiming,Meng Xiangyu,Zhang Qing. Heat Transfer Analysis of Passive Residual Heat Removal Heat Exchanger under Tube outside Boiling Condition[J]. Science and Technology of Nuclear Installations,2017,2017. [SCI]
  20. Zhongjing Shi,Xuesheng Wang*,Qinzhu Chen. Numerical Simulation on Atomizing Performance of Pressure Swirl Nozzles in Ethoxylation Reactors[J]. International Journal of Chemical Reactor Engineering,2017,16(2). [SCI]
  21. Zhongjing Shi,Xuesheng Wang*,Qinzhu Chen,Yuanyuan Xiong,Shuo Chen,Xiangyu Meng. Experimental Study on Atomizing and Reaction Performance of Pressure Swirl Nozzles in Ethoxylation Reactor[J]. International Journal of Chemical Reactor Engineering,2016,14(5). [SCI]
  22. Qiming Men,Xuesheng Wang*,Xiangyu Meng. Characteristics of Pool Boiling on Bronze Sintered Porous Surface Tubes at Subatmospheric Pressures[J].Heat Transfer Research,2016,47(8). [SCI]
  23. Qiming Men,Xuesheng Wang*,Xiang Zhou,Xiangyu Meng. Heat Transfer Analysis of Passive Residual Heat Removal Heat Exchanger under Natural Convection Condition in Tank[J]. Science and Technology of Nuclear Installations,2014,2014(Pt.2). [SCI]
  24. Xuesheng Wang, Ruzhu Wang, Jingyi Wu. Experimental investigation of a new-style double-tube heat exchanger for heating crude oil using solar hot water. Applied Thermal Engineering, 2005,25(11-12): 1753-1763 [SCI/EI]
  25. Xuesheng Wang, Peining Li, Ruzhu Wang. Study on hydro-forming technology of manufacturing bimetallic CAR-lined pipe. International Journal of Machine Tools and Manufacture, 2005, 45(4-5): 373-378 [SCI/EI]
  26. 刘延斌,王学生*,王浩,陈琴珠,孟祥宇.单根C型管外过冷沸腾传热特性实验及分析[J].高校化学工程学报,2022,36(03):346-353.[EI/北大中文核心]
  27. 刘延斌,王学生*,秦新亚,王浩,陈琴珠,赵赛.气动舵机高压反向直动式减压阀的设计及特性[J].北京航空航天大学学报,2022,48(07):1164-1173.[EI/北大中文核心]
  28. 秦新亚,王学生*,刘延斌,陈琴珠,赵赛.某型导弹高压正向式减压阀静态特性分析[J].液压与气动,2021,45(11):121-127. [北大中文核心]
  29. 陈孝根,王学生*,陈琴珠,张朝.微通道冷板换热及流阻特性计算与结构优化[J].低温与超,2020,48(07):71-75+85.[北大中文核心]



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