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教师名录2023采集

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朱绍伟

浏览量:来源: 时间:2023-03-18

姓名: 朱绍伟
性别:

出生年月:

职称:

 教授

党政职务:

研究方向:

 制冷与低温工程
导师类型: 博导

通讯地址:

 上海市嘉定区曹安公路4800号 同济大学机械与能源工程学院

电子邮箱:

 swzhu(a)tongji.edu.cn [(a)=@]

教育背景:

1980/09-1990/12,西安交通大学,动力机械工程系,学士、硕士、博士

 

工作履历:

2013/01至今, 同济大学,机械与能源工程学院,特聘教授

1997/02-2012/12, AISIN SEIKI CO., LTD.(Japan), Assistant Project manager

1994/01-1997/01, DAIDO HOXAN INC(Japan), 研究员

(1994/01-1996/01日本大学,客员研究员)

1991/02-1993/10,西安交通大学,博士后

学术兼职:

1.中国制冷学会第十届理事会低温专业委员会委员

2.上海市制冷学会第十届理事会理事

3.上海市超导制造业创新中心学术委员会委员

4.《真空与低温》杂第八届编辑委员会委员

5.《低温与超导》杂志编委会委员

6.日本低温工学超电导学会会员

研究领域:

1. 制冷机(脉管制冷机、磁制冷机、稀释制冷机等)
2. 新能源(氢液化、加氢站、高压液氢泵等)
3. 超导与量子(超导电缆、超导储能、量子冷却等)
4. 其他(低温冰箱、低温冷库、大温差热泵、热发动机等)

 

课题组保持与国际著名大学(德国KIT、美国UW-Madison、日本东北大学)之间的学术交流,并派遣博士及硕士研究生进行1-2年的学术访问。鼓励研究生出国留学、短期交流、参加国际会议,并招收留学生。

课题组每年招收硕士研究生、博士研究生若干名;研究团队诚聘博士后研究员和助理教授!

在研项目 :

1. 阶梯活塞脉管制冷机(国家自然科学基金面上项目)
2. 高压液氢泵(国家科技计划)

学术成果与奖励:

1. 日本低温工学工业技术业绩奖, 日本低温工学超电导学会, 2009年
2. 国家自然科学奖四等奖, 脉管制冷机理论和结构的重要发展, 科学技术部,1999年
3. 国家教委科学技术进步奖一等奖, 脉管制冷机的两种新结构及数值模拟, 国家教育委员会, 1997年
4. 第三代脉管制冷机的提出者

论文:

1. Zhimin Guo, Shaowei Zhu. Investigation about basic heat transfer law in the micro pulse tube[J]. International Journal of Refrigeration, 2022,134:139-145.
2. Chen Mengjia, Xu Sheng, Dai Haibin, Zhu Shaowei. Series inertance tube pulse tube refrigerator[J]. International Journal of Refrigeration, 2021,132:217-221.
3. Guo, Z., Zhu, S., Pfotenhauer, J. M. CFD study of the 2D gas piston in pulse tube cryocoolers[C]. IOP Conference Series: Materials Science and Engineering, 2020,012047.
4. Yuzhe Lin, Zhaorui Guo, Zhimin Guo, Shaowei Zhu. Experimental investigation of the connecting tube effect on a step displacer type two stage pulse tube refrigerator[J]. Applied Thermal Engineering, 2020,173,115229.
5. Zhaorui Guo, Yuzhe Lin, Shaowei Zhu. Experimental investigation of displacer rod diameter effect on pulse tube cryocooler[J]. International Journal of Refrigeration, 2020,112:69-73.
6. Zhimin Guo, Shaowei Zhu. Regenerative effect of heat exchanger in pulse tube refrigerator[J]. International Journal of Refrigeration, 2020,118:114-120.
7. Shaowei Zhu, Yuzhe Lin. Fundament of input power distribution and phase shifter functions of a step displacer type two-stage pulse tube refrigerator[J]. International Journal of Refrigeration, 2020,113:31-37.
8. Yuzhe Lin, Shaowei Zhu. Numerical investigation of the new phase shifter for pulse tube refrigerator - inertance tube combining with step-piston[J]. International Journal of Refrigeration, 2019,97:42-48.
9. Mingjun Wang, Haojie Xu, Yuzhe Lin, Zhao Zhang, Shaowei Zhu. Experimental investigation of pulse tube refrigerator with rod type displacer as phase shifter[J]. International Journal of Refrigeration, 2018,93:47-51.
10. Shaowei Zhu. A new concept of cold resonator pulse tube refrigerator[J]. Energy, 2018,144:1026-1036.
11. Yuzhe Lin, Shaowei Zhu. The influence of pressure ratio on the regenerator performance[C]. IOP Conference Series: Materials Science and Engineering. 2017,278,012168.
12. Y. Shi, S. Zhu. Experimental investigation of pulse tube refrigerator with displacer[J]. International Journal of Refrigeration, 2017,76:1-6.
13. Zhu S. Four operation modes of a pulse tube machine with a step piston compressor[J]. Energy, 2016, 100:190-198.
14. Shaowei Zhu. Step piston pulse tube refrigerator[J]. Cryogenics, 2014,64:63-69.
15. Shaowei Zhu, Masafumi Nogawa. Pulse tube stirling machine with warm gas-driven displacer[J]. Cryogenics, 2010,50:320-330.
16. Shaowei Zhu, Yoichi Matsubara. Numerical method of inertance tube pulse tube refrigerator[J]. Cryogenics, 2004,44:649-660.
17. Shaowei Zhu, Yoichi Matsubara. A numerical method of regenerator[J]. Cryogenics, 2004,44:131-140.
18. S. W. Zhu, M. Nogawa, S. Katsuragawa, M. Ichikawa, T. Inoue. The Performance of a 4K Pulse Tube Refrigerator and Its Improvement[C]. Cryocoolers, 2003,12:309-315.
19. Shaowei Zhu, Masahiro Ichikawa, Masafumi Nogawa, Tatsuo Inoue. 4K Pulse Tube Refrigerator and Excess Cooling power[C], Advances in Cryogenics, 2002,l47A:633-640.
20. Shaowei Zhu, Masahiro Ichikawa, Masafumi Nogawa, Tatsuo Inoue. Two-stage 4 K pulse tube refrigerator[C]. Cryocoolers, 2001,11:243-274.
21. Shaowei Zhu, Shin Kawano, Masahumi Nogawa, Tatsuo Inoue. Work loss in double-inlet pulse tube refrigerators[J]. Cryogenics,1998,38:803-807.
22. Shaowei Zhu, Yasuhiro Kakimi, Yoichi Matsubara. Investigation of active-buffer pulse tube refrigerator[J]. Cryogenics, 1997,37:461-471.
23. Zhu S. W., Zhou S. L., Yoshimura N., Matsubara Y. Phase shift effect of the long neck tube for pulse tube refrigerator[C]. Cryocoolers, 1996,9:269-278.
24. Shaowei Zhu, Peiyi Wu, Zhongqi Chen, Wenxiu Zhu, Yuan Zhou. A single stage double inlet pulse tube refrigerator capable of reaching 42 K[J], Cryogenics, 1990,30:257-262.
25. Shaowei Zhu, Peiyi Wu, Zhongqi Chen. Double inlet pulse tube refrigerator-an important improvement[J]. Cryogenics,1990,30:514-520.