mgm美高梅79906教授 |
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研究方向(Focus Area): |
实用超导材料电磁特性、稳定性、失超及恢复特性 (Electromagnetic characteristics , stability, quench and recovery of practical superconducting materials);超导电力技术 (Applied superconductivity in Electrical Engineering);超导磁体技术(Technology of superconducting magnet);低温绝缘技术(Cryogenic insulation) |
办公地址:主楼A0436 |
电子邮箱:yswang@ncepu.edu.cn |
办公电话:010-61771548 |
一、个人简介及主要荣誉称号
王银顺,男,1965年7月生。 1986年、1989年在河北大学应用物理专业获得学士、硕士学位,1988年8月在中国科学院电工研究所超导技术及磁流体发电专业获得博士学位。2001年被聘为副教授,2003年晋升为研究员, 2006年被聘为博士生导师。中国科学院百人计划获得者(2006年)。1998-1999,美国Mayo博士后研究;199-2001年美国麻省理工学院Francis Bitter实验室博士后研究;2004-2005德国Helmholtz学会卡尔斯鲁厄研究中心(KIT)高级访问学者。中国电工技术学会超导应用技术专业委员会委员、国家超导标准委员会委员、北京市制冷学会理事、国际超导标委会IEC-TC90专家。
长期从事高温超导体的电力应用基础研究和应用研究工作,在实用高温超导材料的电磁特性、机械特性、均匀性、交流损耗、非接触测量、超导磁体的失超传播和保护、高温超导磁体的稳定性、低温绝缘、高温超导电力技术研究等方面做了大量的研究工作。提出复合高温/低温超导体的稳定性结构、准各向同性高温超导股线、类比特超导磁体结构,在高温超导电缆、超导变压器、超导限流器等超导电力技术方面取得了一系列成果。近期重点研究LNG超导能源管道、类比特高温超导磁体、超导限流器、超导现流变压器等项目。先后主持国家自然科学基金3项、国家重点研发计划课题2项、863课题2项以及多项横向课题。出版英文专著2部、中文专著1部,发表SCI收录论文100余篇,申请专利60余项。获得省部级二、三等奖2项、国家级优秀论文1项。
二、教学与人才培养情况
1.教学课程
工程电磁场,2008-2013年起,58学时,30人;
超导电力技术基础,2010-,32学时,200人
2.学生培养
毕业博士:皮伟、崔英敏、郑一博、贾立虎、张瀚
毕业硕士: 陈浩、胡一丹、彭畅、刘明闯、王梦晗、侯言兵、王蒙、李彦等
3. 学生获得荣誉
张瀚,北京市普通高等学校优秀毕业生(博士),2017,导师:王银顺
胡一丹,北京市普通高等学校优秀毕业生(硕士),2019,导师:王银顺
李彦,北京市普通高等学校优秀毕业生(硕士),2018,导师:王银顺
付瑜,北京市普通高等学校优秀毕业生(硕士),2017,导师:王银顺
三、主要科研项目情况
[1]科技部863,三相交流高温超导电缆的研制及并网运行,2002-2005,200万。
[2]科技部863,75米三相交流高温超导电缆的研制,2002-2005,520万。
[3]科技部863,大电流高温超导电流母线的研究,2006-2017,200万元。
[4]科技部863,三相高温超导变压器的研究与开发,2001-2004,100万。
[5]工信部,国家重点研发计划“智能电网技术与装备”重点专项,超导直流能源管道的基础研究-混合工质温区超导和绝缘材料特性与本体技术。2018-2021,80万。
[6]国家自然基金,低温/高温复合超导导体的稳定性研究,2011-2014,39万。
[7]国家自然基金,基于涂层导体高温超导股线的电磁和机械特性以及稳定性研究,2015-2018,95万。
[8]国家自然基金,类比特高温超导磁体磁通泵励磁机理及其闭环运行关键技术研究,2020-2014,63万。
四、主要获奖
[1]中国科学院,1998,中国科学院优秀博士论文奖-高温超导体的交流损耗研究,1/1。
[2]中国电机工程学会,2004, “菲尼克斯”优秀论文奖-高温超导带材的临界电流各向异性的实验研究,1/1。
[3]中国电机工程学会,2008,中国电力科学技术三等奖-630kVA三相高温超导变压器的研发及
并网试验运行,1/8。
[4] 中国科协, 2009,中国科协第六届优秀论文二等奖-630 kVA三相高温超导变压器的研制和并网试验, 1/6。
[5] 中国机械工业联合会, 2009,中国机械工业科学技术二等奖-高温超导电力技术的研发及其示范运行, 7/15。
五、代表性论著
[1]王银顺,超导电力技术基础,科学出版社, 2011.
[2]Yinshun Wang, Fundamental Elements of Applied Superconductivity in Electrical Engineering. John Wiley & Sons Pte. Ltd. April, 2013.
[3]Liuz A M, Yinshunh Wang. Applications of High-Tc Superconductivity.Chapter 4: Current Distribution and Stability of a Hybrid Superconducting Conductors Made of LTS/HTS.INTECH, Jun.2011.
[4]Yinshun Wang, Han Zhang, Hao Chen, Mingchuang Liu, Xi Yuan, Wei Pi. Design and Experimental Research on Self-shielding DC HTS Cable Model with Large Current Capacity, IEEE Transactions on Applied Superconductivity,vol.29, no.5, Aug. 2019, Art No.5402005(5pp). (SCI收录)
[5]Mingchuang Liu, Yinshun Wang, Shaotao Dai, Jiuke Wang, Chang Peng, Hao Chen, Zhe Jiang, and Yidan Hu. Experimental study on 1 kA-class Peltier current lead for superconductingDCdevices, IEEE Transactions on Applied Superconductivity, vol.29, no.5, Aug. 2019, Art No.4802504(4pp). (SCI收录)
[6]Hao Chen, Yinshun Wang, Jiuke Wang, Qiangqing Kang, Chang Peng, Mingchuang Liu, Yidan Hu, Menghan Wang and Zhe Jiang, Experimental study on quasi-isotropic critical current of an HTS conductor with high engineering current density, IEEE Transactions on Applied Superconductivity,vol.29, no.5,Aug.2019, Art No., 8002904(4pp).(SCI收录)
[7]Zhe Jiang, Yinshun Wang, Shaotao Dai, Tao Ma, Xi Yuan, Mingchuang Liu, Hao Chen, Menghan Wang and Chang Peng. Application and Design of Resistive SFCL in ±160kV MMC-HVDC System, IEEE Transactions on Applied Superconductivity, vol.29, no.5,Aug.2019, Art No., 5603505 (5pp)(SCI收录)
[8]Yidan Hu, YinshunWang, Yanqing Lu, Hao Chen, Mingchuang Liu, Xi Yuan, Menghan Wang, and Wei Pi,Trapped Field of a Bitter-like HTS Magnet Using Partial Multi-pulse Magnetization,IEEE Transactions on Applied Superconductivity, vol.29, no.5,Aug.2019, Art No., 6801905 (5pp). (SCI收录)
[9]Chang Peng, Yinshun Wang, Shaotao Dai, Quan Yang, Mingchuang Liu, Hao Chen and Zhe Jiang. Insulation characteristics of PPLP in GHe and design of 10 kV bipolar coaxial HTS DC cable.IEEE Transactions on Applied Superconductivity, vol.29, no.5,Aug.2019, Art No., 4801105 (5pp). (SCI收录)
[10]Yingmin Cui, Yinshun Wang, Gang Lv, and Wei Pi. Modeling and simulation analysis of current-sharing temperature forNb3Sn/Cu conductors.IEEE Transactions on Applied Superconductivity, vol. 29, no. 2, Mar. 2019, Art No., 8800704 (4pp).(SCI收录)
[11]Hao Chen, Yinshun Wang, Xi Yuan, Mingchuang Liu, Yidan Hu. Current transfer length in 2G HTS tape considering multi-layers., International Journal of Modern Physics B, vol.33,no. 9: 1950077(15pp), Apr. 2019.(SCI收录)
[12]Changtao Kan, Yinshun Wang, Tengyan Wang, Hao Chen, Xi Yuan, Mingchuang Liu, Chang Peng. Magnetization AC losses of a Quasi-isotropic Strand Stacked by 2G Wires at 77 K,IEEE Transactions on Applied Superconductivity, vol. 29, no. 2, Mar. 2019, Art No., 8200605 (5pp).(SCI收录)
[13]Yidan Hu , Yinshun Wang , Xi Yuan , Hao Chen , Mingchuang Liu, Menghan Wang , Chang Peng , and Wei Pi,Incremental Field Accumulation in a Bitter-Like HTS Magnet From Pulsed Magnetization Using Outer and Inner Excitation Coils, IEEE Transactions on Applied Superconductivity, vol. 29, no. 2, Mar. 2019, Art No., 4900605 (5pp).(SCI收录)
[14]Menghan Wang, Yinshun Wang, Qiuliang Wang, Chunyan Li, Xing Li, Mingchuang Liu, and Yidan Hu.Research of ICRH based on Simulation with Vsim Programming, IEEE Transactions on Applied Superconductivity, vol. 29, no. 2, Mar. 2019, Art No., 4900605 (5pp).(SCI收录)
[15]Chang Peng,Yinshun Wang,Shaotao Dai,Quan Yang,Mingchuang Liu,Hao Chen,Menghan Wang,and Yidan Hu. Insulation characteristics of dielectric material for CD HTS cable. IEEE Transactions on Applied Superconductivity, vol. 29, no. 2, Mar. 2019, Art No., 7700405 (5pp).(SCI收录)
[16]Zhe Jiang,Yinshun Wang,Shaotao Dai, Tao Ma, Chang Peng, Mingchuang Liu, Hao Chen.Influence of insolation on quench and recovery of YBCO tape under DC impact. IEEE Transactions on Applied Superconductivity,vol. 29, no. 2, Mar. 2019, Art No., 7700305 (5pp).(SCI收录)
[17]Xi Yuan,Yinshun Wang,Yidan Hu,Hao Chen,Mingchuang Liu,Wei Pi,and Chuanbing Cai. Experimental research on the Bitter-like HTS magnet energized by an inner flux pump. IEEE Transactions on Applied Superconductivity, vol. 29, no. 2, Mar. 2019, Art No, 4700405 (5pp).(SCI收录)
[18]Hao Chen,Yinshun Wang,Xi Yuan,Yidan Hu,Kan Changtao, Mingchuang Liu,Menghan Wang,Chang Peng,Wei Pi.Analysis on critical current density of an HTS conductor with quasi-isotropic and high engineering current density. IEEE Transactions on Applied Superconductivity, vol. 29, no. 2, Mar. 2019, Art No, 6600106 (6pp).(SCI收录)
[19]Yanbing Hou, Yinshun Wang, Changtao Kan, Xi Yuan, Wei Pi. Analysis ofSelf-protection Characteristic of 1.5 T Bitter-like HTS Magnet Operated at 65 K. Chin. Phys. Lett. 35(6): 067402(5pp), 2018. June 2018. (SCI收录)
[20]Yan Li, Yinshun Wang, Mingchuang Liu, Hao Chen, Changtao Kan, and Yanbing Hou. Experimental study on AC loss of a quasi-isotropic strand fabricated by coated conductors in AC magnetic fields.IEEE Trans Appl. Supercond.,28(3):4701206(6pp),2018.April.2018.(SCI收录)
[21]Xi Yuan, Yinshun Wang, Yanbing Hou, Changtao Kan, Chuanbing Cai, and Meijuan Sun. Conceptual design of a Bitter-like superconducting magnet stacked by REBCO annular plates and magnetized by flux pump. IEEE Trans Appl. Supercond.,28(3):4603005(5pp),2018.April.(SCI收录)
[22]Changtao Kan, Yinshun Wang, Xi Yuan, Yan Li, Yanbing Hou. AC loss analysis on a quasi-isotropic strand stacked by 2G wires by numerical simulation in cryogenic temperature. IEEE Trans Appl. Supercond.,28(3):8200206(6pp), Apr.2018.(SCI收录)
[23]Changtao Kan, Yinshun Wang, Yanbin Hou, Yan Li, Han Zhang,Yu Fu, Zhe Jiang. Development of a 10 m quasi-isotropic strand assembled from 2Gwires. Physica C, 546:28-33, 2018.(SCI收录)
[24]Yu Fu,Yinshun Wang,Yanbing Hou,Changtao KanandHan Zhang. Out-of-plane bending characteristics of second generation high temperature superconducting tapes. Supercond. Sci. Technol., 30(7):075009(7pp),2017, (14 June 2017).(SCI收录)
[25]Yu Fu, Yinshun Wang, Changtao Kan, Han Zhang. Simulations of bending and twisting mechanical characteristics of a cable strand made of REBCO conductors at cryogenic temperatures.IEEE Trans Appl. Supercond., 27(4):4802305(pp5), Jun., 2017.(SCI收录)
[26]Changtao Kan, Yinshun Wang, Yu Fu, Han Zhang. Numerically Thermal Stability Analysis on a Geometrically Symmetrical Strand Fabricated by 2G Wires in Liquid Helium Temperature. Trans Appl. Supercond., 27(4):4900508(pp6), Jun., 2017.(SCI收录)
[27]Han Zhang, Yinshun Wang, Changtao Kan, Yu Fu, and Jiping Xue.Effects of HTS Tape Arrangements on AC Lossin Self - shielding DC HTS Cable withAC Ripple Current. IEEE Trans Appl. Supercond., 27(4): 4800605(pp5), Jun., 2017.(SCI收录)
[28]Zhe Jiang, Yinshun Wang, Han Zhang, Changtao Kan, and Yu Fu. Coil design of 200 MVA/200kV DC superconducting fault current limiter by employing iron yoke. IEEE Trans Appl. Supercond., 27(4): 5600905(pp5), Jun., 2017.(SCI收录)
[29]Han Zhang, Yinshun Wang, Jiping Xue. Electromagnetic field analysis of a high current capacity DC HTS cable with self-shielding characteristic by 2D simulation. IEEE Trans Appl. Supercond., 26(7): 8002105(pp5), Oct., 2016.(SCI收录)
[30]Hanzhang, Yinshun Wang, Influence of magnetic field generated by terminal current on critical Current of DC HTS cable conductor with large current capacity.IEEE Trans Appl. Supercond., 26(7): 4804805(pp5), Oct., 2016.(SCI收录)
[31]Hanzhang, Yinshun Wang, A self-shielding DC HTS cable using co-axial configuration with large current capacity. IEEE Trans Appl. Supercond., 26(7): 4804505(pp5), Oct., 2016.(SCI收录)
[32]Yinshun Wang, Han Zhang,Yu Fu,ChangTao Kan;Chi Xue;Takayo Hasegawa, Experimental research on bending characterization of2G tapes and strand consisting of2G tapes,IEEE Trans Appl. Supercond., 26(7): 9001705(pp5), Oct., 2016.(SCI收录)
[33]Jiawei Li, Yinshun Wang, Han Zhang, ShijieChen,Jiping Xue , and TakayoHasegawa.Twisting characteristics and tensile effects of a quasi-isotropic strands made of coated conductors, IEEE Trans Appl. Supercond., 26(7): 4804704(pp5), Oct., 2016.(SCI收录)
[34]Chenjie Shi, Yinshun Wang, Jiawei Li, TingTing Li, and Guixin Chen, Critical current of a quasi-isotropic HTS strand inmagnetic field, IEEE Trans Appl. Supercond., 26(7): 4805105(pp5), Oct., 2016.(SCI收录)
[35]Guixin Chen, Yinshun Wang, Wei Pi, Changtao Kan, Chenjie Shi, Tingting Li, and Jiawei Li,Heat leakage analysis on Peltier Current leads ofdifferent structures.IEEE Trans Appl. Supercond., 26(7): 8801504(pp4), Oct., 2016.(SCI收录)
[36]Yinshun Wang, Shiirav Baasansuren, Chi Xue, and Takayo Hasegawa. Development of a quasi-isotropic strand stacked by 2G wires, IEEE Trans Appl. Supercond., 26(4): 4804406(pp5), June, 2016.(SCI收录)
[37]Chenjie Shi, Yinshun Wang, Jiawei Li, TingTing Li, and Guixin Chen,Investigation on AC losses of quasi-isotropic a strand made from REBCO coated conductors,IEEE Trans Appl. Supercond.,26(4): 6601204(pp4), June, 2016.(SCI收录)
[38]Tingting Li, Yinshun Wang, Chenjie Shi, Jiawei Li, Guixin Chen, Huixian Zhang, Thermal stability of a quasi-isotropic strand made from coated conductors, IEEE Trans Appl. Supercond., 26(4): 4804005(pp5), June, 2016.(SCI收录)
[39]Guixin Chen, Yinshun Wang, Wei Pi, Chenjie Shi, Tingting Li, Jiawei Li, and Huixian Zhang, Experimental investigation on 100 A-class PCL for DC HTS devices,IEEE Trans Appl. Supercond.,26(4): 4800805(pp5), June, 2016.(SCI收录)
[40]Yinshun Wang, Weiwei Zhou, Jingshu Dai., Anapplicable calorimetric method for measuring AC losses of 2G HTS wire using optical FBG. Sci China Tech Sci. 58(3): 545-550, March 2015.(SCI收录)
[41]Yang Li, Yinshun Wang, Jinya Miao, Chenjie Shi, Peng Ju, Jiping Xueand Takayashi Hasegawa. Investigation on critical current properties of quasi-isotropic strand made from coated conductor. IEEE Transactions on Applied Superconductivity, 25(3): 6600805(pp5), June, 2015.(SCI收录)
[42]Jinya Miao, Yinshun Wang, Yang Li, Chenjie Shi, Huanhui Guo, Peng Ju, Takayashi Hasegawa, and Jiping Xue. Quench Behavior of Isotropic Strand Making from Coated Conductors with Over-current at Power Frequency,IEEE Transactions on Applied Superconductivity, 25(3): 7200105(pp5), June, 2015.(SCI收录)
[43]Yinshun Wang. Research on critical current non-uniformity of practical long HTS tapes and progress in hybrid composite conductors/strands. Applied Superconductivity and Electromagnetics. 5(1): 19-38, December, 2014. (SCI收录)
[44]Yinshun Wang. Review of HTS power transformers developed in China. Applied Superconductivity and Electromagnetics. 5(1): 44-49, December, 2014. (SCI收录)
[45]Yibo Zheng, Yinshun Wang, Wei Pi, Peng Ju, and Yixuan Wang. Current Distribution among Layers of Single Phase HTS Cable Conductor. Physica C507:59-64,Dec.2014.(SCI收录)
[46]Yinshun Wang, Xiaojin Guan, Jingshu Dai. "Review of AC Loss Measuring Methods for HTS Tape and Unit,", IEEE Transactions on Applied Superconductivity, 24(5): 9002306(pp6), 2014. (SCI收录)
[47]Yinshun Wang, Yibozheng. Review of research and measurement for application properties of HTS tapes. Sci China Tech Sci. 57(8): 1568-1577, August2014.(SCI收录)
[48]Yinshun Wang, Xiao Li, Lianqi Zhao, Chi Xue. Qualitative analysis on adiabatic and dynamic stability of LTS/HTS hybrid conductor with concentric configuration.Sci China Tech Sci. 55(7): 1881-1885, 2012.(SCI收录)