专利

电力设备服役特性及其状态评估

1.       变压器扫频阻抗特性及其在绕组变形检测中的应用:

 

论文:

[1] Yong Liu, Shengchang Ji, Fan Yang, et al. A study of the sweep frequency impedance method and its application in the detection of internal winding short circuit faults in power transformers[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2015, 22(4):20462056 (SCI: 000359591600039; EI: 20153401203873).

[2] 刘勇,杨帆,张凡,.检测电力变压器绕组变形的扫频阻抗法研究[J].中国电机工程学报, 2015,35(17):4505~4516 (EI: 20153801299595).

[3] 刘勇,汲胜昌,杨帆,.检测变压器故障的扫频阻抗法特性研究及应用[J].高电压技术, 2016,42(10):3237~3245 (EI: 20164302952549).

[4]刘勇,崔彦捷,秦睿,.套管故障对变压器频响曲线影响的仿真研究[J].高电压技术, 2014,40(8):2406~2415 (EI: 201439069838).

[5] 刘勇,梁笑尘,汲胜昌,.变压器套管容性故障对频响曲线的影响[J].西安交通大学学报, 2014,48(2):62~68 (EI: 20141017430730).

[6] 刘勇,汲胜昌,梁笑尘,.检测变压器绕组变形的扫频阻抗法原理及应用[J].绝缘材料, 2014,47(3):85~88.

[7] Yong Liu, Fan Yang, Xiaochen Liang, et al. Study on sweep frequency impedance method for detecting internal winding short circuit fault in power transformer[C]. International Conference on Power Modulator and High Voltage, Santa Fe, USA, 2014 (EI: 20154701567322; ISTP: 000370659000035).

[8] Yong Liu, Shengchang Ji, Fan Yang, et al. Study on sweep frequency impedance method for detecting transformer winding deformation[C]. International Conference on Condition Monitoring and Diagnosis, Jeju, Korea, 2014:8689.

[9] 刘勇,汲胜昌,崔彦捷,.变压器套管故障对频响曲线影响的仿真研究[C].全国博士生学术论坛(电气工程综合),杭州, 2013.

 

专利:

[1] 汲胜昌,梁笑尘,刘勇.一种检测变压器绕组变形的系统及方法(授权号: CN103743993A).

[2] 汲胜昌,朱叶叶,张凡,刘勇.一种可模拟多种铁芯及绕组故障的试验变压器(授权号: CN204010940U).

 

奖项:

变压器绕组变形及铁心状态监测关键技术研究,宁夏回族自治区科学技术进步奖三等奖,2016

 

2.       多应力下油浸式电力变压器绝缘老化及局部放电特性研究:

 

 

 

论文:

[1]   崔彦捷, 曹沛, 祝令瑜, . 局部放电作用下油浸绝缘纸板电老化特性研究[J]. 高电压技术. (已录用)

[2]   崔彦捷, 曹沛, 祝令瑜, . 针板电极下局部放电对油浸绝缘纸板表面影响研究[J]. 西安交通大学学报. (已录用)

[3]   Cui Y J, Zhu L Y, Ji S C, et al. Partial Discharge Development in Needle plane Configuration of Paperoil Insulation under AC Voltage[J]. IEEE Transactions on Dielectrics and Electrical Insulation. (Accepted)

[4]   Cui Y J, Zhu L Y, Ji S C, et al. Developing process of partial discharge in oilpaper insulation under needleplate defects[C]. 2015 IEEE International Conference on Applied Superconductivity and Electromagnetic Devices

[5]   Cui Y J, Ji S C, Zhang F, et al. The Effect of Aging on Electrical Lifetime of Oil Immersed Pressboard under Partial Discharge [C]. 2016 IEEE International Power Modulator and High Voltage Conference (IPMHVC). IEEE, 2016(EI included, Accepted).

[6]   Peng P, Cui Y J, Ji S C, et al. Evolution of Partial Discharge of Oilpaper insulation under Longterm AC Voltage [C]. 2016 IEEE International Power Modulator and High Voltage Conference (IPMHVC). IEEE, 2016(EI included, Accepted).

[7]   崔彦捷, 曹沛, 汲胜昌, . 油中尖端下局部放电的影响因素研究[C]. 2016全国高电压与放电等离子体学术会议.(获优秀海报奖

[8]   钟理鹏, 汲胜昌, 崔彦捷, . 变压器典型缺陷局放特性及其带电检测技术研究[J]. 高压电器, 2015, 3: 1521.

[9]   Li Xining, Zhu Lingyu, Ji Shengchang, et al. Partial Discharge of Needle-Plane Defect in Oil-Paper Insulation under AC and DC Combined Voltages: Developing Processes and Characteristics. Energies. (SCI: 20174904509479).

[10]  Li Xining, Cui Yanjie, Ji Shengchang, et al. Partial Discharge Characteristics of Needle-Plane Defect in Oil-Paper Insulation under Actual Stress in Converter Transformers. 2017 CEIDP. (EI检索).

[11]  Li Xining, Cui Yanjie, Ji Shengchang, et al. Effect of Oil-paper Damped State on Characteristics of Surface Discharge Process under AC-DC Combined Voltage. 2018 ICPADM. (EI检索).

[12]  Li Xining, Ji Shengchang, Cui Yanjie, et al. Partial Discharge Patterns of Oil-Paper Insulation under AC Voltage Superimposed Harmonics. 2018 IPMHVC. (EI检索).

[13]  李熙宁,崔彦捷,汲胜昌等. 交直流复合电压中直流分量对油纸绝缘针板缺陷局部放电特性的影响. 高电压技术(EI检索审稿中).

[14]  李熙宁,崔彦捷,汲胜昌等. 交直流复合电压下水分含量对油纸绝缘针板缺陷局部放电特性的影响. 中国电机工程学会高电压专业委员会2017学术年会.

[15]  Jedsada Kridsananont, Li Xining, Cui Yanjie, et al. Impact of Harmonics on Needle-Plane Partial Discharge in oil-paper insulation. 2018 ICPADM. (EI检索).
[16]  Cui Yanjie, Li Xining, Cao Pei, et al. Influence of Harmonic Voltage on Charactersitcs of Partial Discharge in Oil-paper Insulation at HVDC Converter Transformer. 2017 ISH. (EI检索)
[17]  Cui Yanjie, Li Xining, Zhu Lingyu, et al. Research on Influence of Mechanical Stress on Insulation Characteristics of Oil-immersed Pressboard. 2018 IPMHVC. (EI检索)

 

 

奖项:

交流特高压变电设备状态检测和评估关键技术及工程应用,浙江省科技进步奖三等奖,2016

 

3.       SF6气体分解特性及其在电力设备缺陷诊断中的应用

 

论文:

[1]     Zhong Lipeng, Ji Shengchang, Liu Kai, et al. Decomposition characteristics of SF6 under three typical defects and the diagnostic application of triangle method[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2016, 23(5):25942606.

[2]     Ji Shengchang, Zhong Lipeng, Wang Yuanyuan, et al. SF6 decomposition of typical CT defect models[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2015, 22(5):28642870.

[3]     Wang Yuanyuan, Ji Shengchang, Zhang Qiaogen, et al. Experimental investigations on lowenergy discharge in SF6 under low moisture conditions[J]. IEEE Transactions on Plasma Science, 2014, 42(2):307314.

[4]     Wang Yuanyuan, Ji Shengchang, Li Jinyu, et al. Ultraviolet images of 50Hz AC discharges in SF6 atmosphere[J]. IEEE Transactions on Plasma Science, 2014, 42(8).

[5]     Wang Yuanyuan, Ji Shengchang, Li Jinyu, et al. Investigations on discharge and decomposition characteristics of SF6 under various experimental conditions[J]. High Voltage Engineering, 2013, 39(8):1952~1959.

[6]     汲胜昌, 钟理鹏, 刘凯, . SF6放电分解组分分析及其应用的研究现状与发展[J].中国电机工程学报, 2015, 35(9):23182332

[7]     钟理鹏, 汲胜昌, 刘凯, . 低体积分数水分对SF6局部放电及分解特性的影响[J].西安交通大学学报, 2016, 50(3):112119

[8]     刘凯, 汲胜昌, 钟理鹏, . 500kV SF6电流互感器电容屏缺陷下的气体分解特性[J].西安交通大学学报, 2017, 51(2):111120

[9]     Zhong Lipeng, Ji Shengchang, Liu Kai, et al. The infulence of adsorbents on the decomposition characteristics of SF6 under pointplate defect[C]. International Conference on Condition Monitoring and Diagnosis, Xi’an, China, 2016.

[10]  汲胜昌, 高璐, 钟理鹏,等. 涉及绝缘材料的悬浮电位缺陷下的SF6分解特性[J]. 高电压技术, 2018, 44(1):201-209.

 

奖项:

基于气体组分分析的SF6电流互感器状态诊断技术研究与应用,中国南方电网公司科技进步三等奖,2013

GIS典型绝缘缺陷下局部放电及分解产物的综合诊断与应用研究,南方电网公司科技进步奖三等奖,2016

SF6气体分解产物及局部放电在GIS绝缘缺陷及故障诊断中的应用研究. 国网山西省电力公司科学技术进步二等奖,国网山西省电力公司,2015

 

直流系统及装备故障机理及诊断

1.       多端柔性直流输电系统暂态特性探究

 

论文:

[1]     Ying SongShengchang Ji and Lingyu Zhu, A New Improved Coordination Control Strategy for MMC Based MultiTerminal HVDC Systems, The 19th International Symposium on High Voltage Engineering, 2328 August 2015, Pilsen, Czech Republic.

[2]     宋莹,汲胜昌,祝令瑜,用于基于MMC的多端柔性直流输电系统的新型控制方式,2015高电压学术年会。

[3]     Ying Song, Lingyu Zhu and Zheng ZhaoSlimulation of the Transient Characteristics in HVDC Scheme During the Operation of MRTBIMPHVCJuly 59, 2016, San Francisco, the United States.

 

2.       低压直流系统中串联型放电的产生与发展机理及其检测方法研究

 

论文:

[1]   L. Zhu, J. Li, Y. Liu, and S. Ji, "Initial Features of the Unintended Atmospheric Pressure DC Arcs and Their Application on the Fault Detection," IEEE TRANSACTIONS ON PLASMA SCIENCE, vol. 45, pp. 742748, 2017.

[2]   Qing Xiong, Shengchang Ji, Lingyu Zhu, et al. A Novel DC Arc Fault Detection Method Based on Electromagnetic Radiation Signal [J]. IEEE Transactions on Plasma Science, 2017, 45(3): 472478.

[3]   熊庆, 汲胜昌, 陆伟锋, . 低气压下串联直流电弧故障电磁辐射幅值及频率特性[J].中国电机工程学报, 2017, 37 (4): 10711079.

[4]   祝令瑜, 由志勋, 刘源, . 低压串联直流电弧检测方法的研究现状及发展[J]. 绝缘材料, 2015, 48(5): 15.

[5]   熊庆, 汲胜昌,祝令瑜,等. 基于电磁辐射特性的直流电弧检测方法[J]. 高电压技术. (已录用)

[6]   Qing Xiong, Shengchang Ji, Lingyu Zhu, et al. Characteristics of DC Microdischarge Under Low Pressure [C]. IEEE International Conference on Plasma Science, Atlantic City, U.S., 2017.

[7]   熊庆,祝令瑜,汲胜昌,等. 直流故障电弧电磁辐射特性及其影响因素[C]. 全国高电压与放电等离子体学术会议, 北京, 2016: 10.

[8]   Xiong Q, Zhu L, Ji S, et al. Flashover performance of silicon rubber under combined AC-DC voltage and its improving method[J]. IEEE Transactions on Dielectrics & Electrical Insulation, 2018, 25(1):272-280.

 

发明专利:

[1]   汲胜昌, 刘源. 一种故障电弧模拟发生装置及方法, CN103513149A, 2017.(已授权)

[2]   汲胜昌, 熊庆, 祝令瑜, . 一种基于电磁辐射特性的直流电弧检测方法, CN 105954608 A, 2016.

 

3.       柔性直流输电MMC子模块高压IGBT老化特性与在线监测技术研究

 

论文:

[1]   Shiying Chen, Shengchang Ji, Liang Pan, Chenshuo Liu and Lingyu Zhu, “On-State Voltage Calculation of Submodule IGBT Based on Parameters Used for Control System in MMC,” IEEE Transactions on Power Electronics(审稿中)
[2]   陈世瑛,潘亮,张健,刘源,刘琛硕,汲胜昌,祝令瑜. 基于自适应滤波器的MMC子模块电容值在线获取方法研究[J]. 高电压技术(审稿中)
[3]   张健,陈锐,陈世瑛,祝令瑜,潘亮,刘琛硕. MMC子模块设备老化机理与状态监测研究综述[J]. 高压电器(已录用)

 

发明专利:

[1]   柔性直流输电模块化多电平换流器子模块IGBT的在线监测方法,祝令瑜,陈世瑛,汲胜昌,潘亮,刘琛硕。(发明,实质审查)
[2]   一种模块化多电平换流器子模块电容器的在线监测方法,祝令瑜,陈世瑛,汲胜昌,姜智桐,刘琛硕。(发明,审中公开)

 

交直流设备振动噪声控制与应用

1.       电力变压器振动与噪声机理及机械故障诊断研究:

 

论文:

[1]   Ji S, Luo Y, Li Y. Research on extraction technique of transformer core fundamental frequency vibration based on OLCM[J]. IEEE Transactions on Power Delivery, 2006, 21(4):19811988.

[2]   汲胜昌, 徐大可. 变压器铁心及绕组状况的振动测试系统[J]. 高电压技术, 2000, 26(6):13.

[3]   徐大可, 汲胜昌. 变压器绕组变形在线监测的理论研究[J]. 高电压技术, 2000, 26(3):1618.

[4]   汲胜昌, 刘味果, 单平,. 小波包分析在振动法监测变压器铁芯及绕组状况中的应用[J]. 中国电机工程学报, 2001, 21(12):2427.

[5]   程锦, 李延沐, 汲胜昌,. 振动法在线监测变压器绕组及铁心状况[J]. 高电压技术, 2005, 31(4):4345.

[6]   汲胜昌, 李彦明, 傅晨钊. 负载电流法在基于振动信号分析法监测变压器铁心状况中的应用[J]. 中国电机工程学报, 2003, 23(6):154158.

[7]   汲胜昌, 程锦, 李彦明. 油浸式电力变压器绕组与铁心振动特性研究[J]. 西安交通大学学报, 2005, 39(6):616619.

[8]   汲胜昌, 王世山, 李清泉,. 用振动信号分析法监测变压器绕组状况[J]. 高电压技术, 2002, 28(4):1213.

[9]   汲胜昌, 刘味果, 李彦明,. 振动法用于在线监测电力变压器绕组及铁心状况的可行性研究[J]. 高压电器, 2001, 37(5):47.

[10]  汲胜昌, 何义, 李彦明,. 电力变压器空载状况下的振动特性研究[J]. 高电压技术, 2001, 27(5):4748.

[11]  程锦, 汲胜昌, 刘家齐,. 绕组振动信号监测法中测试位置的影响与分析[J]. 高电压技术, 2004, 30(10):4648.

[12]  汲胜昌, 张凡, 钱国超,. 稳态条件下变压器绕组轴向振动特性及其影响因素[J]. 高电压技术, 2016, 42(10):31783187.

[13]  朱叶叶, 汲胜昌, 张凡,. 电力变压器振动产生机理及影响因素研究[J]. 西安交通大学学报, 2015, 49(6):115125.

[14]  张凡, 汲胜昌, 师愉航,等. 电力变压器绕组振动及传播特性研究[J]. 中国电机工程学报, 2018(9). 

[15]  张凡, 汲胜昌, 祝令瑜,等. 短路冲击下变压器振动频响函数研究[J]. 西安交通大学学报, 2017, 51(2):97-103. 

 

专利:

[1]     汲胜昌, 朱叶叶, 张凡,. 一种变压器绕组及铁心表面振动信号的检测系统及方法:, CN104266740A[P]. 2015.

[2]     一种基于声学成像技术的变压器机械故障诊断方法        发明专利

[3]     一种基于互联网的电力设备故障诊断及评估方法    发明专利

 

2.       电力电容器振动与噪声机理及降噪措施:

 

   

 

论文

[1]     Li J, Ji S, Zhu L, Wu P, Cao, T.Vibration Characteristics of Filter Capacitors Used in HVDC Converter Stations[J]. IEEE Transactions on Power Delivery, 2016, 31(5):20452053.

[2]     Zhu L, Li J, Shi Y, et al. Audible Noise Characteristics of Filter Capacitors Used in HVDC Converter Stations[J]. IEEE Transactions On Power Delivery, 2016: 1.

[3]     Zhu L, Ji S, Shen Q, Liu Y, Li J, Liu H. A noise level prediction method based on electromechanical frequency response function for capacitors[J]. Plos One, 2013, 8(12):e81651.

[4]     Ji S, Wu P, Zhang Q. Study on the NoiseLevel Calculation Method for Capacitor Stacks in HVDC Converter Station[J]. IEEE Transactions on Power Delivery, 2010, 25(3):18661873.

[5]     Wu P, Ji S, Li Y, Cao, T. Study on an Audible Noise Reduction Measure for Filter Capacitors Based on Compressible Space Absorber[J]. IEEE Transactions on Power Delivery, 2011, 26(1):438445.

[6]     Peng W, Ji S, Tao C, Li Y, Li X, Yan L. Study on an Audible Noise Reduction Measure for the Filter Capacitors in the HVDC Converter Station Based on the MPP Absorber[J]. IEEE Transactions on Power Delivery, 2009, 24(4):17561762.

[7]     汲胜昌, 李金宇, 伍小生, 祝令瑜, 师愉航. 换流站交流滤波电容器振动与噪声研究综述[J]. 高电压技术, 2016, 42(4):11591167.

[8]     师愉航, 李金宇, 汲胜昌, 祝令瑜崔瀚焘. 交流滤波电容器振动噪声特性及声场控制研究[J]. 电力电容器与无功补偿, 2017, 38(1):6570.

[9]     祝令瑜, 汲胜昌, 沈琪, 刘源, 刘浩. 基于冲击放电试验的电力电容器外壳振动预估方法[J]. 电工技术学报, 2014, 29(11):239246.

 

专利

[1]     Frequency, sweep experimental method for predicting noise of power capacitor        美国发明

[2]     一种用于电力电容器噪声试验的单频叠加方法(授权)        发明专利

[3]     一种用于电力电容器噪声预测的扫频试验方法        发明专利

[4]     一种采用泡沫铝板及实板组合结构的低噪声电力电容器        发明专利

[5]     采用带阻尼双层外壳结构的低噪声电力电容器        发明专利

[6]     一种干式空心电抗器消声结构及其制备方法    发明专利