北京市海澱區bevictor伟德官网西主樓3區207室
xzdong@tsinghua.edu.cn
010-62782894
1.簡介
教授,博士生導師,電力系統保護團隊負責人,電力系統研究所所長,IET Fellow, IEEE Fellow, AAIA Fellow, 中國電機工程學會會士,綠色能源與電力安全北京市國際科技合作中心主任。
1983年西安交通大學電氣工程學院本科畢業,獲學士學位;1991年西安交通大學電氣工程學院碩士研究生畢業,獲碩士學位;1996年西安交通大學電氣工程學院博士研究生畢業,獲博士學位;1999年天津大學電工博士後流動站博士後出站并被引進bevictor伟德官网電機系任教至今。1998年任副教授,2004年晉升教授,2005年任博士生導師。
CIGRE B5委員,CIGRE中國國家技術委員會委員,CIGRE-B5-55行波保護工作組主席,CIRED中國國家技術委員會委員,IEEE PES電力系統保護控制技術委員會(中國)主席,IEC TC95 AHG4工作組主席,中國電工技術學會理事,中國電工技術學會電力系統保護與控制專委會副主任委員,中國水力發電工程學會繼電保護專委會副主任委員,國家電網公司繼電保護專家組成員,全國短路電流計算标準化委員會委員,全國量度繼電器和保護設備标準化委員會委員,陝西省百人計劃專家,陝西理工大學特聘教授,英國Strathclyde大學Visiting Professor,台北科技大學兼職教授,《PCA world》顧問,《CSEE Journal of Power and Energy Systems》編委,《Journal of Modern Power Systems and Clean Energy》編委,《Protection and Control of Modern Power Systems》副主編,《電力自動化設備》編委,《電力系統自動化》編委,《電力科學與技術》編委,《電力工程技術》編委,《電網技術》編委,《陝西理工大學學報》編委。
先後主持國家自然科學基金重大國際合作項目、重點項目、面上項目、國際合作項目6項,主持國家重點研發計劃項目1項,科技部中丹政府間國際合作項目1項,大型國際合作項目(bevictor伟德官网ALSTOM聯合研究中心)1項,參加科技部973項目1項,參加教育部創新團隊項目1項。
主要學術貢獻是:最早把小波變換應用于電力系統故障分析和故障行波研究,發明了現代行波測距技術、現代行波保護技術、行波選線技術并研制出國内外首例暫态行波保護測試儀;提出并實現了面向電力系統安全的站域集成保護技術;與ALSTOM公司合作提出并實現了電力線路無通道保護技術和高阻接地故障檢測技術等。
圍繞上述研究,發表論文450篇,撰寫學術著作5部、參加撰寫(譯)學術著作7部,獲授權發明專利120項;2020年獲全國創新争先獎,2017年獲中國電力科學技術傑出貢獻獎,2016年獲CIGRE傑出會員獎,獲國家技術發明獎二等獎2項,全國優秀教材獎二等獎1項,其它省部級一等獎7項,獲日内瓦國際發明展金獎3項,獲韓國國際發明博覽會KEPCO Leading-edge Prize獎2項,2016年獲MPCE優秀編委,2018年獲JPES期刊突出貢獻獎,2017-2019愛思唯爾中國高被引學者。主辦/合辦IEEE APAP大型國際會議2次、主辦/合辦主持中韓繼電保護論壇16次,擔任電子技術國際會議(ICET)顧問主席4次,擔任第7、10、14、15屆國際繼電保護會議(DPSP)組委會委員,擔任第6屆國際電力技術會議(Powercon)顧問委員會委員。
2.簡曆
1983.08~1988.07 陝西工學院電氣與電子工程系助教;
1991.08~1994.01 陝西工學院電氣與電子工程系講師、教研室副主任;
1997.01~1999.01 天津大學電工博士後流動站博士後,98年10月晉升副教授;
1999.02~2004.11 bevictor伟德官网電機系副教授;
2004.12至今 bevictor伟德官网電機系教授;
2005.09至今 bevictor伟德官网電機系博士生導師;
2021.09至今 bevictor伟德官网電機系電力系統研究所所長;
2003.09至今 bevictor伟德官网ALSTOM電網研究中心主任;
2014.03至今 北京市綠色能源與電力安全國際科技合作基地主任。
3.個人榮譽
2020年全國創新争先獎;
2017年中國電力科技傑出貢獻獎;
2016年CIGRE傑出會員獎;
2007年國家技術發明獎二等獎,基于行波原理的電力線路在線故障測距技術;
2017年國家技術發明獎二等獎,電力線路行波保護關鍵技術及裝置;
2021年全國優秀教材獎二等獎,《電力系統繼電保護原理(第五版)》;
2004年北京市人民政府自然科學獎二等獎,基于小波變換的輸電線路暫态行波分析和故障測距理論研究;
2007年山東省人民政府科技進步獎二等獎,基于行波的輸電線路故障定位技術及應用系統;
2010年北京市人民政府技術發明獎二等獎,配電線路繼電保護新技術;
2014年中國電力技術發明獎一等獎,基于暫态故障行波的輸配電線路保護技術;
2015年陝西省人民政府技術發明獎一等獎,行波選線技術研究與應用;
2016年北京市人民政府技術發明獎一等獎,電力線路行波保護關鍵技術及裝置開發與應用;
2016年陝西省人民政府技術發明獎一等獎,750 kV輸電線路行波保護技術及應用;
2021年北京市人民政府科技進步獎一等獎,保護新能源電力系統安全的繼電保護技術研究與應用;
2021年福建省人民政府科技進步獎一等獎,防禦電力系統次生災害的繼電保護技術;
2022年中國電力科學技術獎一等獎,保護新能源電力系統安全的繼電保護技術研究與應用;
2013年科學中國人年度人物獎,《科學中國人》雜志社;
2014年第42屆日内瓦國際發明展金獎,暫态行波保護測試儀;
2015年第43屆日内瓦國際發明展金獎 ,輸電線路行波方向保護;
2015年韓國國際發明博覽會KEPCO Leading-edge Prize,暫态行波保護測試儀;
2015年韓國國際發明博覽會KEPCO Leading-edge Prize,配電網單相接地行波選線裝置;
2016年MPCE期刊優秀編委;
2018年JPES期刊突出貢獻獎;
2017-2019愛思唯爾中國高被引學者;
2021年日内瓦國際發明展金獎,饋線保護控制裝置;
1.本科生課程:
電力系統繼電保護,48學時、大三春季學期
微機保護與控制,32學時、大四秋季學期
繼電保護實驗,16學時,大三春季學期
2.研究生課程:
繼電保護,32學時,研一春季學期
标志性項目
2016-2021,國家科技部國家重點研發計劃項目,“大型交直流混聯電網運行控制與保護”(項目編号:2016YFB6900600)
2021-2016,國家自然科學基金重大國際合作研究項目,“基于本地信息的系統保護研究”(項目編号:51110051)
2010-2013,國家自然科學基金重點合作項目,“故障行波理論及其在電力系統故障檢測中的應用研究”(項目編号:50937003)
2005-2007,科技部中丹政府間科技合作項目,“基于小波變換的分布式發電系統暫态保護研究”(批準号:AM14: 23NNP37)
2020-2022,國家自然科學基金項目中英國際合作項目,“極端條件下未來城市能源系統彈性技術研究”( 項目編号:52061635105)
2001-2003,國家自然科學基金對外交流與合作項目兩個基地,“基于高頻暫态的無通道保護研究”( 資助号:50110686)
2003-2018,bevictor伟德官网-英國ALSTOM大型國際合作項目,“bevictor伟德官网ALSTOM電網研究中心”( 項目編号:20033000054)
2016-2017,bevictor伟德官网-德國西門子國際合作項目,“輸電線路故障定位方法的研究和基于行波的控制技術”( 項目編号:20163000188)
2021-2023,國家電網公司總部科技項目,“防範交直流混聯電網連鎖故障的系統保護基礎理論與技術研究”( 項目編号:SGFJDK00DWJS2100433)
2007-2009,科技部973項目,“提高超高壓交流輸電線路輸送能力的研究”,參與(項目編号:2004CB217906)
2007-2009,教育部項目,“教育部創新團隊”,參與(團隊号:IRT0634)
1.教材、著(譯)
1) 董新洲,故障行波理論及其應用,科學出版社,2022.5;
2) Xinzhou Dong, Fault travel wave and its application, Spinger, 2022.6;
3) 董新洲,交直流混聯大電網系統保護,中國電力出版社,2022.10;
4) Xinzhou Dong, AC/DC Hybrid Large scale Power Grid System Protection, Springer, 2022.10;
5) 董新洲、王賓、施慎行;現代電力系統保護,bevictor伟德官网出版社,2023.3;
6) Jian Liu, Xinzhou Dong, Xingying Chen, Xiangqian Tong, Xiaoqing Zhang, Shiming Xu, Fault Location and Service Restoration for Electrical Distribution System;Singapore: Wiley/China Electric Power Press, 2016, Singapore/Beijing;
7) 劉健、董新洲等,配電網自愈控制,中國電力出版社,2011.3;
8) 賀家李、李永麗、董新洲等. 電力系統繼電保護原理, 中國電力出版社, 2011.3;
9) 王賓、董新洲譯,高效可再生分布式發電系統, 中國機械工業出版社. 2010.1;
10) 王偉勝、董新洲譯,電力系統計算,中國電力出版社,2009.12;
11) 宋永華、董新洲譯,安德森著,電力系統保護,中國電力出版社,2009.12;
12) 王賓、董新洲譯,斯特凡·克勞特(德)著,太陽能發電-光伏能源系統,中國機械工業出版社,2008.5,北京。
2.國際期刊論文
1) Dong, Xinzhou; Yang, Zhonghao; Bo, Zhiqian, Fast extraction of power frequency component using wavelet transform, Dianli Xitong Zidonghua/Automation of Electric Power Systems, 26(24)(2002), 75-78;
2) Su, Qianli; Dong, Xinzhou, Fault line selection based on current traveling waves and wavelet transform for non-solid-grounded system, Dianli Xitong Zidonghua/Automation of Electric Power Systems, 26(2002), 79-82, 103;
3) Youyi Li; Xinzhou Dong; Yuanzhang Sun, Identification of transient and permanent faults, Tsinghua Science and Technology, 8(6)(2003), 672-675;
4) Z. Q. Bo; X. Z. Dong; B. R. J. Caunce, Accelerated protection of distribution systems with tapped off loads, IEE Proceedings-Generation, Transmission and Distribution, 151(4)(2004), 461-468;
5) Xinzhou Dong; Yaozhong Ge; Jiali He, Surge impedance relay, IEEE Transactions on Power Delivery, 20(2)(2005), 1247-1256;
6) Dong, XinZhou and Yuan, DingDing and Lu, Qiang and Bo, ZhiQian, Novel directional comparison protection for distribution lines, Science in China Series E: Technological Sciences, 23(5)(2008), 353-361;
7) Bin Wang; Xinzhou Dong; Zhiqian Bo; Anthony Perks, RTDS Environment Development of Ultra-High-Voltage Power System and Relay Protection Test, IEEE Transactions on Power Delivery, 23(2)(2008), 618-623;
8) Zhiqian Bo; Shenxing Shi; Xinzhou Dong, Integrated protection scheme for power line, Transactions of Tianjin University, 14(2)(2008), 79-84;
9) Dong, XinZhou; Shi, ShenXing; Cui, Tao; Lu, Qiang, Optimizing solution of fault location using single terminal quantities, Science in China Series E: Technological Sciences, 51(6)(2008), 761-772;
10) Xinzhou Dong; Shenxing Shi, Identifying Single-Phase-to-Ground Fault Feeder in Neutral Noneffectively Grounded Distribution System Using Wavelet Transform, IEEE Transactions on Power Delivery, 23(4)(2008), 1829-1837;
11) Xinzhou Dong; Wei Kong; Tao Cui, Fault Classification and Faulted-Phase Selection Based on the Initial Current Traveling Wave, IEEE Transactions on Power Delivery, 24(2)(2009), 552-559;
12) Bin Wang; Xinzhou Dong; Zhiqian Bo; A. Klimek, Residual Compensation for Ground Impedance Relay With Applications in UHV Transmission Lines, IEEE Transactions on Power Delivery, 24(3)(2009), 1072-1078;
13) Bin Wang; Xinzhou Dong; Zhiqian Bo; Andrew Klimek, Negative-Sequence Pilot Protection With Applications in Open-Phase Transmission Lines, IEEE Transactions on Power Delivery, 25(3)(2010), 1306-1313;
14) Tao Cui; Xinzhou Dong; Zhiqian Bo; Andrzej Juszczyk, Hilbert-Transform-Based Transient/Intermittent Earth Fault Detection in Noneffectively Grounded Distribution Systems, IEEE Transactions on Power Delivery, 26(1)(2011), 143-151;
15) Dong X Z; Shi S X; Wang B; Bak D J; Cao R B; Ren L; Lan L; He S E, Accident of Large-scale Wind Turbines Disconnecting from Power Grid and Its Protection, Automation of Electric Power Systems, 36(8)(2012), 105-109;
16) Shiyong Wang, Xinzhou Dong, Shenxing Shi, Liu Cui, Study on Current Travelling Wave Transmission Characteristics in Secondary Control Cable Connected with CT, Physics Procedia, 33(2012), 663-671;
17) Bąk, D; Dong, X; Rebizant, W., New method of CT saturation detection Present Problems of Power System Control, 2(2012), 65-72;
18) Bin Wang; Xinzhou Dong; Lan Lan; Fei Xu, Novel location algorithm for single-line-to-ground faults in transmission line with distributed parameters, IET Generation, Transmission & Distribution, 7(6)(2013), 560-566;
19) Xinzhou Dong; Jun Wang; Shenxing Shi; Bin Wang; Bak Dominik; Miles Redefern, Traveling wave based single-phase-to-ground protection method for power distribution system, CSEE Journal of Power and Energy Systems, 1(2)(2015), 75-82;
20) Shenxing Shi; Zhonghong Hu; Zhao Ma; Xinzhou Dong, Travelling waves-based identification of sub-health condition of feeders in power distribution system , IET Generation, Transmission & Distribution, 12(5)(2018), 1067-1073;
21) Xu, Fei; Dong, Xinzhou; Wang, Bin; Shi, Shenxing, Self-adapted single-ended travelling wave fault location algorithm considering transfer characteristics of the secondary circuit, IET Generation, Transmission & Distribution, 9(14)(2015), 1913-1921;
22) Yuwei SHANG; Shenxing SHI; Xinzhou DONG, Islanding detection based on asymmetric tripping of feeder circuit breaker in ungrounded power distribution system, Journal of Modern Power Systems and Clean Energy, 3(4)(2015), 526-532;
23) Jiang, B., Dong, X., Shi, S., Application of approximate entropy to cross-country fault detection in distribution networks, Power System Protection and Control, 43 (17)(2015), 15-21;
24) Dong, X., Luo, S., Shi, S., Wang, B., Wang, S., Cui, L., Wang, J., Ren, L., Jiang, B., Xu, F., Wu, J., Liu, F., Su, X., Zhang, Y., Guo, X., Lan, J., Qian, G., PCTDR-based directional comparison pilot protection technology and its application in 750 kV transmission lines, Electric Power Automation Equipment, 35 (9) (2015), 1-5;
25) Xinzhou Dong; Shuxin Luo; Shenxing Shi; Bin Wang; Shiyong Wang; Li Ren; Fei Xu, Implementation and Application of Practical Traveling-Wave-Based Directional Protection in UHV Transmission Lines, IEEE Transactions on Power Delivery, 31(1)(2016), 294-302;
26) Shuxin Luo ; Xinzhou Dong ; Shenxing Shi ; Bin Wang, A Directional Protection Scheme for HVDC Transmission Lines Based on Reactive Energy, IEEE Transactions on Power Delivery (2016 IEEE Power and Energy Society General Meeting (PESGM), Boston, MA, USA), 31(2)(2016), 559-567;
27) Xinzhou Dong; Delin Wang; Manyong Zhao; Bin Wang; Shenxing Shi; Alexander Apostolov, Smart power substation development in China, CSEE Journal of Power and Energy Systems, 2(4)(2016), 1-5;
28) Lei, A., Dong, X., Shi, S., A method to identify the second reverse travelling wave induced by single-phase-to-ground fault in transmission line, Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering, 36 (8)(2016), 2151-2158;
29) Liu, J., Dong, X., Chen, X., Tong, X., Zhang, X., Xu, S., Fault location and service restoration for electrical distribution systems, Fault Location and Service Restoration for Electrical Distribution Systems, 2016, 1-244;
30) Dong, X., Shi, S., Single Phase to Ground Fault Processing, Fault Location and Service Restoration for Electrical Distribution Systems, 2016, 163-203;
31) Bin, WANG; Jiang, NI; Jianzhao, GENG; Yuanyuan, LU; Xinzhou, DONG, Arc flash fault detection in wind farm collection feeders based on current waveform analysis, Journal of Modern Power Systems and Clean Energy, 5(2)(2017), 211-219;
32) Lv, Chen; Sheng, Wanxing; Liu, Keyan; Dong, Xinzhou, Research on Multi-Scale Modeling of Grid-Connected Distributed Photovoltaic Power Generation, Energy and Power Engineering, 9(4)(2017), 127-140;
33) Lanxi Tang; Xinzhou Dong; Shuxin Luo; Shenxing Shi; Bin Wang, A New Differential Protection of Transmission Line Based on Equivalent Travelling Wave, IEEE Transactions on Power Delivery, 32(3)(2017), 1359-1369;
34) Sohrab Mirsaeidi; Xinzhou Dong; Shenxing Shi; Dimitrios Tzelepis, Challenges, advances and future directions in protection of hybrid AC/DC microgrids, IET Renewable Power Generation, 11(12)(2017), 1495-1502;
35) Mirsaeidi, Sohrab and Dong, Xinzhou and Shi, Shenxing and Wang, Bin, AC and DC Microgrids: A Review on Protection Issues and Approaches, Journal of Electrical Engineering & Technology, 12(6)(2017), 2089-2098;
36) Tzelepis, D; Dysko, A; Fusiek, G; Niewczas, P; Mirsaeidi, S; Booth, C; Dong, X, Advanced fault location in MTDC networks utilising optically-multiplexed current measurements and machine learning approach, International Journal of Electrical Power and Energy Systems, 97(2018), 319-333;
37) Lei, Aoyu; Dong, Xinzhou; Shi, Shenxing; Wang, Bin; Terzija, Vladimir, Equivalent traveling waves based current differential protection of EHV/UHV transmission lines, International Journal of Electrical Power and Energy Systems, 97(2018), 282-289;
38) Xuankun Song; Teng Feng; Liu Han; Travis M.Smith; Xinzhou Dong; Wenxuan Liu; Rui Zhang, Analysis on the fault characteristics of three-phase short-circuit for half-wavelength AC transmission lines, Global Energy Interconnection, 1(2)(2018), 115-121;
39) Bin Wang; Jianzhao Geng; Xinzhou Dong, High-Impedance Fault Detection Based on Nonlinear Voltage-Current Characteristic Profile Identification, IEEE Transactions on Smart Grid, 9(4)(2017), 3783-3791;
40) Hao, Wang; Mirsaeidi, Sohrab; Kang, Xiaoning; Dong, Xinzhou; Tzelepis, Dimitrios, A novel traveling-wave-based protection scheme for LCC-HVDC systems using Teager Energy Operator, International Journal of Electrical Power and Energy Systems, 99(2018), 474-480;
41) Tang, Lanxi; Dong, Xinzhou, A travelling wave differential protection scheme for half-wavelength transmission line, International Journal of Electrical Power and Energy Systems, 99(2018), 376-384;
42) Mirsaeidi, Sohrab; Dong, Xinzhou; Said, Dalila Mat, Towards hybrid AC/DC microgrids: Critical analysis and classification of protection strategies, Renewable and Sustainable Energy Reviews, 90(2018), 97-103;
43) Wu, Yahui; Dong, Xinzhou; Mirsaeidi, Sohrab, Design and simulation of a new model for air-gapped current transformers, IEEJ Transactions on Electrical and Electronic Engineering, 13(8)(2018), 1127-1135;
44) Dimitrios Tzelepis; Adam Dyśko; Steven M. Blair; Anastasios Oulis Rousis; Sohrab Mirsaeidi; Campbell Booth; Xinzhou Dong, Centralised busbar differential and wavelet-based line protection system for multi-terminal direct current grids, with practical IEC-61869-compliant measurements, IET Generation, Transmission & Distribution, 12(14)(2018), 3578-3586;
45) Dimitrios Tzelepis; Grzegorz Fusiek; Adam Dyśko; Pawel Niewczas; Campbell Booth; Xinzhou Dong, Novel Fault Location in MTDC Grids With Non-Homogeneous Transmission Lines Utilizing Distributed Current Sensing Technology, IEEE Transactions on Smart Grid, 9(4)(2018), 5432-5443;
46) Tang, Lanxi; Dong, Xinzhou; Shi, Shenxing; Wang, Bin, Analysis of the characteristics of fault-induced travelling waves in MMC-HVDC grid, The Journal of Engineering, 2018(15)(2018), 1349-1353;
47) Tzelepis, Dimitrios; Dyśko, Adam; Booth, Campbell; Mirsaeidi, Sohrab; Dong, Xinzhou, Design of DC-line terminating inductors for enhancement of protective functions in MTDC grids, The Journal of Engineering (DPSP 2018), 2018(15)(2018), 1072-1077;
48) Wang, Bin; Yang, Lin; Dong, Xinzhou, Fault location method for high-voltage direct current transmission line using incident current travelling waves, The Journal of Engineering, 2018(15)(2018), 1165 – 1168;
49) Lei, Aoyu; Dong, Xinzhou; Shi, Shenxing; Wang, Bin, Impedance-based pilot protection for ultra-high-voltage/extra-high-voltage transmission lines, The Journal of Engineering, 2018(15)(2018), 904-907;
50) Shi, Shenxing; Lei, Aoyu; He, Xin; Mirsaeidi, Sohrab; Dong, Xinzhou, Travelling waves-based fault location scheme for feeders in power distribution network, The Journal of Engineering, 2018(15)(2018), 1326-1329;
51) Aoyu Lei; Xinzhou Dong; Vladimir Terzija, An Ultra-High-Speed Directional Relay Based on Correlation of Incremental Quantities, IEEE Transactions on Power Delivery, 33(6)(2018), 2726-2735;
52) Dong, X., Lei, A., Tang, L.Comparative study of traveling wave differential protection and current differential protection for power lines, Power System Protection and Control, 46 (1)(2018), 1-8;
53) Tang, L., Dong, X., Wang, B., Shi, S., Study on the current differential protection for half-wave-length AC transmission lines, IEEE Power and Energy Society General Meeting, 2018-January, 1-5;
54) Wang, B., Wei, X., Zhang, G., Wen, B., Feng, Y., Dong, X., Fault Arc Modeling and Analysis in Circuit Breaker in HVDC Converter Station Filter Branch, Proceedings of the Chinese Society of Electrical Engineering, 38 (5)(2018), 1496-1503;
55) Shi, S., Hu, Z., Ma, Z., Dong, X., Travelling waves-based identification of subhealth condition of feeders in power distribution system, IET Generation, Transmission and Distribution, 12 (5)(2018), 1067-1073;
56) Wang, B., Wei, X., Zhang, G., Feng, Y., Wen, B., Dong, X., High-frequency Arc Fault Detection in Circuit Breaker in Substation AC Filter Branch, Proceedings of the Chinese Society of Electrical Engineering, 38 (6)(2018), 1837-1845;
57) Song, X., Feng, T., Han, L., Smith, T.M., Dong, X., Liu, W., Zhang, R., Analysis on the fault characteristics of three-phase short-circuit for half-wavelength AC transmission lines, Global Energy Interconnection, 1 (2)(2018), 115-121;
58) Tzelepis, D., Dyśko, A., Fusiek, G., Niewczas, P., Mirsaeidi, S., Booth, C., Dong, X., Advanced fault location in MTDC networks utilising optically-multiplexed current measurements and machine learning approach, International Journal of Electrical Power and Energy Systems, 97(2018), 319-333;
59) Lei, A., Dong, X., Shi, S., Wang, B., Terzija, V., Equivalent traveling waves based current differential protection of EHV/UHV transmission lines, International Journal of Electrical Power and Energy Systems, 97(2018), 282-289;
60) Yang, L., Wang, B., Dong, X., Overview of Fault Location Methods in High Voltage Direct Current Transmission Lines, Automation of Electric Power Systems, 42 (8)(2018),185-191;
61) Feng, T., Dong, X., Method for Dealing With Sag in Electromagnetic Transient Simulation of Overhead Line, Proceedings of the Chinese Society of Electrical Engineering, 38 (9)(2018), 2634-2640;
62) Dong, X., Tang, L., Shi, S., Qiu, Y., Kong, M., Pang, H., Configuration Scheme of Transmission Line Protection for Flexible HVDC Grid, Power System Technology, 42 (6)(2018), 1752-1759;
63) Guan, E., Dong, X., Study on the SHE modulation of a 5 MW offshore wind three-level converter prototype, Proceedings of the 13th IEEE Conference on Industrial Electronics and Applications, ICIEA 2018, 571-576;
64) Wang, B., Geng, J., Dong, X., High-Impedance Fault Detection Based on Nonlinear Voltage-Current Characteristic Profile Identification, IEEE Transactions on Smart Grid, 9 (4)(2018),3783-3791;
65) Mirsaeidi, S., Dong, X., Said, D.M., Towards hybrid AC/DC microgrids: Critical analysis and classification of protection strategies, Renewable and Sustainable Energy Reviews, 90, 2018, 97-103;
66) Tang, L., Dong, X., A travelling wave differential protection scheme for half-wavelength transmission line, International Journal of Electrical Power and Energy Systems, 99,2018, 376-384;
67) Hao, W., Mirsaeidi, S., Kang, X., Dong, X., Tzelepis, D., A novel traveling-wave-based protection scheme for LCC-HVDC systems using Teager Energy Operator, International Journal of Electrical Power and Energy Systems, 99,2018, 474-480;
68) Wu, Y., Dong, X., Mirsaeidi, S., Design and simulation of a new model for air-gapped current transformers, IEEJ Transactions on Electrical and Electronic Engineering, 13 (8)(2018),1127-1135;
69) Tzelepis, D., Dysko, A., Blair, S.M., Rousis, A.O., Mirsaeidi, S., Booth, C., Dong, X., Centralised busbar differential and waveletbased line protection system for multiterminal direct current grids, with practical IEC-61869-compliant measurements, IET Generation, Transmission and Distribution, 12 (14)(2018), 3578-3586;
70) Feng, T., Dong, X., Performance test method of two-terminal traveling wave fault locator,Electric Power Automation Equipment, 38 (9)(2018),114-120 and 128;
71) Tang, L., Dong, X., Shi, S., Kong, M., Qiu, Y., Principle and Implementation of Ultra-High-Speed Travelling Wave Based Protection for Transmission Line of Flexible HVDC Grid, Power System Technology, 42 (10)(2018), 3176-3186;
72) Dong, X., Lei, A., Tang, L., Wang, B., Shi, S., Analysis of Traveling Wave Characteristics and Challenges and Prospects of Traveling Wave Differential Protection Technology, Automation of Electric Power Systems, 42(19)(2018),184-191;
73) Sohrab Mirsaeidi; Xinzhou Dong; Dimitrios Tzelepis; Dalila Mat Said; Adam Dysko; Campbell Booth, A Predictive Control Strategy for Mitigation of Commutation Failure in LCC-Based HVDC Systems, IEEE Transactions on Power Electronics, 34(1)(2019), 160-172;
74) Tang, Lanxi; Dong, Xinzhou; Shi, Shenxing; Qiu, Yufeng, A high-speed protection scheme for the DC transmission line of a MMC-HVDC grid, Electric Power Systems Research, 168 (2019), 81-91;
75) Qi Jia; Xinzhou Dong; Sohrab Mirsaeidi, A traveling-wave-based line protection strategy against single-line-to-ground faults in active distribution networks, International Journal of Electrical Power and Energy Systems, 107 (2019), 403-411;
76) Shenxing Shi; Beier Zhu; Aoyu Lei; Xinzhou Dong, Fault Location for Radial Distribution Network via Topology and Reclosure-Generating Traveling Waves, IEEE Transactions on Smart Grid, 10(6)(2019), 6404-6413;
77) Sohrab Mirsaeidi; Xinzhou Dong; Dalila Mat Said, A Fault Current Limiting Approach for Commutation Failure Prevention in LCC-HVDC Transmission Systems, IEEE Transactions on Power Delivery, 34(5)(2019), 2018-2027;
78) Sohrab Mirsaeidi; Xinzhou Dong, An Integrated Control and Protection Scheme to Inhibit Blackouts Caused by Cascading Fault in Large-Scale Hybrid AC/DC Power Grids, IEEE Transactions on Power Electronics, 34(8)(2019), 7278-7291;
79) Chen Lv; Wanxing Sheng,; Ke-yan Liu; Xinzhou Dong; Pan Deng, Multi-status modelling and event simulation in smart distribution network based on finite state machine, IET Generation Transmission & Distribution, 13(13)(2019), 2846-2855;
80) Shenxing Shi; Beier Zhu; Sohrab Mirsaeidi; Xinzhou Dong, Fault Classification for Transmission Lines Based on Group Sparse Representation, IEEE Transactions on Smart Grid, 10(14)(2019), 4673-4682;
81) Beier Zhu; Haozong Wang; Shenxing Shi; Xinzhou Dong, Fault location in AC transmission lines with back-to-back MMC-HVDC using ConvNets, Journal of Engineering-Joe, (16)(2019), 2430-2431;
82) Aoyu Lei; Xinzhou Dong, Decomposition of Post-Fault Transients on Power Lines and Analytical Solution of Its Stationary Component, JOURNAL OF ELECTRICAL ENGINEERING & TECHNOLOGY , 14(1)(2019), 7-46;
83) Tang, L., Dong, X. An Approximate Method for the Calculation of Transmission Line Fault Current in MMC-HVDC Grid, Proceedings of the Chinese Society of Electrical Engineering. 39 (2)(2019), 490-498;
84) Lei, A., Dong, X., Decomposition of Post-Fault Transients on Power Lines and Analytical Solution of Its Stationary Component, Journal of Electrical Engineering and Technology, 14 (1)(2019),37-46;
85) Tang, L., Dong, X., Shi, S., Qiu, Y., A high-speed protection scheme for the DC transmission line of a MMC-HVDC grid, Electric Power Systems Research, 168,2019, 81-91;
86) Jia, Q., Dong, X., Shi, S., Practical Traveling Waves Based Single-phase-to-ground Protection for Radial Connected Distribution Lines, Proceedings of the Chinese Society of Electrical Engineering, 39 (6)(2019),1543-1550;
87) Jia, Q., Dong, X., Mirsaeidi, S., A traveling-wave-based line protection strategy against single-line-to-ground faults in active distribution networks, International Journal of Electrical Power and Energy Systems, 107, 2019, 403-411;
88) Dong, X., Tang, Y., Bu, G., Shen, C., Song, G., Wang, Z., Gan, D., Hou, J., Wang, B., Zhao, B., Shi, S., Confronting Problem and Challenge of Large Scale AC-DC Hybrid Power Grid Operation, Proceedings of the Chinese Society of Electrical Engineering, 39 (11)(2019),3107-3118;
89) Zhang, C., Song, G., Dong, X., Yang, L., Principle of High Speed Protection for DC Transmission Line Using Wave Front Generalized Logistic Function Fitting, Proceedings of the Chinese Society of Electrical Engineering, 39 (11)(2019), 3168-3175;
90) Guan, E., Dong, X., Wang, H., Study of Combined Fault Current Limiting Equipment and Operation Strategy for DC Grid, Proceedings of the Chinese Society of Electrical Engineering, 39 (11)(2019), 3222-3230;
91) Cai, J., Dong, X., Overview on Research of Fault Clearing and Recovery Strategy for HVDC Transmission Lines, Automation of Electric Power Systems, 43 (11)(2019),181-190;
92) Lei, A., Dong, X., Wide-frequency and Short-time Window Based Traveling Wave Differential Protection Method for EHV/UHV Transmission Lines, Proceedings of the Chinese Society of Electrical Engineering, 39 (23)(2019), 6826-6835;
93) Lei, Aoyu; Dong, Xinzhou., Decomposition of Post-Fault Transients on Power Lines and Analytical Solution of Its Stationary Component, JOURNAL OF ELECTRICAL ENGINEERING & TECHNOLOGY, 14(1)(2019),37-46;
94) Zhu, Beier; Wang, Haozong; Shi, Shenxing; Dong, Xinzhou., Fault location in AC transmission lines with back-to-back MMC-HVDC using ConvNets, JOURNAL OF ENGINEERING-JOE, 16(2019);
95) Jia, Qi; Dong, Xinzhou; Mirsaeidi, Sohrab., A traveling-wave-based line protection strategy against single-line-to-ground faults in active distribution networks, INTERNATIONAL JOURNAL OF ELECTRICAL POWER & ENERGY SYSTEMS, 107(2019),403-411;
96) Shi, Shenxing; Zhu, Beier; Mirsaeidi, Sohrab; Dong, Xinzhou., Fault Classification for Transmission Lines Based on Group Sparse Representation, IEEE TRANSACTIONS ON SMART GRID, 10(4)(2019),4673-4682;
97) Mirsaeidi, Sohrab; Dong, Xinzhou, An Integrated Control and Protection Scheme to Inhibit Blackouts Caused by Cascading Fault in Large-Scale Hybrid AC/DC Power Grids , IEEE TRANSACTIONS ON POWER ELECTRONICS, 34(8)(2019),7278-7291;
98) Mirsaeidi, Sohrab; Dong, Xinzhou; Said, Dalila Mat, A Fault Current Limiting Approach for Commutation Failure Prevention in LCC-HVDC Transmission Systems, IEEE TRANSACTIONS ON POWER DELIVERY, 34(5)(2019),2018-2027;
99) Chenhao Zhang., Guobing Song., Xinzhou Dong, A Novel Traveling Wave Protection Method for DC Transmission Lines Using Current Fitting, IEEE Transactions on Power Delivery (Early Access), 20191217, 1-11;
100) Chenhao Zhang., Guobing Song., Ting Wang., Xinzhou Dong, An Improved Non-unit Traveling Wave Protection Method with Adaptive Threshold Value and its Application in HVDC Grids, IEEE Transactions on Power Delivery (Early Access), 20191120, 1-12;
101) Lv, C., Sheng, W., Liu, K.-Y., Dong, X., Deng, P., Multi-status modelling and event simulation in smart distribution network based on finite state machine, IET Generation, Transmission and Distribution, 13 (13)(2019), 2846-2855;
102) Zhang, G., Li, Z., Wang, B., Liu, M., Dong, X., Early warning method of HVDC line continuous commutation failure based on Adaboost algorithm,Power System Protection and Control, 47 (19)(2019), 69-77;
103) Wang, B., Cui, X., Dong, X., Overview of Arc High Impedance Grounding Fault Detection Technologies in Distribution System, Proceedings of the Chinese Society of Electrical Engineering, 40 (1)(2020),96-107;
104) Zhang, G., Jing, L., Wang, B., Liu, M., Dong, X., Study on HVDC consecutive commutation failures mitigation method caused by harmonics, Power System Protection and Control, 48 (5)(2020), 33-41;
105) Zhang, C., Song, G., Dong, X., A Non-unit Adaptive Traveling Wave Protection Method for High Impedance Faults, Proceedings of the Chinese Society of Electrical Engineering, 40 (11)(2020),3548-3556;
106) Zhang, C., Song, G., Yang, L., Dong, X., Non-unit travelling wave protection method for dc transmission line using waveform correlation calculation, IET Generation, Transmission and Distribution, 14 (12)(2020),2263-2270;
107) Song, G., Wang, T., Zhang, B., Dong, X., Kang, X., Analysis and Prospect of Detective Fault Identification Technologies Using Power Electronic Device, Automation of Electric Power Systems, 44 (20)(2020),173-183;
108) Tzelepis, Dimitrios; Psaras, Vasileios; Tsotsopoulou, Eleni; Mirsaeidi, Sohrab; Dysko, Adam; Hong, Qiteng; Dong, Xinzhou; Blair, Steven M.; Nikolaidis, Vassilis C.; Papaspiliotopoulos, Vassilis; Fusiek, Grzegorz; Burt, Graeme M.; Niewczas, Pawel; D. Booth, Campbell Voltage and Current Measuring Technologies for High Voltage Direct Current Supergrids: A Technology Review Identifying the Options for Protection, Fault Location and Automation Applications, IEEE ACCESS, (8)(2020),203398-203498;
109) Mirsaeidi, Sohrab; He, Jinghan; Dong, Xinzhou; Said, Dalila Mat, A Fault Current Limiting Approach for Commutation Failure Prevention in LCC-HVDC Transmission Systems , IEEE Transactions on Power Delivery, 8674590, 34 (5) (2019), 2018-2027;
110) Zhang, Chenhao; Song, Guobing; Yang, Liming; Dong, Xinzhou, Non-unit travelling wave protection method for dc transmission line using waveform correlation calculation, IET GENERATION TRANSMISSION & DISTRIBUTION, 14(12)(2020),2263-2270;
111) Zhang, Chenhao; Song, Guobing; Wang, Ting; Dong, Xinzhou, An Improved Non-Unit Traveling Wave Protection Method With Adaptive Threshold Value and Its Application in HVDC Grids, IEEE TRANSACTIONS ON POWER DELIVERY, 35(4)(2020),1800-1811;
112) Lin, Sheng; Mu, Dalin; Liu, Lei; Lei, Yuqing; Dong, Xinzhou, A Novel Fault Diagnosis Method for DC Filter in HVDC Systems Based on Parameter Identification, IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT, 69(9)(2020),5969-5971;
113) Zhang, Chenhao; Song, Guobing; Yin, Lishuai; Xu, Ruidong; Li, Yang; Yang, Liming; Dong, Xinzhou, Application research on pilot protection method for multi-terminal hybrid line-commutated converter/modular multilever converter-based high voltage DC system, IET GENERATION TRANSMISSION & DISTRIBUTION, 15(1)(2021),71-85;
114) Zhang, Chenhao; Song, Guobing; Dong, Xinzhou, A Novel Traveling Wave Protection Method for DC Transmission Lines Using Current Fitting, IEEE TRANSACTIONS ON POWER DELIVERY, 35(6)(2020),2980-2991;
115) Mirsaeidi, Sohrab; Dong, Xinzhou, An Enhanced Strategy to Inhibit Commutation Failure in Line-Commutated Converters, IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS, 67(1)(2020),340-349;
116) Salehi, Moslem; Birjandi, Ali Akbar Motie; Dong, Xinzhou, Determining minimum number and placement of fault detectors in transmission network for fault location observability, INTERNATIONAL JOURNAL OF ELECTRICAL POWER & ENERGY SYSTEMS,124,2021,106386;
117) Dong, Xinzhou; Jin, Beihong; Zhuo, Wei; Li, Beibei; Xue, Taofeng, Improving Sequential Recommendation with Attribute-Augmented Graph Neural Networks, ADVANCES IN KNOWLEDGE DISCOVERY AND DATA MINING, PAKDD 2021, PT II 2021,12713,373-385;
118) Zhuo, Wei; Liu, Kunchi; Xue, Taofeng; Jin, Beihong; Li, Beibei; Dong, Xinzhou; Chen, He; Pan, Wenhai; Zhang, Xuejian; Zhou, Shuo , A Behavior-Aware Graph Convolution Network Model for Video Recommendation, WEB AND BIG DATA, APWEB-WAIM 2021, PT II 2021,12859,279-294;
119) Zhang, Chenhao; Song, Guobing; Yin, Lishuai; Xu, Ruidong; Li, Yang; Yang, Liming; Dong, Xinzhou, Application research on pilot protection method for multi-terminal hybrid line-commutated converter/modular multilever converter-based high voltage DC system, IET GENERATION TRANSMISSION & DISTRIBUTION, 15(1)(2021),71-85;
120) Mirsaeidi, Sohrab; Tzelepis, Dimitrios; He, Jinghan; Dong, Xinzhou; Said, Dalila Mat; Booth, Campbell, A Controllable Thyristor-Based Commutation Failure Inhibitor for LCC-HVDC Transmission Systems, IEEE TRANSACTIONS ON POWER ELECTRONICS, 36(4)(2021),3781-3792;
121) Zhang, Chenhao; Song, Guobing; Dong, Xinzhou, Non-Unit Ultra-High-Speed DC Line Protection Method for HVDC Grids Using First Peak Time of Voltage, IEEE TRANSACTIONS ON POWER DELIVERY, 36(3)(2021),1683-1693;
122) Zhang, Chenhao; Huang, Jinhai; Song, Guobing; Dong, Xinzhou , Non-Unit Ultra-High-Speed Line Protection for Multi-Terminal Hybrid LCC/MMC HVDC System and Its Application Research, IEEE TRANSACTIONS ON POWER DELIVERY, 36(5)(2021),2825-2838;
123) Wang, Hao; Dai, Yuanyuan; Fu, Luchuan; Liu, Feng; Hu, Jianli; Dong, Xinzhou; Kang, Xiaoning; Li, Wenzhong, Power swing detecting method using principal components analysis, ENERGY REPORTS,7(2021),1009-1014;
124) Wang, Haozong; Qi, Zhenkang; Fu, Luchuan; Liu, Feng; Hu, Jianli; Dong, Xinzhou; Li, Wenzhong, Fast and reliable differential protection based on traveling waves for HVDC transmission line, ENERGY REPORTS,7(2021),619-628;
125) Zhang, C., Song, G., Yin, L., Xu, R., Li, Y., Yang, L., Dong, X. Application research on pilot protection method for multi-terminal hybrid line-commutated converter/modular multilever converter-based high voltage DC system, IET Generation, Transmission and Distribution, 15 (1)(2021),71-85;
126) Wang, B., Li, Z., Dong, X., Real-time Rapid Simulation Method for Transient Response of LCC-HVDC Based on Dynamic Phasor Method, Proceedings of the Chinese Society of Electrical Engineering, 41 (5)(2021), 1608-1617;
127) Zhang, C., Song, G., Dong, X., Principle of Non-unit Traveling Wave Protection for VSC-HVDC Transmission Line Using Fault Current Initial Traveling Wave Fitting, Proceedings of the Chinese Society of Electrical Engineering, 41 (8)(2021),2651-2660;
128) Zhang, C., Song, G., Dong, X., Huang, J., Application Research on Fast Line Protection and Adaptive Restarting Methods for Multi-terminal Hybrid LCC/MMC HVDC Transmission Lines, Proceedings of the Chinese Society of Electrical Engineering, 41(11)(2021),3873-3884;
129) Zhang, C., Huang, J., Song, G., Dong, X., Non-Unit Ultra-High-Speed Line Protection for Multi-Terminal Hybrid LCC/MMC HVDC System and Its Application Research, IEEE Transactions on Power Delivery, 36 (5)(2021),2825-2838;
130) Wang, H., Qi, Z., Fu, L., Liu, F., Hu, J., Dong, X., Li, W., Fast and reliable differential protection based on traveling waves for HVDC transmission line, Energy Reports, 7(2021), 619-628;
131) Wang, H., Dai, Y., Fu, L., Liu, F., Hu, J., Dong, X., Kang, X., Li, W., Power swing detecting method using principal components analysis, Energy Reports, 7(2021),1009-1014;
132) Zhang, C., Song, G., Li, Y., Yan, J., Dong, X., Principle of Non-unit Traveling Wave Protection for VSC-HVDC Grids Based on Index of Fault Voltage Traveling Wave Propagation Term, Proceedings of the Chinese Society of Electrical Engineering, 41(24)(2021), 8424-8436;
133) Dong, X., Huang, Y., Wang, H., Chen, B., Wang, H., Dong, Q., Analysis and Simulation Research of Cascading Faults in AC/DC Hybrid Grid, IEEE Open Access Journal of Power and Energy, 9,514-522;
134) Zhang, C., Song, G., Meliopoulos, A.P.S., Dong, X., Setting-Less Nonunit Protection Method for DC Line Faults in VSC-MTdc Systems, IEEE Transactions on Industrial Electronics, 69 (1)(2022),495-505;
135) Wang, H., Dong, X., Traveling Wave Based Differential Protection for Renewable Energy Penetrated Power System, Journal of Electrical Engineering and Technology, 17 (3)(2022),1623-1630;
136) Yan, Q., Dong, X., Mu, J., Ma, Y., Optimal configuration of energy storage in an active distribution network based on improved multi-objective particle swarm optimization, Power System Protection and Control, 50 (10)(2022),11-19;
137) Zhang, C., Li, Y., Song, G., Dong, X., Fast and Sensitive Nonunit Protection Method for HVDC Grids Using Levenberg-Marquardt Algorithm, IEEE Transactions on Industrial Electronics, 69 (9)(2022),9064-9074;
138) Yan, Q., Liu, Y., Dong, X., Ma, Y., Hybrid energy storage capacity optimization configuration for smoothing PV output based on CEEMDAN-HT, Power System Protection and Control, 50 (21)(2022),43-53;
139) Zhang, Chenhao; Song, Guobing; Meliopoulos, A. P. Sakis; Dong, Xinzhou,, Setting-Less Nonunit Protection Method for DC Line Faults in VSC-MTdc Systems, IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS, 69(1)(2022),495-505;
140) Dong, Xinzhou; Huang, Yunshu; Wang, Haozong; Chen, Binshu; Wang, Hao; Dong, Qihuan, Analysis and Simulation Research of Cascading Faults in AC/DC Hybrid Grid, IEEE OPEN ACCESS JOURNAL OF POWER AND ENERGY, 9(2022),514-522;
141) Wang, Haozong; Dong, Xinzhou, Traveling Wave Based Differential Protection for Renewable Energy Penetrated Power System, JOURNAL OF ELECTRICAL ENGINEERING & TECHNOLOGY, 17(3)(2022),1623-1630;
142) Dong, Xinzhou; Jin, Beihong; Zhuo, Wei; Li, Beibei; Xue, Taofeng; Song, Jiageng, Modeling user interactions by feature-augmented graph neural networks for recommendation, CCF TRANSACTIONS ON PERVASIVE COMPUTING AND INTERACTION, 4(3)(2022),207-218;
143) Mirsaeidi, Sohrab; Rahman, Mahmuda; He, Jinghan; Lu, Geye; Said, Dalila Mat; Konstantinou, Charalambos; Li, Meng; Muttaqi, Kashem M.; Dong, Xinzhou, Comparison of different power flow techniques for power grid vulnerability assessment against symmetrical faults using bus impedance matrix, ELECTRIC POWER SYSTEMS RESEARCH, 212(2022),108652.
3.國際會議論文
1) Feng, T., Dong, X., Xu, F., Li, B., Research on performance test of travelling wave fault locators, Proceedings - International Conference on Modern Electric Power Systems, MEPS 2015, Paper number: 7477181;
2) Wang, Y., Dong, X., Shi, S., Wang, J., Geng, J., Field tests of the traveling wave based protection for ungrounded distribution network, Proceedings - International Conference on Modern Electric Power Systems, MEPS 2015, Paper number: 7477173;
3) Lei, A., Dong, X., Shi, S., Wang, B., Research of Wave-head characteristics of the fault generated travelling Wave on transmission line in different frequency bands, Proceedings - International Conference on Modern Electric Power Systems, MEPS 2015, Paper number: 7477155;
4) Xu, F., Dong, X., Wang, B., Shi, S., A novel single-ended fault location scheme and applications considering secondary circuit transfer characteristics, IEEE Power and Energy Society General Meeting, 2015-September, Paper number: 7285906;
5) Lei, A., Dong, X., Shi, S., A novel method to identify the travelling wave reflected from the fault point or the remote-end bus, IEEE Power and Energy Society General Meeting, 2015-September, Paper number: 7285725;
6) Jiang, B., Dong, X., Shi, S., Wang, B., Fault line identification of Single Line to Ground fault for non-effectively grounded distribution networks with double-circuit lines, IEEE Power and Energy Society General Meeting, 2015-September, Paper number: 7286346;
7) Dong, X., Luo, S., Shi, S., Wang, B., Wang, S., Ren, L., Travelling wave based directional comparison protection scheme and its application in 750 kV transmission lines, IEEE Power and Energy Society General Meeting, 2015-September, Paper number: 7286374;
8) Shang, Y., Shi, S., Dong, X., Ma, Z., Perfromance analysis of islanding detection based on asymmetric tripping of feeder circuit breaker under fault scenarios, Proceedings - 2015 International Symposium on Smart Electric Distribution Systems and Technologies, EDST 2015, Paper number: 7315202, 173-176;
9) Hu, Z., Shi, S., Dong, X., Ma, Z., The research on distribution network health index based on real-time information record, Proceedings - 2015 International Symposium on Smart Electric Distribution Systems and Technologies, EDST 2015, Paper number: 7315214, 241-244;
10) Luo, S., Dong, X., Shi, S., Wang, B., A non-unit protection principle based on travelling wave for HVDC transmission lines, Proceedings of the Universities Power Engineering Conference, 2015-November, Paper number: 7339909;
11) Lei, A., Dong, X., Shi, S., Wang, B., A novel current travelling wave based single-ended fault location method for locating single-phase-to-ground fault of transmission line, Proceedings of the Universities Power Engineering Conference, 2015-November, Paper number: 7339950;
12) Lei, A.-Y., Dong, X.-Z., Shi, S., Wang, B., Approximate analytical solution of stationary component of fault-induced traveling waves on transmission line, IET Conference Publications, 2016 (CP671);
13) Tang, L., Dong, X., Shi, S., Wang, B., Travelling wave differential protection based on equivalent travelling wave, IET Conference Publications, 2016 (CP671);
14) Feng, T., Dong, X., Shi, S., Wang, B., Analysis of the influence of the overhead line parameters on the fault traveling wave, IET Conference Publications, 2016 (CP671);
15) Ni, J., Wang, B., Dong, X., High impedance fault detection on distribution systems with harmonic interference in wind farms, IET Conference Publications, 2016 (CP671);
16) Chen, X., Bo, Z., Dong, X., Shi, S., Analysis of ant colony algorithm for finding the optimal circuitous route in the communication network of power system, Proceedings of the 5th IEEE International Conference on Electric Utility Deregulation, Restructuring and Power Technologies, DRPT 2015, Paper number: 7432665, 2532-2535;
17) Dong, X., Luo, S., Shi, S., Wang, B., Wang, S., Realization and performance analysis of travelling wave based directional protection prototype, Proceedings of the 5th IEEE International Conference on Electric Utility Deregulation, Restructuring and Power Technologies, DRPT 2015, Paper number: 7432424, 1236-1239;
18) Zhao, W., Shi, S., Wang, Z., Dong, X., AC transmission line fault current analysis in 220kV AC/DC hybrid system, Proceedings of the 5th IEEE International Conference on Electric Utility Deregulation, Restructuring and Power Technologies, DRPT 2015, Paper number: 7432397, 1105-1109;
19) Ding, F., Bo, Z., Zhang, D., Chen, X., Dong, X., Shi, S., ZigBee wireless networking for the Intelligent Protection Center research, Proceedings of the 5th IEEE International Conference on Electric Utility Deregulation, Restructuring and Power Technologies, DRPT 2015, Paper number: 7432668, 2545-2548;
20) Feng, T., Dong, X., Wang, B., Shi, S., Luo, S., Lei, A., Tang, L., Analysis of fault characteristics of half-wavelength AC transmission lines, IEEE Power and Energy Society General Meeting, 2016-November, Paper number: 77416;
21) He, S., Lu, L., Li, J., Dong, X., Shi, S., Bin, W., Research on the system protection for enhancing the accommodation and transmission of large scale Wind Power, Asia-Pacific Power and Energy Engineering Conference, APPEEC, 2016-December, Paper number: 7779907, 2363-2368;
22) Mirsaeidi, S., Dong, X., Tzelepis, D., Said, D.M., Dysko, A., Booth, C., A Predictive Control Strategy for Mitigation of Commutation Failure in LCC-Based HVDC Systems, IEEE Transactions on Power Electronics, 34 (1), Paper number: 8327514, 160-172;
23) Tzelepis, D., Fusiek, G., Dysko, A., Niewczas, P., Booth, C., Dong, X., Novel Fault Location in MTDC Grids with Non-Homogeneous Transmission Lines Utilizing Distributed Current Sensing Technology, IEEE Transactions on Smart Grid, Paper number: 8070328, 9 (5)2018, 5432-5443;
24) Lei, A., Dong, X., Terzija, V., An ultra-high-speed directional relay based on correlation of incremental quantities, IEEE Transactions on Power Delivery, Paper number: 8318659, 33 (6)(2018), 2726-2735;
25) Tang, L., Dong, X., Wang, B., Shi, S., Dong, Q., Coombs, T., Protection Configuration and Scheme for the Transmission Line of VSC-HVDC Grid, IEEE Power and Energy Society General Meeting, 2018-August, Paper number: 8586071,123-5;
26) Jia, Q., Dong, X., Shi, S., He, X., Non-communication Protection for Single-Phase-to-Ground Fault Feeder in Neutral Non-Effectively Grounded Distribution System, IEEE Power and Energy Society General Meeting, 2018-August, Paper number: 8586136;
27) Zhang, G., Jing, L., Liu, M., Wang, B., Dong, X., A novel directional element for high voltage hybrid AC/DC power system, China International Conference on Electricity Distribution, CICED, Paper number: 8592312, 2018, 1137-1141;
28) Zhang, G., Jing, L., Liu, M., Wang, B., Dong, X., An improved continuous commutation failure mitigation method in high voltage direct current transmission system, China International Conference on Electricity Distribution, CICED, Paper number: 8592449,2018, 1132-1136;
29) Li, Z., Wang, B., Wang, H., Yu, B., Xie, M., Chen, S., Dong, X. CCF early warning method of LCC-HVDC based on XG boost algorithm. IET Conference Publications, 2019 (CP764);
30) Ren, X., Wang, B., Dong, X. High impedance fault analysis and location of single-phase-to-ground fault in feeder with multiple DGS connections(2019). IET Conference Publications, 2019 (CP764);
31) Cui, X., Wang, B., Dong, X. High resistance grounding fault feeder detection in a resonant grounding system based on transient current correlation coefficient comparison, IET Conference Publications, 2019 (CP764);
32) Jia, X., Wang, B., Yu, B., Xie, M., Dai, C., Cheng, X., Wang, D., Dong, X. Overview of adaptive reclosing technique and the challenge faced in AC/DC hybrid power grid, IET Conference Publications, 2019 (CP764);
33) Shi, S., Zhu, B., Mirsaeidi, S., Dong, X., Fault Classification for Transmission Lines Based on Group Sparse Representation, IEEE Transactions on Smart Grid, 10 (4), Paper number: 8445640, 2019, 4673-4682;
34) Mirsaeidi, S., Dong, X.An integrated control and protection scheme to inhibit blackouts caused by cascading fault in large-scale hybrid AC/DC power grids, IEEE Transactions on Power Electronics, Paper number: 8537972, 34 (8)(2019),7278-7291;
35) Jing, L., Wang, B., Dong, X., Wang, H., Yu, B., Xie, M., Chen, S., Review of consecutive commutation failure research for HVDC transmission system, Electric Power Automation Equipment, 39 (9)(2019), 116-123;
36) Xie, X., Shi, S., Dong, X., Zheng, S., Huang, T., A Method for Fault Pole Selection of DC Lines Based on Travelling Wave, APAP 2019 - 8th IEEE International Conference on Advanced Power System Automation and Protection, Paper number: 9224639, 2019, 606-610;
37) Cai, J., Dong, X., An Adaptive Restart Method for DC Transmission Line in LCC-HVDC System, APAP 2019 - 8th IEEE International Conference on Advanced Power System Automation and Protection, Paper number: 9224988, 2019, 725-729;
38) Mirsaeidi, S., He, J., Dong, X., Mechanism and Risk Areas of Cascading Faults: A Newly Emerging Fault Type in Large-Scale Hybrid AC/DC Power Grids, APAP 2019 - 8th IEEE International Conference on Advanced Power System Automation and Protection, Paper number: 9224814, 2019, 647-654;
39) Xie, M., Zhang, W., Liu, L., Jia, X., Wang, B., Dong, X., Analysis of Adaptive Re-closure in AC-DC Hybrid Power System, APAP 2019 - 8th IEEE International Conference on Advanced Power System Automation and Protection, Paper number: 9224656, 2019, 1151-1155;
40) Xin, Z., Dong, X., Xie, X., Multi-energy hybrid power generation system based on constant power control, APAP 2019 - 8th IEEE International Conference on Advanced Power System Automation and Protection, Paper number: 9225178, 2019,745-749;
41) Chen, B., Dong, X., Analysis of Application of Superconducting Fault Current Limiter to AC Line of HVDC, APAP 2019 - 8th IEEE International Conference on Advanced Power System Automation and Protection, Paper number: 9225139, 2019,1181-1185;
42) Yuan, J., Wei, H., Zou, G., Kang, J., Qian, Q., Shi, S., Dong, X., Research on Traveling Wave Based Fault Line Selection Technology in Distribution System of Petrochemical Industry, APAP 2019 - 8th IEEE International Conference on Advanced Power System Automation and Protection, Paper number: 9225158, 2019, 1833-1837;
43) Wang, H., Kang, X., Dong, X., A Novel Method of Power Swing Blocking in Impedance Relay, APAP 2019 - 8th IEEE International Conference on Advanced Power System Automation and Protection, Paper number: 9225159, 2019,427-431;
44) Wang, H., Dong, X., Commutation Failure Mitigation Method Based on Improved Commutation Area in HVDC system, APAP 2019 - 8th IEEE International Conference on Advanced Power System Automation and Protection, Paper number: 9225122,2019, 1241-1245;
45) Liu, K., Cui, X., Wang, B., Dong, X., Study on High Impedance Grounding Fault Protection for Personal Safety Guard in Distribution Grid, APAP 2019 - 8th IEEE International Conference on Advanced Power System Automation and Protection, Paper number: 9225113,2019, 437-441;
46) Uddin Khan, M.A., Hong, Q., Dysko, A., Booth, C., Wang, B., Dong, X., Evaluation of Fault Characteristic in Microgrids Dominated by Inverter-Based Distributed Generators with Different Control Strategies, APAP 2019 - 8th IEEE International Conference on Advanced Power System Automation and Protection, Paper number: 9224706, 2019, 846-849;
47) Xu, W., Shi, S., Dong, X., Zhang, G., Traveling waves based fault line selection using sparse representation, APAP 2019 - 8th IEEE International Conference on Advanced Power System Automation and Protection, Paper number: 9225104, 2019,1346-1350;
48) Cui, X., Wang, B., Dong, X., Liu, K., Experimental Research on Typical Single-Phase High Resistance Grounding Fault Detection Methods in Resonant Grounding Distribution System, APAP 2019 - 8th IEEE International Conference on Advanced Power System Automation and Protection, Paper number: 9224765, 2019, 432-436;
49) Mirsaeidi, S., Dong, X., Said, D.M., A Fault Current Limiting Approach for Commutation Failure Prevention in LCC-HVDC Transmission Systems, IEEE Transactions on Power Delivery, Paper number: 8674590, 34 (5)(2019),2018-2027;
50) Feng, T., Han, L., Ma, W., Dong, X., Xiao, Z., Yan, P., A Novel Method for Calculating Ground Return Impedance of Overhead Lines, 2019 3rd IEEE Conference on Energy Internet and Energy System Integration: Ubiquitous Energy Network Connecting Everything, EI2 2019, Paper number: 9062273, 2019,1003-1007;
51) Shi, S., Zhu, B., Lei, A., Dong, X., Fault location for radial distribution network via topology and reclosure-generating traveling waves, IEEE Transactions on Smart Grid, Paper number: 8664125,10(6)(2019),6404-6413;
52) Qian, Q., Shi, S., Zhang, G., Xu, D., Wu, Y., Xi, H., Dong, X., Direction travelling waves based single-phase-to ground fault line section identification, IET Conference Publications, 2020 (CP771), Paper number: 20200099;
53) Zhang, C., Song, G., Dong, X., High-speed protection method for DC transmission lines using fault current initial traveling wave, IET Conference Publications, 2020 (CP771), Paper number: 20200131;
54) Cai, J., Dong, X., Adaptive deblock for DC line fault in full bridge sub-module based MMC-HVDC system, IET Conference Publications, 2020 (CP771), Paper number: 20200094;
55) Zhao, Y., Shi, S., Zhang, G., Ma, H., Dong, X., Single-ended traveling wave based fault location for single-phase-to-ground in power distribution lines, IET Conference Publications, 2020 (CP771), Paper number: 20200080;
56) Wang, H., Kang, X., Dong, X., A strategy for avoiding overload of AC line after blocking dc line in AC/DC hybrid grid, IET Conference Publications, 2020 (CP771), Paper number: 20200079;
57) Wang, H., Shi, S., Dong, X., Symmetrical fault analysis at AC transmission line with back-to-back MMC-HVDC considering controller characteristics, IET Conference Publications, 2020 (CP771), Paper number: 20200084;
58) Xie, X., Shi, S., Xu, Y., Zhan, X., Xing, Z., Xing, Z., Dong, X., Fast fault detection and location of dc distribution grid based on ultra-high-speed travelling wave, IET Conference Publications, 2020 (CP771), Paper number: 20200083;
59) Wang, B., Dong, X., Yu, B., Xie, M., Wang, H., Circuit breaker arc fault detection based on fault recording data in HVDC converter station, IET Conference Publications, 2020 (CP771), Paper number: 20200096;
60) Tzelepis, D., Psaras, V., Tsotsopoulou, E., Mirsaeidi, S., Dyśko, A., Hong, Q., Dong, X., Blair, S.M., Nikolaidis, V.C., Papaspiliotopoulos, V., Fusiek, G., Burt, G.M., Niewczas, P., Booth, C.D., Voltage and current measuring technologies for high voltage direct current supergrids: A technology review identifying the options for protection, fault location and automation applications, IEEE Access, 8, Paper number: 9248058, 2020,203398-203428;
61) Mirsaeidi, S., Dong, X., An enhanced strategy to inhibit commutation failure in line-commutated converters, IEEE Transactions on Industrial Electronics, Paper number: 8637160, 67 (1)(2020), 340-349;
62) Dong, X., Guan, E., Jing, L., Wang, H., Mirsaeidi, S., Simulation and analysis of cascading faults in hybrid AC/DC power grids, International Journal of Electrical Power and Energy Systems, Paper number: 105492,115(2020);
63) Zhang, C., Song, G., Wang, T., Dong, X., An Improved Non-Unit Traveling Wave Protection Method with Adaptive Threshold Value and Its Application in HVDC Grids, IEEE Transactions on Power Delivery, Paper number: 8907453, 35 (4)(2020),1800-1811;
64) Dong, X., Wang, H., Xin, Z., Shi, S., Wang, B., Distribution system fault location method using reclosure-generating traveling waves, IEEE Power and Energy Society General Meeting, 2020-August, Paper number: 9281701;
65) Lin, S., Mu, D., Liu, L., Lei, Y., Dong, X., A Novel Fault Diagnosis Method for DC Filter in HVDC Systems Based on Parameter Identification, IEEE Transactions on Instrumentation and Measurement, Paper number: 9120068, 69 (9)(2020), 5969-5971;
66) Zhang, C., Song, G., Dong, X., A Novel Traveling Wave Protection Method for DC Transmission Lines Using Current Fitting, IEEE Transactions on Power Delivery, Paper number: 8935213, 35 (6)(2020), 2980-2991;
67) Salehi, M., Akbar Motie Birjandi, A., Dong, X. Determining minimum number and placement of fault detectors in transmission network for fault location observability, International Journal of Electrical Power and Energy Systems, 124, Paper number: 106386;
68) Zheng, S., Liu, Y., Hu, H., Yang, H., Dong, P., Shi, S., Dong, X., Traveling Wave Fault Location and Protection Tester for DC Lines, 2021 3rd Asia Energy and Electrical Engineering Symposium, AEEES 2021, Paper number: 9403206, 125-129;
69) Xin, Z., Wang, H., Dong, X., Ren, X., Inverse Time Zero Sequence Protection Based on Traveling Wave Startup Information, 2021 3rd Asia Energy and Electrical Engineering Symposium, AEEES 2021, Paper number: 9403052,772-775;
70) Mirsaeidi, S., Tzelepis, D., He, J., Dong, X., Said, D.M., Booth, C. A, Controllable Thyristor-Based Commutation Failure Inhibitor for LCC-HVDC Transmission Systems, IEEE Transactions on Power Electronics, Paper number: 9185007, 36(4)(2021),3781-3792;
71) Hu, H., Zhan, X., Liu, Z., Shi, S., Liu, H., Dong, X., Simplified Method for Fault Transient Analysis of Flexible DC Distribution Lines, 2021 IEEE 4th International Conference on Electronics Technology, ICET 2021, Paper number: 9451122, 484-488;
72) Hu, H., Shi, S., Zhan, X., Liu, Z., Liu, H., Dong, X., Feeder Fault Section Identification without DC Circuit Breaker Based on Injected Traveling Wave, 2021 IEEE 4th International Conference on Electronics Technology, ICET 2021, Paper number: 9450896,544-548;
73) Zhang, C., Song, G., Dong, X., Non-Unit Ultra-High-Speed DC Line Protection Method for HVDC Grids Using First Peak Time of Voltage, IEEE Transactions on Power Delivery, Paper number: 9153168,36(3)(2021),1683-1693;
74) Dai, Y., Zhang, M., Zhang, F., Chen, B., Wang, H., Li, W., Dong, X., Practical Scheme of Optical Voltage Transformer in High Voltage Substations, 2022 IEEE 5th International Conference on Electronics Technology, ICET 2022,443-447;
75) Liang, Y., Shi, S., Dong, X., Chen, J., Research on Application Setting Scheme of Distribution Line Non-communication Protection, 2022 International Conference on Power Energy Systems and Applications, ICoPESA 2022,655-660;
76) Wang, S., Shang, Y., Shi, Y., Ren, J., Zhang, W., Shi, S., Dong, X., Potential fault detection of power collection lines in large new energy stations, China International Conference on Electricity Distribution, CICED, 2022-September, 1657-1662;
77) Huyang, M., Dong, X., Deng, C., Chao, W., Huang, J., Lin, G., Research on Overcurrent Suppression Structure for Flexible DC Distribution Network, China International Conference on Electricity Distribution, CICED, 2022-September, 1668-1673;
78) Wang, B., He, X., Jiang, Y., Lv, X., Zhou, Z., Feng, C., Dong, X, Testing of Ethernet Function of Domestically-made FPGA Chip and Acquisition Board for the Application of Protective Relaying, Proceedings - 2021 International Conference on Power System Technology: Carbon Neutrality and New Type of Power System, POWERCON 2021, 510-516;
79) Liu, Z., Hu, H., Liang, Y., Wang, Y., Liu, C., Shi, S., Dong, X., Overview of modeling schemes for MMC converter in flexible DC distribution network, Proceedings - 2021 International Conference on Machine Learning and Intelligent Systems Engineering, MLISE 2021, 131-134;
80) Xin, Zeyu; Wang, Haozong; Dong, Xinzhou; Ren, Xuan, Inverse Time Zero Sequence Protection Based on Traveling Wave Startup Information , 2021 3RD ASIA ENERGY AND ELECTRICAL ENGINEERING SYMPOSIUM (AEEES 2021),9403052,772-775;
81) Zheng, Shaoming; Liu, Yimin; Hu, Haoyu; Yang, Huimin; Dong, Peng; Shi, Shenxing; Dong, Xinzhou, Traveling Wave Fault Location and Protection Tester for DC Lines, 2021 3RD ASIA ENERGY AND ELECTRICAL ENGINEERING SYMPOSIUM (AEEES 2021),9403206,125-129;
82) Xue, Taofeng; Dong, Xinzhou; Zhuo, Wei; Jin, Beihong; Chen, He; Pan, Wenhai; Li, Beibei; Zhang, Xuejian, Feedback-Guided Attributed Graph Embedding for Relevant Video Recommendation, MACHINE LEARNING AND KNOWLEDGE DISCOVERY IN DATABASES: APPLIED DATA SCIENCE TRACK, ECML PKDD 2020, PT IV,2021,12460,19-35;
83) Dong, Xinzhou; Wang, Haozong; Xin, Zeyu; Shi, Shenxing; Wang, Bin ; Distribution System Fault Location Method Using Reclosure-generating Traveling Waves, IEEE POWER & ENERGY SOCIETY GENERAL MEETING (PESGM), 2020,9281701;
84) Dong, Xinzhou; Guan, Eryong; Jing, Liuming; Wang, Hao; Mirsaeidi, Sohrab, Simulation and analysis of cascading faults in hybrid AC/DC power grids, INTERNATIONAL JOURNAL OF ELECTRICAL POWER & ENERGY SYSTEMS, 115(2020),105492.
4.國内期刊論文(按論文發表時間先後順序排列)
1) 董新洲、葛耀中,一種使用兩端電氣量的高壓輸電線路故障測距算法,電力系統自動化,19(8)(1995),47-53;
2) 董新洲、葛耀中、徐丙垠、陳平、李京,利用GPS的輸電線路行波故障測距研究,電力系統自動化,20(12)(1996),37-40;
3) 董新洲、葛耀中、徐丙垠、陳平,暫态信号發生器,繼電器 更名為 電力系統保護與控制,25(05)(1997),38-40,45;
4) 董新洲、耿中行、葛耀中、張伏生、徐丙垠,小波變換應用于電力系統故障信号分析初探,中國電機工程學報,17(6)(1997),421-424;
5) 董新洲、葛耀中、徐丙垠、陳平、李京,新型輸電線路故障測距裝置的研制,電網技術,22(01)(1998),17-21;
6) 阿德南、董新洲、賀家李,方向高頻保護的動作行為分析──第一部分: 複雜系統的複故障計算,電力系統及其自動化學報,10(03)(1998),53-59,63;
7) 董新洲、賀家李、葛耀中,小波變換在行波故障檢測中的應用,繼電器 更名為 電力系統保護與控制,26(5)(1998),3-6;
8) 董新洲、賀家李、葛耀中、徐丙垠,基于小波變換的行波故障選相研究 第2部分 仿真試驗結果,電力系統自動化,23(1)(1999),20-22;
9) 董新洲、賀家李、葛耀中、徐丙垠,基于小波變換的行波故障選相研究 第1部分 理論基礎,電力系統自動化,22(12)(1998),24-26,33;
10) 董新洲、葛耀中、徐丙垠,輸電線路暫态電流行波的故障特征及其小波分析,電工技術學報,14(1)(1999),59-62;
11) 董新洲、賀家李、葛耀中,小波變換 第1講 基本概念,繼電器 更名為 電力系統保護與控制,27(1)(1999),66-69;
12) 董新洲、賀家李、葛耀中,小波變換 第2講 離散小波變換,繼電器 更名為 電力系統保護與控制,27(2)(1999),57-60;
13) 董新洲、葛耀中、徐丙垠,利用暫态電流行波的輸電線路故障測距研究,中國電機工程學報,19(4)(1999),76-80;
14) 董新洲、賀家李、葛耀中,小波變換 第3講 二進小波變換及信号的奇異性檢測,繼電器 更名為 電力系統保護與控制,27(3)(1999),67-70;
15) 蘇斌、董新洲、孫元章,串聯電容補償線路行波差動保護研究,bevictor伟德官网學報(自然科學版),45(1)(2005),137-140;
16) 張言蒼、董新洲、董杏麗、葛耀中,DSP及其在行波保護中的應用,電力自動化設備,20(02)(2000),4-6;
17) 董新洲、葛耀中、賀家李、郭效軍、薄志謙,輸電線路行波保護的現狀與展望 ,電力系統自動化,24(10)(2000),56-61;
18) 董杏麗、董新洲、張言蒼、郭效軍、葛耀中,基于小波變換的行波極性比較式方向保護原理研究,電力系統自動化,24(14)(2000),11-15,29;
19) 董杏麗、葛耀中、董新洲、張言蒼,基于小波變換的行波幅值比較式方向保護,電力系統自動化,24(17)(2000),11-15,64;
20) 蘇斌、賀家李、董新洲、張言蒼,快速工頻量高頻方向保護的新方案,電力系統及其自動化學報,12(06)(2000),37-40;
21) 施慎行、董新洲、劉建政、薄志謙,配電線路無通道保護研究,電力系統自動化,25(6)(2001),31-14;
22) 董新洲、葛耀中、賀家李,波阻抗方向繼電器的基本原理,電力系統自動化,25(9)(2001),15-18,22;
23) 董新洲、葛耀中、賀家李,波阻抗方向繼電器的算法研究,電力系統自動化,25(10)(2001),14-17;
24) 董杏麗、葛耀中、董新洲,基于小波變換的無通道全線速動行波保護,電力系統自動化,25(10)(2001),18-22;
25) 董新洲、葛耀中、賀家李,波阻抗方向繼電器的性能分析,電力系統自動化,25(11)(2001),24-27;
26) 董新洲、郭效軍、張言蒼、葛耀中、賀家李,波阻抗方向繼電器的實現方案,電力系統自動化,25(12)(2001),20-23;
27) 董新洲、劉建政、餘學文,輸電線路暫态電壓行波的故障特征及其小波分析,電工技術學報,16(03)(2001),57-61,74;
28) 董杏麗、葛耀中、董新洲、張伏生、張言蒼、索南加樂,基于小波變換的行波測距式距離保護原理的研究,電網技術,25(07)(2001),9-13;
29) 蘇斌、賀家李、董新洲、張言蒼,短窗算法和快速工頻方向元件的研究,天津電力技術,(Z1)(2001),9-16;
30) 畢見廣、郭永基、孫元章、董新洲,配電網單相故障仿真計算及分析,電力系統自動化,25(18)(2001),41-44;
31) 董新洲、劉建政、張言蒼,行波的小波表示,bevictor伟德官网學報(自然科學版),41(9)(2001),13-17;
32) 王維儉、董新洲、蘇鵬聲、葛寶明,在主設備保護中應用小波變換的幾點商榷,電力系統自動化,25(19)(2001),53-54;
33) 徐丙垠、李京、陳平、陳羽、董新洲、葛耀中、P.F. Gale,現代行波測距技術及其應用,電力系統自動化,25(19)(2001),62-65;
34) 董新洲,故障信息 小波變換與繼電保護,中國電力,34(12)(2001),25-29;
35) 畢見廣、郭永基、孫元章、董新洲,中性點不接地配電網故障過電壓分析,繼電器 更名為 電力系統保護與控制,29(12)(2001),1-4;
36) 陳铮、董新洲、羅承沐,電流互感器飽和影響測距精度的一種解決方法,電力系統自動化,26(1)(2002),39-41,52;
37) 葛耀中、董新洲、董杏麗,測距式行波距離保護的研究(一)——理論與實現技術,電力系統自動化,26(6)(2002),34-40;
38) 甘忠、董新洲、薄志謙,輸電線路自适應無通道保護(一) ——故障分析與保護原理,電力系統自動化,26(7)(2002),33-37;
39) 甘忠、董新洲、薄志謙,輸電線路自适應無通道保護(二)——構成方案與仿真試驗,電力系統自動化,26(8)(2002),29-32,68;
40) 董杏麗、葛耀中、董新洲,測距式行波距離保護的研究(二)——原理方案與仿真試驗,電力系統自動化,26(09)(2002),53-58;
41) 施慎行、董新洲、薄志謙,B. Caunce,R. Millar,配電線路無通道保護的實現與試驗,電力系統自動化,26(12)(2002),45-47,63;
42) 董杏麗、葛耀中、董新洲,基于小波變換的比率式行波方向繼電器的研究,西安交通大學學報,36(8)(2002),771-775;
43) 盧大海、朱亞東、董新洲、邵光耀、楊亮,基于小波分析的母線暫态行波保護新原理的探讨,電力自動化設備,22(08)(2002),63-66;
44) 董杏麗、葛耀中、董新洲,行波保護中雷電幹擾問題的對策,中國電機工程學報,22(9)(2002),74-78;
45) 楊鐘皓、董新洲,基于小波變換的變壓器勵磁湧流識别方法,bevictor伟德官网學報(自然科學版),42(9)(2002),1184-1187;
46) 董杏麗、葛耀中、董新洲,行波保護中合閘到故障線路的檢測方法,中國電機工程學報,22(10)(2002),77-80,90;
47) 賀家李、李永麗、郭征、李斌、董新洲,特高壓輸電線繼電保護配置方案(一)特高壓輸電線的結構與運行特點,電力系統自動化,26(23)(2002),1-6;
48) 賀家李、李永麗、李斌、郭征、董新洲,特高壓輸電線繼電保護配置方案(二)保護配置方案,電力系統自動化,26(24)(2002),1-6;
49) 劉建凱、董新洲、薄志謙,有分支配電線路無通道保護研究,電力系統自動化,27(1)(2003),37-41;
50) 陳铮、董新洲、羅承沐,帶串聯電容補償裝置的高壓輸電線路雙端故障測距新算法,中國電機工程學報,23(1)(2003),11-15;
51) 陳平、徐丙垠、李京、董新洲、葛耀中,現代行波故障測距裝置及其運行經驗,電力系統自動化,27(6)(2003),66-69;
52) 陳铮、董新洲、羅承沐,單端工頻電氣量故障測距算法的魯棒性,bevictor伟德官网學報(自然科學版),43(3)(2003),310-313,317;
53) 蘇斌、董新洲、阿德南、賀家李,方向高頻保護的動作行為 第二部分:複故障情況下方向高頻保護的動作行為分析,電力系統及其自動化學報,15(02)(2003),9-13,23;
54) 楊鐘皓、董新洲,波阻抗方向繼電器的完善方案,電工技術學報,18(2)(2003),22-26;
55) 葛耀中、董杏麗、董新洲,索南加樂,基于小波變換的電流行波母線保護的研究(一)——原理與判據,電工技術學報,18(02)(2003),95-99;
56) 董杏麗、葛耀中、董新洲,基于小波變換的電流行波母線保護的研究(二)——保護方案與仿真試驗,電工技術學報,18(3)(2003),98-101;
57) 陳飛、董新洲、薄志謙,快速有選擇性的輻射狀配電網無通道保護,電力系統自動化,27(22)(2003),45-49;
58) 劉建凱、董新洲、薄志謙,有分支配電線路無通道保護的實現,電力系統自動化,27(23)(2003),41-44;
59) 施慎行、董新洲、周雙喜、薄志謙、B. Caunce.,轉換性故障下無通道保護動作性能分析,電力系統自動化,28(11)(2004),6-8,27;
60) 董新洲、李幼儀、薄志謙,雙回線無通道保護研究(一)故障分析和保護原理,電力系統自動化,28(11)(2004),53-56;
61) 李幼儀、董新洲、孫元章、薄志謙,雙回線無通道保護研究(二)仿真試驗,電力系統自動化,28(12)(2004),69-72;
62) 李幼儀、董新洲、孫元章、薄志謙、BRJ Caunce,雙回線無通道保護研究(三)保護實現和試驗,電力系統自動化,28(13)(2004),69-72;
63) 蘇斌、董新洲、孫元章、賀家李,特高壓串補線路負序方向高頻保護行為分析,電力系統自動化,28(14)(2004),9-13;
64) 王慶平、董新洲、周雙喜、陳超英、陳禮義,華中電網故障暫态自适應仿真分析,電力系統自動化,28(17)(2004),81-83,87;
65) 王慶平、董新洲、周雙喜、陳超英、陳禮義,基于自适應模型的變壓器暫态全過程數值計算,電力系統自動化,28(18)(2004),54-58;
66) 蘇斌、董新洲、孫元章,基于小波變換的行波差動保護,電力系統自動化,28(18)(2004),25-29,35;
67) 王慶平、董新洲、周雙喜、陳超英、陳禮義,輸電線路自适應暫态計算模型,bevictor伟德官网學報(自然科學版),44(10)(2004),1313-1316;
68) 王慶平、董新洲、周雙喜、陳超英、陳禮義,自适應暫态計算在繼電保護分析中的應用,中國電機工程學報,24(11)(2004),43-47;
69) 蘇斌、董新洲、孫元章,特高壓帶并聯電抗器線路的行波差動保護,電力系統自動化,28(23)(2004),41-44,70;
70) 陳飛、董新洲、薄志謙,快速有選擇性輻射狀配電網無通道保護的實現,電力系統自動化,28(24)(2004),46-50;
71) 畢見廣、董新洲、周雙喜,基于兩相電流行波的接地選線方法,電力系統自動化,29(3)(2005),17-20,50;
72) 董新洲、畢見廣,配電線路暫态行波的分析和接地選線研究,中國電機工程學報,25(4)(2005),1-6;
73) 蘇斌、董新洲、孫元章,适用于特高壓線路的差動保護分布電容電流補償算法,電力系統自動化,29(08)(2005),36-40,59;
74) 張梅、董新洲、薄志謙、B.R.J. Caunce,實用化的配電線路無通道保護方案,電力系統自動化,29(12)(2005),68-72;
75) 薄志謙、和敬涵、董新洲,電力系統的集成保護,繼電器 更名為 電力系統保護與控制,33(14)(2005),6-10,47;
76) 盧強、董新洲,繼電保護與電力系統災變防治,繼電器 更名為 電力系統保護與控制,33(14)(2005),1-5,64;
77) 董新洲、羅澍忻、施慎行、王賓、王世勇、崔柳、王珺、任立、姜博、許飛、邬捷龍、劉峰、粟小華、張言蒼、郭效軍、蘭金波、錢國明,基于極化電流行波方向繼電器的行波方向比較式縱聯保護技術及其在750kV線路上的應用,電力自動化設備,35(9)(2015),1-5;
78) 施慎行、董新洲、周雙喜,單相接地故障下第2個反向行波識别的新方法,電力系統自動化,30(10)(2006),41-44,59;
79) 孔瑞忠、董新洲、畢見廣,基于電流行波的小電流接地選線裝置的試驗,電力系統自動化,30(5)(2006),63-67;
80) 王賓、潘貞存,徐文遠,董新洲,配電線路電流保護的跌落保護性能評估,電力系統自動化,30(6)(2006),25-29,41;
81) 李幼儀、董新洲、孫元章,基于行波理論的補償電壓突變量選相元件,電力系統自動化,30(8)(2006),37-40;
82) 王海港、董新洲、薄志謙,一種靈敏可靠的輸電線路電流差動保護判據,電網技術,30(10)(2006),90-93,99;
83) 李幼儀、董新洲、孫元章,不同行波方向元件原理與判據的比較,bevictor伟德官网學報(自然科學版),46(7)(2006),1208-1211;
84) 孫榮智、溫渤嬰、董新洲、秦立軍,輸電線路微機距離保護中解微分方程算法的分析與改進,現代電力,23(04)(2006),15-18;
85) 王賓、潘貞存、董新洲,電壓跌落的配電線路全線速切治理方案,電網技術,30(21)(2006),84-88;
86) 康明才、董新洲,無通道保護應用研究,中國高校科技與産業化更名為 中國高校科技雜志,(z1)(2006),268-270;
87) 柴旭峥、梁曦東、曾嵘、董新洲,我國緊湊型輸電線路的電氣參數特性分析,電網技術,31(1)(2007),16-19,24;
88) 王賓、潘貞存、董新洲,基于電壓跌落狀态估計的複雜配電網絡故障路徑搜索算法,電網技術,31(10)(2007),55-60;
89) 董新洲、施慎行、王賓、孔玮、薄志謙,新型配電線路自動化模式,電力系統及其自動化學報,19(3)(2007),1-7;
90) 王賓、董新洲、周雙喜、薄志謙、A. KLIMEK、B. CAUNCE,特高壓交流輸電線路接地阻抗繼電器動作特性分析,電力系統自動化,31(17)(2007),45-49,86;
91) 湯楓、袁越、王賓、董新洲,特高壓交流輸電線路負序方向保護動作特性仿真分析,繼電器 更名為 電力系統保護與控制,35(S1)(2007),30-35;
92) 張甯、董新洲、薄志謙、A. KLIMEK,輸電線路綜合電流差動保護方案的研究,電力科學與技術學報,22(04)(2007),16-19;
93) 王賓、董新洲、薄志謙、Andrew KLIMEK,零序電抗繼電器在特高壓交流輸電線路上的适用性分析,電力系統自動化,32(4)(2008),46-50;
94) 王侃、施慎行、楊建明、董新洲,基于暫态行波的接地選線裝置及其現場試驗,電力自動化設備,28(6)(2008),118-121;
95) 王賓、董新洲、薄志謙、Andrew KLIMEK,特高壓長線路單端阻抗法單相接地故障測距,電力系統自動化,32(14)(2008),25-29;
96) 施慎行、董新洲,基于單相電流行波的故障選線原理研究,電力系統保護與控制,36(14)(2008),13-16;
97) 王賓、董新洲、薄志謙、Andrew Klimek,特高壓交流長線路零序電抗繼電器動作特性分析及改進,電工技術學報,60(12)(2008),60-64;
98) 董新洲、丁磊,數字化集成保護與控制系統結構設計方案研究,電力系統保護與控制,37(1)(2009),1-5;
99) 王賓、董新洲、薄志謙、Andrew KLIMEK,非全相運行輸電線路負序方向縱聯保護方法,電力系統自動化,33(12)(2009),61-66;
100) 劉琨、董新洲,基于本地信息預防連鎖跳閘的集成保護實現方案,廣東電力,28(09)(2015),79-84;
101) 姜永晖、溫渤嬰、丁磊、董新洲,基于數字化變電站IED接口的數據處理算法,電網技術,34(02)(2010),190-193;
102) 王賓、董新洲、薄志謙,數字化變電站全頻帶故障信息利用可行性分析初探,電力系統保護與控制,38(13)(2010),17-21;
103) 董新洲、丁磊、劉琨、施慎行、王賓、崔柳、薄志謙,基于本地信息的系統保護,中國電機工程學報,30(22)(2010),7-13;
104) 施慎行、任立、劉澤宇、董新洲,符合IEC61850标準的行波電流選線裝置研制,電力系統自動化,31(3)(2011),131-134;
105) 李旭洋、董新洲、薄志謙,電力變壓器鐵磁諧振檢測方法研究,電力系統保護與控制,39(09)(2011),102-107;
106) 王賓、董新洲、潘貞存、薄志謙,含風電接入配電系統電壓跌落傳播特性分析,電力系統自動化,35(10)(2011),53-58;
107) 劉琨、董新洲、王賓、施慎行,故障動态過程對潮流轉移識别的影響分析,電力系統自動化,35(13)(2011),31-36;
108) 劉琨、董新洲、王賓、施慎行,基于本地信息的潮流轉移識别,電力系統自動化,35(14)(2011),80-86;
109) 王賓、戈政、董新洲、金恩淑、薄志謙,智能配電變電站過程總線信息共享通信特性分析,電力系統自動化,35(18)(2011),62-66;
110) 王世勇、董新洲、施慎行,不同頻帶下電壓故障行波極性的一緻性分析,電力系統自動化,35(20)(2011),68-73;
111) 董新洲、王世勇、施慎行,極化電流行波方向繼電器,電力系統自動化,35(21)(2011),78-83,100;
112) 劉琨、董新洲、施慎行、王賓,對稱故障下基于無通道保護的配電線路自動化,bevictor伟德官网學報(自然科學版),51(11)(2011),1562-1567;
113) 王世勇、董新洲、施慎行,極化電流行波方向繼電器的實現方案,電力系統自動化,35(23)(2011),76-81;
114) 王賓、董新洲,風電場電流保護動作特性等價低電壓穿越容量性能分析,電力系統自動化,35(24)(2011),23-27;
115) 王賓、董新洲、許飛、曹潤彬、劉琨、薄志謙,智能配電變電站集成保護控制信息共享分析,中國電機工程學報,31(S1)(2011),1-6;
116) 何世恩、董新洲,大規模風電機組脫網原因分析及對策,電力系統保護與控制,40(1)(2012),131-137,144;
117) 劉健、董新洲、陳星莺、張小慶、張志華,配電網容錯故障處理關鍵技術研究,電網技術,36(1)(2012),253-257;
118) 劉琨、董新洲、施慎行、王賓,适用于配電線路無通道保護的重合閘方案,bevictor伟德官网學報(自然科學版),52(03)(2012),356-361;
119) 劉琨、董新洲,單端電氣量組合故障測距方法的适用性分析,廣東電力,25(06)(2012),9-14;
120) 劉琨、董新洲、李幼儀,雙回線無通道集成保護的實現方案,南方電網技術,6(04)(2012),11-16;
121) 劉琨、董新洲,基于方向行波的電力線路保護與檢測技術,廣東電力,25(10)(2012),22-27,32;
122) 施慎行、董新洲、吳家華、沈冬,配電線路單相接地故障自愈方案,電力自動化設備,32(11)(2012),97-101;
123) 李幼儀、董新洲、孫元章,基于電流行波的輸電線橫差保護,中國電機工程學報,22(11)(2002),6-10;
124) 王賓、董新洲、張道農,電力系統戴維南等值分析應用及DG靈活接入後的影響,華北電力技術,(12)(2012),29-34;
125) 施慎行、許剛、董新洲、殷迪清、劉琨、王恺,基于無通道保護的配電線路自動化系統現場應用方案,電工電能新技術,32(1)(2013),94-97,103;
126) 薄志謙、張保會、董新洲、和敬涵、林湘甯、曾祥君、李斌,保護智能化的發展與智能繼電器網絡,電力系統保護與控制,41(02)(2013),1-12;
127) 董新洲、曹潤彬、王賓、施慎行、Dominik Bak,印度大停電與繼電保護的三大功能,電力系統保護與控制,41(2)(2013),19-25;
128) 劉琨、董新洲,基于本地信息預防連鎖跳閘的快速控制策略生成方法,廣東電力,26(03)(2013),19-25,36;
129) 董新洲、王珺、施慎行,配電線路單相接地行波保護的原理與算法,中國電機工程學報,33(10)(2013),154-160,S20;
130) 王珺、董新洲、施慎行,配電線路單相接地行波保護的實現與試驗,中國電機工程學報,33(13)(2013),172-8;
131) 劉琨、董新洲、薄志謙,适用于配電線路無通道保護的備用電源自動投入裝置,電力系統自動化,33(6)(2013),147-151,162;
132) 王珺、董新洲、施慎行,考慮參數依頻變化特性的輻射狀架空配電線路行波傳播研究,中國電機工程學報,33(22)(2013),96-102;
133) 耿建昭、王賓、董新洲、Bak DOMINIK,中性點有效接地配電網高阻接地故障特征分析及檢測,電力系統自動化,37(16)(2013),85-91;
134) 劉健、張小慶、陳星莺、沈兵兵、董新洲、張志華,集中智能與分布智能協調配合的配電網故障處理模式,電網技術,37(9)(2013),2608-2614;
135) 任立、董新洲、施慎行、王賓、Dominik BAK,極化電流行波方向繼電器在帶并聯電抗器輸電線上的特性,電力系統自動化,37(21)(2013),169-175;
136) 崔柳、董新洲、施慎行、王賓、DOMINIK Bak,多相補償距離繼電器在振蕩且伴随單相接地故障下的動作性能分析,中國電機工程學報,33(34)(2013),214-222;
137) 王賓、黃磊、曹潤彬、董新洲、康明才,智能變電站126kV智能終端設計與測試方案研究,電力系統保護與控制,42(01)(2014),119-125;
138) 董新洲、蘇斌、施慎行,二次擾動信息及其在繼電保護中的應用,電力系統自動化,28(2)(2004),21-25;
139) 畢見廣、董新洲、郭永基,基于故障附加網絡的故障分量算法,bevictor伟德官网學報(自然科學版) ,14(1)(2004),89-92;
140) 董新洲、曹潤彬、崔柳、王賓、施慎行、Dominik Bak、Brian Kirby、楊霞,現代電力系統集成後備保護方案,電力系統保護與控制,42(5)(2014),21-25;
141) 朱聲石、崔柳、董新洲,不受電力系統振蕩影響的距離保護,中國電機工程學報,34(7)(2014),1175-1182;
142) 許飛、董新洲、王賓、施慎行,新型輸電線路單端電氣量組合故障測距方法及其試驗研究,電力自動化設備,34(4)(2014),37-42;
143) 曹潤彬、董新洲、王賓、施慎行、BAK Dominik、何世恩、孫辰軍,數字化集成保護控制系統的實現方案,電力自動化設備,34(5)(2014),149-155;
144) 王賓、耿建昭、董新洲,基于介質擊穿原理的配電線路高阻接地故障精确建模,電力系統自動化,38(12)(2014),62-66,106;
145) 崔柳、董新洲,具有抗過渡電阻能力的多相補償距離繼電器,中國電機工程學報,34(19)(2014),3220-3225;
146) 王賓、耿建昭、董新洲,配網高阻接地故障伏安特性分析及檢測,中國電機工程學報,24(22)(2014),3815-3823;
147) 羅澍忻、董新洲、施慎行、王世勇,極化電流行波方向繼電器在串補線路中的應用,電力系統自動化,38(15)(2014),100-105,111;
148) 王賓、倪江、董新洲,智能變電站行波選線技術應用通信方案分析,電工電能新技術,33(10)(2014),1-6,22;
149) 董新洲、蘇斌、薄志謙、賀家李,特高壓輸電線路繼電保護特殊問題的研究,電力系統自動化,28(22)(2004),19-22;
150) 姜博、董新洲、施慎行,基于單相電流行波的配電線路單相接地故障選線方法,中國電機工程學報,34(34)(2014),6216-6227;
151) 許飛、董新洲,變電站二次回路電流行波傳變特性,bevictor伟德官网學報(自然科學版),55(2)(2015),251-256;
152) 劉琨、董新洲,一種基于本地信息的自适應過負荷保護方案,廣東電力,28(04)(2015),45-50,67;
153) 曹潤彬、董新洲、何世恩,事故過負荷情況下距離保護的動作行為分析,中國電機工程學報,35(13)(2015),3314-3323;
154) 劉琨、曹潤彬、董新洲,避免事故過負荷條件下遠後備保護不合理動作的解決方案,廣東電力,28(07)(2015),78-83,108;
155) 耿建昭、王賓、董新洲,利用單相跳閘後信息的輸電線路單相接地單端精确測距方法,電工技術學報,30(16)(2015),184-193;
156) 姜博、董新洲、施慎行,近似熵在配電網繼發性故障檢測中的應用研究,電力系統保護與控制,43(17)(2015),15-21;
157) 許飛、董新洲、王賓、施慎行,考慮二次回路暫态傳變特性的單端組合測距算法及其應用,中國電機工程學報,35(20)(2015),5210-5219;
158) 姜博、董新洲、施慎行,配電網單相接地故障選線典型方法實驗研究,電力自動化設備,35(11)(2015),67-74;
159) 廖志剛、何世恩、董新洲、王賓、曹潤彬、施慎行、李津、鄭偉,提高大規模風電接納及送出的系統保護研究,電力系統保護與控制,43(22)(2015),41-46;
160) 施慎行、董新洲、周雙喜,單相接地故障行波分析,電力系統自動化,29(23)(2005),29-32,53;
161) 姜博、董新洲、施慎行、王賓,自适應時頻窗行波選線方法研究,中國電機工程學報,35(24)(2015),6387-6397;
162) 雷傲宇、董新洲、施慎行,一種識别輸電線路單相接地故障下第二個反向行波的方法,中國電機工程學報,36(8)(2016),2151-2158;
163) 羅澍忻、董新洲,基于故障行波過程的直流線路單端保護,廣東電力,29(09)(2016),52-57;
164) 官二勇、董新洲、馮騰,一種固态直流限流器拓撲結構,中國電機工程學報,37(4)(2017),978-985;
165) 董新洲、馮騰、王飛、施慎行、王賓、羅澍忻,暫态行波保護測試儀,電力系統自動化,37(2)(2017),192-198;
166) 湯蘭西、董新洲,半波長交流輸電線路行波差動電流特性的研究,中國電機工程學報,37(8)(2017),2261-2269,S10;
167) 陸元園、王賓、劉輝、吳林林、陳璨、董新洲,風電場并網輸電線路單相接地故障單端測距方法,電力系統自動化,41(10)(2017),100-105;
168) 雷傲宇、董新洲、馮騰、湯蘭西,半波長輸電線路短路故障後的故障方向特性,電網技術,41(12)(2017),3832-3838;
169) 王賓、魏向向、張國輝、溫渤嬰、馮迎春、董新洲,換流站交流濾波支路斷路器燃弧故障建模分析,中國電機工程學報,38(5)(2018),1496-1503;
170) 王賓、魏向向、張國輝、馮迎春、溫渤嬰、董新洲,交流濾波器支路斷路器高頻燃弧故障檢測研究,中國電機工程學報,38(6)(2018),1837-1845,S27;
171) 董新洲、馮騰、王飛,用于行波保護測試的暫态信号發生器關鍵技術,電力系統自動化,37(11)(2017),66-71,77;
172) 馮騰、董新洲,架空線路電磁暫态仿真中弧垂的處理方法,中國電機工程學報,38(9)(2018),2634-2640,S11;
173) 董新洲、雷傲宇、湯蘭西,電力線路行波差動保護與電流差動保護的比較研究,電力系統保護與控制,46(01)(2018),1-8;
174) 楊林、王賓、董新洲,高壓直流輸電線路故障測距研究綜述,電力系統自動化,42(8)(2018),185-191;
175) 董新洲、湯蘭西、施慎行、邱宇峰、孔明、龐輝,柔性直流輸電網線路保護配置方案,電網技術,42(6)(2018),1752-1759;
176) 董新洲、雷傲宇、湯蘭西、王賓、施慎行,行波特性分析及行波差動保護技術挑戰與展望,電力系統自動化,42(19)(2018),184-191;
177) 馮騰、董新洲,雙端行波故障測距裝置性能測試方法,電力自動化設備,38(09)(2018),114-120,128;
178) 湯蘭西、董新洲、施慎行、孔明、邱宇峰,柔性直流電網線路超高速行波保護原理與實現,電網技術,42(10)(2018),3182-3192;
179) 董新洲、湯湧、蔔廣全、沈沉、宋國兵、王增平、甘德強、侯俊賢、王賓、趙兵、施慎行,大型交直流混聯電網安全運行面臨的問題與挑戰,中國電機工程學報,39(11)(2019),3107-3118;
180) 湯蘭西、董新洲,MMC直流輸電網線路短路故障電流的近似計算方法,中國電機工程學報,39(2)(2019),490-498;
181) 蔡靜、董新洲,高壓直流輸電線路故障清除及恢複策略研究綜述,電力系統自動化,43(11)(2019),181-190;
182) 官二勇、董新洲、王豪,直流電網組合式故障限流裝置及其運行策略硏究,中國電機工程學報,39(11)(2019),3222-3230;
183) 賈琦、董新洲、施慎行,實用化的輻射狀配電線路單相接地行波保護方案,中國電機工程學報,39(6)(2019),1543-1550;
184) 景柳銘、王賓、董新洲、王海港、俞斌、謝民、陳實,高壓直流輸電系統連續換相失敗研究綜述,電力自動化設備,39(9)(2019),116-123;
185) 張晨浩、宋國兵、董新洲、楊黎明,利用波前廣義Logistic函數拟合的直流輸電線路快速保護原理,中國電機工程學報,39(11)(2019),3168-3175;
186) 張國輝、李志中、王賓、劉萌、董新洲,基于Adaboost的高壓直流線路連續換相失敗預警方法,電力系統保護與控制,47(19)(2019),69-77;
187) 王賓、崔鑫、董新洲,配電線路弧光高阻故障檢測技術綜述,中國電機工程學報,20191218,1-12;
188) 雷傲宇、董新洲,超/特高壓輸電線路寬頻窗短時窗行波差動保護方法,中國電機工程學報,39(23)(2019),6826-6835+7096;
189) 董新洲、湯湧、蔔廣全、王賓,特約主編寄語,電力自動化設備,39(9)(2019),1-2+7;
190) 張晨浩、宋國兵、董新洲,一種應對高阻故障的單端自适應行波保護方法,中國電機工程學報,20190730,1-11;
191) 羅澍忻,董新洲,基于LCC的高壓直流輸電線路保護分析及展望,廣東電力,32(2)(2019),121-129;
192) 賈琦,董新洲,施慎行.實用化的輻射狀配電線路單相接地行波保護方案[J].中國電機工程學報,39(06)(2019),1543-1550+1851;
193) 湯蘭西,董新洲.MMC直流輸電網線路短路故障電流的近似計算方法[J].中國電機工程學報,39(02)(2019),490-498+646;
194) 官二勇,董新洲,王豪.直流電網組合式故障限流裝置及其運行策略研究[J].中國電機工程學報,39(11)(2019),3222-3231;
195) 董新洲,湯湧,蔔廣全,沈沉,宋國兵,王增平,甘德強,侯俊賢,王賓,趙兵,施慎行.大型交直流混聯電網安全運行面臨的問題與挑戰[J].中國電機工程學報,39(11)(2019),3107-3119;
196) 張晨浩,宋國兵,董新洲,楊黎明.利用波前廣義Logistic函數拟合的直流輸電線路快速保護原理[J].中國電機工程學報,39(11)(2019),3168-3176;
197) 蔡靜,董新洲.高壓直流輸電線路故障清除及恢複策略研究綜述[J].電力系統自動化,43(11)(2019),181-190;
198) 景柳銘,王賓,董新洲,王海港,俞斌,謝民,陳實.高壓直流輸電系統連續換相失敗研究綜述[J].電力自動化設備,39(09)(2019),116-123;
199) 董新洲,湯湧,蔔廣全,王賓.特約主編寄語[J].電力自動化設備,39(09)(2019),1-2+7;
200) 張國輝,李志中,王賓,劉萌,董新洲.基于Adaboost的高壓直流線路連續換相失敗預警方法[J].電力系統保護與控制,47(19)(2019),69-77;
201) 雷傲宇,董新洲.超/特高壓輸電線路寬頻窗短時窗行波差動保護方法[J].中國電機工程學報,39(23)(2019),6826-6835+7096;
202) 張晨浩,宋國兵,董新洲.一種應對高阻故障的單端自适應行波保護方法[J].中國電機工程學報,40(11)(2020),3548-3557;
203) 王賓,崔鑫,董新洲.配電線路弧光高阻故障檢測技術綜述[J].中國電機工程學報,2020,40(01):96-107+377;
204) 董新洲,湯湧,蔔廣全.特約主編寄語[J].電力系統自動化,2020,44(22):1;
205) 張國輝,景柳銘,王賓,劉萌,董新洲.諧波引起的高壓直流輸電連續換相失敗抑制方法研究[J].電力系統保護與控制,48(5)(2020),33-41;
206) 宋國兵,王婷,張保會,董新洲,康小甯.利用電力電子裝置的探測式故障識别技術分析與展望[J].電力系統自動化,44(20)(2020),173-183;
207) 張晨浩,宋國兵,董新洲.利用故障電流首行波拟合的柔性直流輸電線路單端行波保護原理[J].中國電機工程學報,41(08)(2021),2651-2661;
208) 王賓,李志中,董新洲.基于動态相量法的直流系統暫态響應實時快速仿真計算方法[J].中國電機工程學報,41(05)(2021),1608-1618;
209) 張晨浩,宋國兵,董新洲,黃金海.混合多端直流輸電線路快速保護及自适應重啟方法實用化研究[J].中國電機工程學報,41(11)(2021),3873-3885;
210) 張晨浩,宋國兵,李洋,闫吉飛,董新洲.基于故障電壓行波傳播項指數系數的柔性直流輸電線路單端行波保護原理[J].中國電機工程學報,41(24)(2021),8424-8437;;
211) 闫群民,董新洲,穆佳豪,馬永翔.基于改進多目标粒子群算法的有源配電網儲能優化配置[J].電力系統保護與控制,50(10)(2022),11-19;
212) 闫群民,劉語忱,董新洲,馬永翔.基于CEEMDAN-HT的平抑光伏出力混合儲能容量優化配置[J].電力系統保護與控制, 50(21)(2022),43-53。
5.授權國外發明專利
1) Xinzhou Dong, Tao Cui, Zhiqian Bo, Andrzej Klimek, Andrzej Juszczyk; Method and system for transient and intermittent earth fault detection and direction determination in a three-phase median voltage electric power distribution system, 歐洲; 2013.3.20; EP 2417467B1;Alstom Technology Ltd, Tsinghua University;
2) DONG XINZHOU, CUI TAO, BO ZHIQIAN, KLIMEK ANDRZEJ, JUSZCZYK ANDRZEJ; Verfahren und System zur Detektion von Transienten und in Abständen auftretenden Erdfehlern und Richtungsbestimmung in einem elektrischen Dreiphasen-Mittelspannungs-Energieverteilungssystem; 2013; EP 02417467; 瑞士 CH;
3) JUSZCZYK, Andrzej, Walbrzych, BO, Zhiqian, DONG, Xinzhou, KLIMEK, Andrzej, CUI, Tao; Verfahren und System zur Detektion von Transienten- und in Abständen auftretenden Erdfehlern und Richtungsbestimmung in einem elektrischen Dreiphasen-Mittelspannungs-Energieverteilungssystem; 2013; EP 2417467; 德國 DE;
4) DONG XINZHOU, CUI TAO, BO ZHIQIAN, KLIMEK ANDRZEJ, JUSZCZYK ANDRZEJ; Procédé et système pour la détection des défauts à la terre transitoires et intermittents et la détermination de la direction dans un système de distribution d'énergie électrique triphasé à tension moyenne; 2013; EP 2417467; 法國 FR;
5) DONG XINZHOU, CUI TAO, BO ZHIQIAN, KLIMEK ANDRZEJ, JUSZCZYK ANDRZEJ; Method and system for transient and intermittent earth fault detection and direction determination in a three-phase medium voltage electric power distribution; 2013; EP 2417467; 英國 GB;
6) DONG XINZHOU, CUI TAO, BO ZHIQIAN, KLIMEK ANDRZEJ, JUSZCZYK ANDRZEJ; Verfahren und System zur Detektion von Transienten- und in Abständen auftretenden Erdfehlern und Richtungsbestimmung in einem elektrischen Dreiphasen-Mittelspannungs-Energieverteilungssystem; 2013; EP 02417467; 列支敦士登 LI;
7) Dong Xinzhou, Cui Tao; Method for detecting single phase grounding fault based on harmonic component of residual current; 2014; US 08918296B2; 美國;
8) DONG XINZHOU, CUI TAO; METHOD FOR DETECTING SINGLE PHASE GROUNDING FAULT BASED ON HARMONIC COMPONENT OF RESIDUAL CURRENT; 2016; CA 2741425C; 加拿大;
9) DONG XINZHOU, CUI TAO; METHOD FOR DETECTING SINGLE PHASE GROUNDING FAULT BASED ON HARMONIC COMPONENT OF RESIDUAL CURRENT; 2015; EP 2352038B1; 歐洲;
10) DONG XINZHOU, CUI TAO; VERFAHREN ZUM DETEKTIEREN EINES EINPHASEN-ERDUNGSFEHLERS AUF DER BASIS DER OBERSCHWINGUNGSKOMPONENTE DES RESTSTROMS; 2015; EP 02352038; 瑞士 CH;
11) DONG XINZHOU, CUI TAO; VERFAHREN ZUM DETEKTIEREN EINES EINPHASEN-ERDUNGSFEHLERS AUF DER BASIS DER OBERSCHWINGUNGSKOMPONENTE DES RESTSTROMS; 2015; EP 2352038; 德國 DE;
12) DONG XINZHOU, CUI TAO; PROCÉDÉ DE DÉTECTION DE DÉFAUT DE MISE À LA TERRE EN MONOPHASÉ BASÉ SUR LA COMPOSANTE HARMONIQUE DU COURANT RÉSIDUEL; 2011; EP 2352038; 法國 FR;
13) DONG XINZHOU, CUI TAO; METHOD FOR DETECTING SINGLE PHASE GROUNDING FAULT BASED ON HARMONIC COMPONENT OF RESIDUAL CURRENT; 2015; EP 2352038; 英國 GB;
14) DONG XINZHOU, CUI TAO; VERFAHREN ZUM DETEKTIEREN EINES EINPHASEN-ERDUNGSFEHLERS AUF DER BASIS DER OBERSCHWINGUNGSKOMPONENTE DES RESTSTROMS; 2015; EP 02352038; 列支敦士登 LI;
15) Xinzhou Dong, Xuyang Li, Zhiqian Bo, Ray Chatfield, Andrzej Klimek; Method and system for online ferroresonance detection; 2016; US 09246326B2; 美國;
16) DONG XINZHOU, LI XUYANG, BO ZHIQIAN, CHATFIELD RAY, KLIMEK ANDRZEJ; METHOD AND SYSTEM FOR ONLINE FERRORESONANCE DETECTION; 2017; CA 2801214C; 加拿大;
17) DONG XINZHOU, LI XUYANG, BO ZHIQIAN, CHATFIELD RAY, KLIMEK ANDRZEJ; METHOD AND SYSTEM FOR ONLINE FERRORESONANCE DETECTION; 2013; EP 2577827B1; 歐洲;
18) DONG XINZHOU, LI XUYANG, BO ZHIQIAN, CHATFIELD RAY, KLIMEK ANDRZEJ; METHOD AND SYSTEM FOR ONLINE FERRORESONANCE DETECTION, VERFAHREN UND SYSTEM FÜR ONLINE-FERRORESONANZERKENNUNG; 2014; EP 02577827; 瑞士; CH;
19) DONG XINZHOU, LI XUYANG, BO ZHIQIAN, CHATFIELD RAY, KLIMEK ANDRZEJ; METHOD AND SYSTEM FOR ONLINE FERRORESONANCE DETECTION, PROCÉDÉ ET SYSTÈME DE DÉTECTION DE FERRORÉSONANCE EN LIGNE; 2014; EP 2577827; 法國 FR;
20) DONG XINZHOU, LI XUYANG, BO ZHIQIAN, CHATFIELD RAY, KLIMEK ANDRZEJ; METHOD AND SYSTEM FOR ONLINE FERRORESONANCE DETECTION; 2014; EP 2577827; 英國 GB;
21) DONG XINZHOU, LI XUYANG, BO ZHIQIAN, CHATFIELD RAY, KLIMEK ANDRZEJ; METHOD AND SYSTEM FOR ONLINE FERRORESONANCE DETECTION; 2014; 2577827; 愛爾蘭 IE;
22) DONG XINZHOU, LI XUYANG, BO ZHIQIAN, CHATFIELD RAY, KLIMEK ANDRZEJ; METHOD AND SYSTEM FOR ONLINE FERRORESONANCE DETECTION, VERFAHREN UND SYSTEM FÜR ONLINE-FERRORESONANZERKENNUNG; 2014; EP 02577827; 列支敦士登 LI;
23) DONG XINZHOU, LI XUYANG, BO ZHIQIAN, CHATFIELD RAY, KLIMEK ANDRZEJ; METHOD AND SYSTEM FOR ONLINE FERRORESONANCE DETECTION; 2014; EP 2577827; 盧森堡 LU;
24) DONG XINZHOU, LI XUYANG, BO ZHIQIAN, CHATFIELD RAY, KLIMEK ANDRZEJ; METHOD AND SYSTEM FOR ONLINE FERRORESONANCE DETECTION; 2014; EP 2577827; 荷蘭 NL.
6.授權國内發明專利
1) 董新洲、張言蒼;高速同步數據采集與數字信号處理闆;授權日:2003.9.24;專利号:Z L 00 1 0912 6.3;bevictor伟德官网,國電南京自動化股份有限公司;
2) 董新洲、施慎行、王世勇、崔柳、王珺、王飛、姜博;高壓輸電線路超高速行波方向縱聯保護方法、裝置和系統; 授權日:2014.5.14;專利号:Z L 2011 1 0047582.5;bevictor伟德官网;
3) 董新洲、雷傲宇;電力線路行波差動保護方法、裝置、設備及介質; 授權日:2019.9.20;專利号:Z L 2018 1 0034057.1;bevictor伟德官网;
4) 董新洲、湯蘭西、施慎行等;柔性直流輸電線路的保護方法和保護裝置; 授權日:2019.3.1;專利号:Z L 2016 1 0998450.3;bevictor伟德官网;
5) 董新洲;小電流接地系統單相接地的故障選線裝置;授權日:2002.2.13;專利号:Z L 01118471.X;bevictor伟德官网;
6) 董新洲、張言蒼、餘學文;暫态行波保護測試儀; 授權日:2004.3.17;專利号:Z L 01 1 20138.X;bevictor伟德官网;
7) 董新洲、丁磊;數字化變電站保護控制方法及其多功能保護控制器;授權日:2011.4.27;專利号:Z L 20081 0223970.2;bevictor伟德官网;
8) 董新洲、曹潤彬、施慎行等;站域距離保護III段的事故過負荷閉鎖方法; 授權日:2018.4.10;專利号:Z L 2014 1 0805868.9;bevictor伟德官网;
9) 董新洲、施慎行;一種配電線路不對稱故障繼電保護方法;授權日:2014.11.4;專利号:Z L 2012 1 0138050.7;bevictor伟德官网;
10) 董新洲、餘學文、劉建政;高速同步數/模轉換模闆及其數據處理、控制方法;授權日:2004.3.10;專利号:Z L 00 1 09127.1;bevictor伟德官网;
11) 董新洲、薄志謙;配電網繼電保護與故障定位系統;授權日:2002.2.6;專利号:Z L 01 1 30657.2;bevictor伟德官网,英國阿爾斯通輸配電保護與控制公司;
12) 董新洲、郭效軍、葛耀中、賀家李;輸電線路數字式行波保護方法及其繼電器與保護系統; 授權日:2002.7.3;專利号:Z L 01 1 43449.X;bevictor伟德官网,國電南自;
13) 董新洲;高精度故障錄波器及其輸電線路組合故障測距方法;授權日:2002.9.4;專利号:Z L 01 1 43448.1;bevictor伟德官网;
14) 董新洲、王賓、薄志謙;抗分布電容電流影響的線路單相接地故障的繼電保護方法; 授權日:2007.7.11;專利号:Z L 2006 1 0144275.8;bevictor伟德官网,英國阿海琺輸配電保護與控制公司;
15) 董新洲、張甯、薄志謙;數字式電流綜合器; 授權日:2007.1010;專利号:Z L 2007 1 0065390.0;bevictor伟德官网,英國阿海琺輸配電保護與控制公司;
16) 董新洲、王賓;抗分布電容電流和過渡電阻影響的線路單端故障測距方法; 授權日:2007.11.7;專利号:Z L 2007 1 0100215.0;bevictor伟德官网;
17) 董新洲、王賓;一種基于負序電抗繼電器的單相接地故障繼電保護方法; 授權日:2008.1.16;專利号:Z L 2007 1 0100216.5;bevictor伟德官网;
18) 董新洲、施慎行、崔韬;基于暫态行波的高阻接地故障檢測方法; 授權日:2009.4.8;專利号:Z L 2007 1 0303724.3;bevictor伟德官网;
19) 王賓、董新洲;非全相運行方式下的輸電線路負序方向縱聯保護方法; 授權日:2011.9.14;專利号:Z L 2008 1 0225743.3;bevictor伟德官网;
20) 施慎行、董新洲;基于行波電氣量量測的電力電纜在線絕緣監測方法;授權日:2009.9.16;專利号:Z L 2009 1 0081348.7;bevictor伟德官网;
21) 施慎行、董新洲;基于行波電氣量量測的電力系統故障預警方法; 授權日:2009.9.16;專利号:Z L 2009 1 0081349.1;bevictor伟德官网;
22) 董新洲、丁磊、王賓、施慎行、劉琨;基于變電站本地信息的電網系統保護方法; 授權日:2011.3.30;專利号:Z L 2009 1 0089563.1;bevictor伟德官网;
23) 董新洲、施慎行、王賓、王世勇;輸電線路故障方向檢測方法; 授權日:2010.5.5;專利号:Z L 2009 1 0238231.5;bevictor伟德官网;
24) 董新洲、王世勇、施慎行、王賓;輸電線路故障方向元件; 授權日:2010.5.19;專利号:Z L 2009 1 0238232.X;bevictor伟德官网;
25) 王賓、董新洲、施慎行;一種面向變電站内單間隔的單端故障錄波測距裝置; 授權日:2010.8.11;專利号:Z L 2009 1 0244485.8;bevictor伟德官网;
26) 施慎行、董新洲;單相接地測距方法和測距裝置;授權日:2011.1.12;專利号:Z L 2010 1 0244606.1;bevictor伟德官网;
27) 施慎行、董新洲;單相接地故障診斷方法和裝置;授權日:2011.1.12;專利号:Z L 2010 1 0244589.1;bevictor伟德官网;
28) 董新洲、施慎行、王珺;單相接地繼電保護方法;授權日:2014.9.2;專利号:Z L 2010 1 0565305.9;bevictor伟德官网;
29) 施慎行、董新洲;單相接地故障自愈裝置和系統; 授權日:2013.9.25;專利号:Z L 2011 1 0051967.9;bevictor伟德官网;
30) 施慎行、董新洲;單相接地故障自愈方法; 授權日:2014.4.16;專利号:Z L 2011 1 0051968.3;bevictor伟德官网;
31) 董新洲、王世勇、施慎行;高速數據采集與數字信号處理裝置;授權日:2011.8.7;專利号:Z L 2011 1 0070210.4;bevictor伟德官网;
32) 王賓、董新洲;一種降低風電場低電壓穿越容量需求的集成保護方法;授權日:2013.10.23;Z L 2011 1 0347316.4;bevictor伟德官网;
33) 施慎行、董新洲、齊天來;小電流接地系統單相接地測距方法和測距裝置; 授權日:2015.7.29;專利号:Z L 2012 1 0007263.6;bevictor伟德官网;
34) 董新洲、施慎行;一種配電線路三相故障處理方法; 授權日:2015.3.4;專利号:Z L 2012 1 0137308.1;bevictor伟德官网;
35) 董新洲、王賓、曹潤彬、許飛;一種智能變電站集成保護的快速起動及相量計算方法; 授權日:2014.10.22;專利号:Z L 2012 1 0237750.1;bevictor伟德官网;
36) 董新洲、王珺、施慎行;配電線路單相接地行波保護裝置; 授權日:2014.10.22;專利号:Z L 2012 1 0253747.9;bevictor伟德官网;
37) 董新洲、王珺、施慎行;配電線路單相接地行波保護方法;授權日:2014.10.9;專利号:Z L 2012 1 0252585.7;bevictor伟德官网;
38) 王賓、耿建昭、董新洲;基于零序電流波形畸變凹凸性的高阻接地故障檢測方法; 授權日:2014.8.20;專利号:Z L 2012 1 0425453.X;bevictor伟德官网;
39) 王賓、耿建昭、董新洲;基于零序電流過零點間斷判别的高阻接地故障檢測方法; 授權日:2014.10.22;專利号:Z L 2012 1 0425483.0;bevictor伟德官网;
40) 王賓、耿建昭、董新洲;一種高阻接地故障波形畸變特征抽取方法;授權日: 2015.4.15;專利号:Z L 2013 1 0043404.4;bevictor伟德官网;
41) 王賓、耿建昭、董新洲;一種基于故障電阻非線性識别的高阻接地故障檢測方法; 授權日:2015.4.15;專利号:Z L 2013 1 0175572.9;bevictor伟德官网;
42) 王賓、董新洲;集電線路全線速切保護與優化重合閘方法;授權日:2015.9.30;專利号:Z L 2013 1 0319340.6;bevictor伟德官网;
43) 王賓、耿建昭、董新洲;輸電線路單相接地故障單端測距方法; 授權日:2016.2.24;專利号:Z L 2013 1 0415348.2;bevictor伟德官网;
44) 施慎行、董新洲、梅春曉、臧今為、沙濟通、程亞平、張志剛、姜巍、齊天來;風電場電力線路的故障預警系統和方法; 授權日:2016.6.8;專利号:Z L 2013 1 0656785.3;bevictor伟德官网;
45) 王賓、倪江、耿建昭、董新洲;智能變電站多間隔暫态行波信号實時共享方法; 授權日:2015.10.28;專利号:Z L 2014 1 0114104.5;bevictor伟德官网;
46) 董新洲、王玉君、王賓、施慎行、劉健;配電網黑啟動方案生成方法和系統; 授權日:2016.5.11;專利号:Z L 2014 1 0281824.0;bevictor伟德官网;
47) 董新洲、王玉君、王賓、施慎行、劉健;配電網黑啟動方案生成方法和系統; 授權日:2016.5.4;專利号:Z L 2014 1 0287561.4;bevictor伟德官网;
48) 王賓、耿建昭、董新洲;基于相繼動作的高壓線路瞬時性接地故障單端測距方法; 授權日:2017.2.15;專利号:Z L 2014 1 0462665.4;bevictor伟德官网;
49) 董新洲、曹潤彬、施慎行、陳昕;站域接地距離保護III段自适應偏移特性整定方法; 授權日:2017.4.5;專利号:Z L 2014 1 0538903.5;bevictor伟德官网;
50) 董新洲、曹潤彬、施慎行、何世恩、路亮、姚旭;站域距離保護III段平行線分支系數快速調整方法; 授權日:2017.4.12;專利号:Z L 2014 1 0539684.2;bevictor伟德官网;
51) 董新洲、曹潤彬、施慎行、倪江、雷傲宇、陳昕;一種架空輸電線路自适應過負荷保護動作方法; 授權日:2017.11.28;專利号:Z L 2014 1 0805734.7;bevictor伟德官网;
52) 董新洲、曹潤彬、施慎行、陳昕、倪江、雷傲宇;基于回聲狀态網絡的架空輸電線路最高溫度預測方法;授權日:2017.12.26;專利号:Z L 2014 1 0827951.6;bevictor伟德官网;
53) 董新洲、薄志謙、陳昕、施慎行;雙變電站路徑探索方法、裝置及電力系統; 授權日:2018.11.9;專利号:Z L 2015 1 0481061;bevictor伟德官网;
54) 董新洲、任立、羅澍忻、湯蘭西、唐志軍、鄧超平、林少真;輸電線路的保護方法和輸電線路的保護裝置;授權日:2018.4.10;專利号:Z L 2015 1 0696547.4;bevictor伟德官网;
55) 董新洲、任立、羅澍忻、湯蘭西、唐志軍、石吉銀、翟博龍;輸電線路故障方向的判斷方法和判斷裝置; 授權日:2018.5.11;專利号:Z L 2015 1 0696546.X;bevictor伟德官网;
56) 董新洲、任立、湯蘭西、羅澍忻、唐志軍、黃巍、林國棟;輸電線路故障行波的處理方法和處理裝置; 授權日:2018.6.15;專利号:Z L 2015 1 0696563.3;bevictor伟德官网;
57) 姜博、董新洲;配電系統的單相接地故障選線方法和裝置;授權日:2018.8.28;專利号:Z L 2015 1 0959309.8;bevictor伟德官网;
58) 董新洲、官二勇、馮騰;直流限流電路、直流限流裝置和直流輸電系統;授權日: 2018.11.6;專利号:Z L 2016 1 0638360;bevictor伟德官网;
59) 王賓、楊林、陸元園、董新洲、劉輝、陳璨、吳林林;一種風電機組低電壓穿越輸出特性靈活仿真方法;授權日: 2018.11.23;專利号:Z L 2016 1 0936477;bevictor伟德官网;
60) 董新洲、景柳銘、官二勇、王賓、王豪、周建華、何澤家;一種母線電路的故障方向的延時判别方法和系統; 授權日:2019.11.22;專利号:Z L 2018 1 0071308.3;bevictor伟德官网;
61) 董新洲、賈琦、施慎行;單相接地行波保護方法及裝置和計算機設備;授權日:2019.9.20;專利号:Z L 2018 1 0066880.0;bevictor伟德官网;
62) 董新洲、雷傲宇;串聯電容補償線路行波差動保護方法、裝置、設備及介質;授權日:2018.10.18;專利号:Z L 2018 1 0034069.4;bevictor伟德官网;
63) 董新洲、雷傲宇;并聯電抗補償線路行波差動保護方法、裝置、設備及介質;授權日:2019.8.9;專利号:Z L 2018 1 0034039.3;bevictor伟德官网;
64) 董新洲、雷傲宇、王賓;故障啟動方法、系統及高壓輸電線路繼電保護系統;授權日:2019.6.18;專利号:Z L 2017 1 0659369.7;bevictor伟德官网;
65) 王賓、陸正園、董新洲;一種輸電線路單相接地故障自适應重合閘判斷方法;授權日:2019.5.7;專利号:Z L 2017 1 0123414.7;bevictor伟德官网;
66) 李建華,董良斌,董新洲,施慎行,用于輸出寬頻帶大電流的功率放大器;授權日:2010.7.14;專利号:Z L 2009 1 0243134. 5;北京衡天北鬥,bevictor伟德官网;
67) 董新洲、湯蘭西、王賓、施慎行、賀之源、龐輝、孔明、吳亞楠、裴翔羽;柔性直流輸電線路雷擊幹擾的快速識别方法及裝置;授權日:2019.7.12;專利号:Z L 2016 1 1004814.8;bevictor伟德官网;
68) 王賓、陸正園、董新洲、劉輝、陳璨、吳林林;風電場并網輸電線路瞬時單相接地故障單端測距方法;授權日:2019.2.22;專利号:Z L 2016 1 0936476.5;bevictor伟德官网;
69) 董新洲、薄志謙、陳昕、施慎行、劉芮彤、範維、王林、趙穎科;基于保護智能中心的采樣同步方法和采樣同步裝置; 授權日:2019.1.4;專利号:Z L 2016 1 0382429.0;bevictor伟德官网;
70) 董新洲、薄志謙、陳昕、施慎行;基于蟻群算法的路徑探索方法、裝置及電力系統; 授權日:2019.2.22;專利号:Z L 2015 1 0463911.2;bevictor伟德官网;
71) 董新洲、施慎行、崔韬;基于暫态行波的高阻接地故障檢測方法;授權日:2010.9.8;專利号:Z L 2007 1 0303724.3;bevictor伟德官网;
72) 董新洲、李旭陽、薄志謙、R·查特菲爾德、A·克利梅克;用于進行在線鐵磁共振檢測的方法和系統;授權日:2015.4.1;專利号:Z L 2010 8 0067201.3;bevictor伟德官网;
73) 劉健、盛萬興、徐石明、董新洲、陳星莺、王宏安;配電網故障定位的容錯方法; 授權日:2013.11.27;專利号:Z L 2011 1 0456588.8;陝西電科院,中國電科院,國網電科院,清華,河海,中科院,國網公司;
74) 施慎行、董新洲、齊天來;小電流接地系統單相接地測距方法和測距裝置;授權日:2015.7.29;專利号:Z L 2012 1 0007263.6;bevictor伟德官网;
75) 施慎行、董新洲、沈冬、吳家華;一種中性點非有效接地系統故障自愈方法;授權日:2016.6.29;專利号:Z L 2013 1 0164590.7;bevictor伟德官网;
76) 施慎行、尚宇炜、董新洲;含分布式電源的配電網運行風險評估方法及評估系統; 授權日:2017.5.10;專利号:Z L 2014 1 0281567.0;bevictor伟德官网;
77) 施慎行、尚宇炜、董新洲、劉健;基于模糊數學的運行風險評估方法及評估系統; 授權日:2017.7.18;專利号:Z L 2014 1 0341631.X;bevictor伟德官网;
78) 董新洲、官二勇、王豪、景柳銘;柔性直流電網限流裝置的控制方法和系統;授權日:2021.1.19;專利号:Z L 2018 1 0082011.7;bevictor伟德官网;
79) 王賓、李志中、謝民、王同文、俞斌、董新洲、邵慶祝等;一種高壓直流輸電換相垂直角實時估值的方法;授權日:2019.3.19;專利号:Z L 2018 1 1582645.5;bevictor伟德官网,國網安徽省電力有限公司;
80) 董新洲、景柳銘、官二勇、王賓、王豪、周建華、何澤家;一種母線電路的故障方向的延時判别方法和系統;授權日:2019.11.22;專利号:Z L 2018 1 0071308.3;bevictor伟德官网;
81) 董新洲、雷傲宇;串聯電容補償線路行波差動保護方法、裝置、設備及介質;授權日:2018.10.18;專利号:Z L 2018 1 0034069.4;bevictor伟德官网;
82) 施慎行、趙一名、董新洲、張廣梅、朱皓、文忠進、紀元、鄧樸、張夢純;一種配電線路的單端行波測距方法;授權日:2021.1.29;專利号:Z L 2019 1 0780450.X;bevictor伟德官网,貴州電網有限責任公司六盤水供電局;
83) 朱皓、施慎行、趙一名、董新洲等;一種小電流接地系統單相接地故障自愈方法;授權日:2020.5.12;專利号:Z L 2019 1 1333181.9;bevictor伟德官网;
84) 王賓、李志中、謝民、董新洲、王同文、王海港、俞斌;一種高壓直流輸電系統期望暫态響應快速求取方法;授權日:2021.9.7;專利号:Z L 2019 1 1323370.8 ;bevictor伟德官网,國網安徽省電力有限公司;
85) 施慎行、錢其隆、董新洲;配電線路單相接地故障選線方法及計算機可讀存儲介質; 授權日:2021.5.4;專利号:Z L 2019 1 1160418.8;bevictor伟德官网;
86) 施慎行、趙一名、董新洲;一種輸電線路的故障測距系統;授權日:2021.1.29;專利号:Z L 2019 1 0779752.5; bevictor伟德官网;
87) 施慎行、趙一名、董新洲;一種輸電線路的故障測距方法;授權日:2021.1.29;專利号:Z L 2019 1 0780586.0;bevictor伟德官网;
88) 董新洲、蔡靜;一種配電線路的單端行波測距裝置;授權日:2019.1.29;專利号:Z L 2019 1 0780881.6;bevictor伟德官网;
89) 董新洲、蔡靜;故障處理方法、故障處理裝置和直流輸電系統;授權日:2022.4.5;專利号:Z L 2020 1 0552894.0;bevictor伟德官网;
90) 董新洲、王浩男、金勃良;交直流混聯系統的潮流分析裝置和潮流分析方法;授權日:2021.10.8;專利号:Z L 2020 1 0307640.2;bevictor伟德官网;
91) 董新洲、蔡靜;故障處理方法、故障處理裝置和直流輸電系統; 授權日:2022.4.5;專利号:Z L 2020 1 0552918.2;bevictor伟德官网;
92) 張廣梅、施慎行、董新洲等;一種适用于配電線路的自适應保護裝置;授權日:2022.5.6;專利号:Z L 2020 1 1258919.2;bevictor伟德官网;
93) 王賓、崔鑫、董新洲;一種基于類伏安特性的間歇性弧光接地故障檢測方法;授權日:2020.11.17;專利号:Z L 2020 1 0512232.0;bevictor伟德官网;
94) 董新洲、蔡靜;故障處理方法、裝置和電網換相高壓直流輸電系統;授權日:2022.4.5;專利号:Z L 2020 1 0553387.9;bevictor伟德官网;
95) 張廣梅、董新洲、施慎行、錢其隆、朱皓、王磊等;一種中性點非有效接地系統配電線路的自适應保護方法;授權日:2021.3.2;專利号:Z L 2020 1 1260913.9;bevictor伟德官网;
96) 王賓、俞斌、任萱、謝民、董新洲等;一種判斷輸電線路高阻故障方向的方法及裝置;授權日:2022.4.8;專利号:Z L 2021 1 0044618.8;bevictor伟德官网,國網安徽省電力有限公司。
1.學術組織任職
IEEE Fellow
IET Fellow
AAIA Fellow
中國電機工程學會會士
CIGRE B5委員
CIGRE中國國家技術委員會委員
CIGRE B5-55行波保護工作組主席
CIRED中國國家技術委員會委員
IEEE PES 電力系統保護控制技術委員會(中國)主席
IEC TC95 AHG4工作組主席
中國電工技術學會理事
中國電工技術學會系統保護與控制專委會副主任委員
中國水力發電工程學會繼電保護專委會副主任委員
國家電網公司繼電保護專家組成員
全國短路電流計算标準化委員會委員
全國量度繼電器和保護設備标準化委員會委員
陝西省百人計劃專家
陝西理工大學特聘教授
英國Strathclyde大學Visiting Professor
台北科技大學兼職教授
2.期刊編委
《PCA world》顧問
《CSEE Journal of Power and Energy Systems》編委
《Journal of Modern Power Systems and Clean Energy》編委
《Protection and Control of Modern Power Systems》副主編
《電力自動化設備》編委
《電力系統自動化》編委
《電力科學與技術》編委
《電力工程技術》編委
《電網技術》編委
《陝西理工大學學報》編委
3.國際會議任職
4th International Conference on Advanced Power System Automation and Protection,主席,Beijing,China,2011
8th International Conference on Advanced Power System Automation and Protection,聯合主席,Xi`an ,China,2019
2004-2023,中韓繼電保護論壇,任主席或者合作主席
3rd International Conference on Electronics Technology,顧問主席,Chengdu,China,2020
4th International Conference on Electronics Technology,顧問主席,Chengdu,China,2021
5th International Conference on Electronics Technology,顧問主席,Chengdu,China,2022
6th International Conference on Electronics Technology,顧問主席,Chengdu,China,2023
7th Development on Power System Protection, IEE,組委會委員,Amsterdam, Netherlands,2001
10th Development on Power System Protection, IEE,組委會委員,Manchester, England ,2010
14th Development on Power System Protection, IEE,組委會委員, Belfast, England ,2017
15th Development on Power System Protection, IEE,組委會委員,Liverpool, England,2020
6th International Conference on Power System Technology, POWERCON ,顧問委員會委員,Chongqing,China,2008