(1)课程团队师生近几年取得的部分学术成果
1. Qi Huang, Shi Jing, Wei Zhen. Innovative Testing and Measurement Solutions for Smart Grid. Wiley-IEEE Press, Feb., 2015
2. Dongsheng Cai, Qi Huang*,Jian Li, Zhenyuan Zhang, Yufei Teng. Stabilization of Time-delayed Power System with Combined Frequency Domain IQC and Time Domain Dissipation Inequality. IEEE Transactions on Power Systems, 2018, DOI: 10.1109/TPWRS.2018.2808462
3. Zhouqiang Wang, Qi Huang*. A Closed Normal Form Solution under Near-Resonant Modal Interaction in Power Systems. IEEE Transactions on Power Systems, Vol. 32 (6), 2017, pp. 4570-4578
4. Qi Huang, Shi Jing, Jian Li, Dongsheng Cai, Jie Wu and Wei Zhen. Smart Substation: State of Art and Future Development. IEEE Transactions on Power Delivery, Vol.32 (2), 2017, pp. 1098-1105
5. Jian Li, Zhaohui Chen, Dongsheng Cai, Wei Zhen, Qi Huang*. Delay-dependent Stability Control for Power System with Multiple Time-delays. IEEE Transactions on Power Systems, Vol. 31 (3), 2016, pp. 2316 – 2326
6. Arsalan Habib Khawaja, Qi Huang*, Jian Li, Zhenyuan Zhang. Estimation of Current and Sag in Overhead Power Transmission Lines with Optimized Magnetic Field Sensor Array placement. IEEE Transactions on Magnetics, Vol. 53 (5), 2017, pp. 2017, pp. 1-10
7. Arsalan Habib Khawaja, Qi Huang*. Estimating Sag and wind-induced Motion of Overhead Power Lines with Current and Magnetic-Flux density measurements. IEEE Transactions on Instrumentation and Measurement, Vol. 66(5), 2017, pp. 897 - 909
8. Shi Jing, Qi Huang*, Jie Wu, Wei Zhen. A Novel Whole-View Test Approach for Onsite Commissioning in Smart Substation. IEEE Transactions on Power Delivery,Vol. 28 (3), 2013, pp. 1715-22
9. Qi Huang, Wei Zhen, Philip W. T. Pong. A novel approach for fault location of overhead transmission line with non-contact magnetic field measurement. IEEE Trans. Power Delivery, Vol. 27 (3), 2012, pp. 1186 – 1195
10. Qi Huang, Yuanqiang Song, L. Jiang, Philip Pong. Magnetics in Smart Grid. IEEE Transactions on Magnetics, Vol. 50 (7), 2014, pp. 1-7
11. Qi Huang, Xiaohua Wang, Wei Zhen, Philip W. T. Pong. Broadband Point Measurement of Transient Magnetic Interference in Substations With Magnetoresistive Sensors. IEEE Transactions on Magnetics, Vol. 50 (7), 2014, pp. 1-7
12. Di Cao, Weihao Hu*, Xiao Xu, Tomislav Dragicevic, Qi Huang, Zhou Liu, Zhe Chen and Frede Blaabjerg “Bidding strategy for trading wind energy and purchasing reserve of wind power producer – A DRL based approach", International Journal of Electrical Power & Energy Systems, 117 (2020), pp. 1-10. (SCI,影响因子=4.418,中科院二区)
13. Bin Zhang, Weihao Hu*, Di Cao, Qi Huang, Zhe Chen and Frede Blaabjerg, “Deep reinforcement learning–based approach for optimizing energy conversion in integrated electrical and heating system with renewable energy”, Energy Conversion and Management, Volume 202, pp. 1-13, 2019. (SCI,影响因子=7.181,中科院一区)
14. Jian Li, Ni Wang, Dao Zhou, Weihao Hu*, Qi Huang, Zhe Chen and Frede Blaabjerg “Optimal Reactive Power Dispatch of Permanent Magnet Synchronous Generator-Based Wind Farm Considering Levelised Production Cost Minimisation ", Renewable Energy, 145 (2020), pp. 1-12. (SCI,影响因子=5.439,中科院二区)
15. Guozhou Zhang, Weihao Hu*, Di Cao, Jianbo Yi, Qi Huang, Zhou Liu, Zhe Chen and Frede Blaabjerg “A data-driven approach for designing STATCOM additional damping controller for wind farms", International Journal of Electrical Power & Energy Systems, 117 (2020), pp. 1-13. (SCI,影响因子=4.418,中科院二区)
16. Xiao Xu, Weihao Hu*, Di Cao, Qi Huang, Cong Chen, Zhe Chen “Optimized sizing of a standalone PV-wind-hydropower station with pumped-storage installation hybrid energy system", Renewable Energy, 147 (2020), pp. 1481-1431. (SCI,影响因子=5.439,中科院二区)
17. Xiawei Wu, Weihao Hu*, Qi Huang, Cong Chen, Zhou Liu, Zhe Chen “Optimal power dispatch strategy of onshore wind farms considering environmental impact", International Journal of Electrical Power & Energy Systems, 116 (2020), pp. 1-12. (SCI,影响因子=4.418,中科院二区)
18. Pengfei Li, Weihao Hu*, Xiao Xu, Qi Huang, Zhou Liu and Zhe Chen, “A frequency control strategy of electric vehicles in microgrid using virtual synchronous generator control”, Energy, Volume XXX, pp. X-X, 2019. (SCI,影响因子=5.537,中科院二区)
19. Rui Hu, Weihao Hu*, Nuri Gokmen, Pengfei Li, Qi Huang and Zhe Chen “High resolution wind speed forecasting based on wavelet decomposed phase space reconstruction and self-organizing map", Renewable Energy, 140 (2019), pp. 17-31. (SCI,影响因子=5.439,中科院二区)
20. Xiao Xu, Weihao Hu*, Di Cao, Wen Liu, Zhe Chen, Henrik Lund, "Implementation of repowering optimization for an existing photovoltaic-pumped hydro storage hybrid system: A case study in Sichuan, China," International Journal of Energy Research, vol. 43 (14), pp. 8463-8480, 2019. (SCI,影响因子=3.343,中科院二区)
21. Ni Wang, Jian Li, Weihao Hu*, Baohua Zhang, Qi Huang and Zhe Chen “Optimal reactive power dispatch of a full-scale converter based wind farm considering loss minimization", Renewable Energy, 139 (2019), pp. 292-301. (SCI,影响因子=5.439,中科院二区)
22. Pengfei Li, Weihao Hu*, Rui Hu, Qi Huang, Jun Yao and Zhe Chen “Strategy for wind power plant contribution to frequency control under variable wind speed", Renewable Energy, 130 (2019), pp. 1226-1236. (SCI,影响因子=5.439,中科院二区)
23. Baohua Zhang, Mohsen Soltani, Weihao Hu*, Peng Hou, Qi Huang and Zhe Chen, “Optimized Power Dispatch in Wind Farms for Power Maximizing Considering Fatigue Loads,” IEEE Transactions on Sustainable Energy, vol. 9, no. 2, pp.862-871, 2018. (SCI,影响因子=7.65,中科院一区)
24. Peng Hou, Peter Enevoldsen, Joshua Eichman, Weihao Hu, Mark Z. Jacobson and Zhe Chen, “Optimizing investments in coupled offshore wind -electrolytic hydrogen storage systems in Denmark”, Journal of Power Sources, Volume 359, Pages 186-197, 2017. (SCI,影响因子=7.467,中科院一区)
25. Peng Hou, Weihao Hu*, Mohsen Soltani, Cong Chen, Zhe Chen, "Combined Optimization for Offshore Wind Turbine Micro Siting", Applied Energy, Vol. 189, pp. 271-282, 2017. (SCI,影响因子=8.426,中科院一区)
26. Peng Hou, Weihao Hu*, Mohsen Soltani, Cong Chen, Baohua Zhang and Zhe Chen, "Offshore Wind Farm Layout Design Considering Optimized Power Dispatch Strategy," IEEE Transactions on Sustainable Energy, vol. 8, no. 2, pp.638-647, 2017. (SCI,影响因子=7.65,中科院一区)
27. Peng Hou, Weihao Hu*, Cong Chen, Mohsen Soltani and Zhe Chen, “Optimization of offshore wind farm layout in restricted zones”, Energy, Volume 113, pp. 487-496, 2016. (SCI,影响因子=5.537,中科院二区)
28. Peng Hou, Weihao Hu*, Cong Chen and Zhe Chen, "Overall Optimization for Offshore Wind Farm Electrical System," Wind Energy, vol. 20, pp.1017-1032, 2016. (SCI,影响因子=3.125,中科院二区)
29. Baohua Zhang, Peng Hou, Weihao Hu*, Mohsen Soltani, Cong Chen and Zhe Chen, “A Reactive Power Dispatch Strategy with Loss Minimization for a DFIG Based Wind Farm,” IEEE Transactions on Sustainable Energy, Vol. 7, No.3, pp.914-923, 2016. (SCI,影响因子=7.65,中科院一区)
30. Nuri Gokmen, Weihao Hu*, Peng Hou, Zhe Chen, Dezso Sera and Sergiu Spataru “Investigation of wind speed cooling effect on PV panels in windy locations", Renewable Energy, 90 (2016), pp. 283-290, 2016. (SCI,影响因子=5.439)
31. Elsayed Abulanwar, Weihao Hu*, Zhe Chen and Florin Iov “Adaptive Voltage Control Strategy for Variable-Speed Wind Turbine Connected to a weak network", IET Renewable Power Generation, Vol. 10, No. 2, pp. 238-249, 2016. (SCI,影响因子=3.605,中科院三区)
(2) 课程团队师生近几年申请的部分发明专利
[1] 黄琦; 赫瓦贾·阿尔萨兰·哈比卜; 郑爱; 井实; 李坚; 张真源; 易建波.一种架空输电线相电流和空间状态的监测方法[P].中国, CN106597216A 发明专利,2017.04.26
[2] 张真源; 黄琦; 李坚; 鲁尔洁; 井实; 易建波; 陈峦; 桂勋; 周统汉; 梁浩; 何亚.一种用于风电系统的缓存替换方法[P].中国,CN106294216A 发明专利,2017.01.04
[3] 黄琦; 李坚; 何亚; 张真源; 井实; 易建波; 桂勋; 周统汉; 梁浩; 鲁尔洁. 一种风电功率超短期预测方法[P].中国,CN106295857A 发明专利,2017.01.04
[4] 易建波; 井实; 黄琦; 吴新保; 韩蕾. 一种面向变电站备用电源系统的智能一体化监控方法[P].中国,CN106300684A 发明专利,2017.01.04
[5] 黄琦; 井实; 郑爱; 甄威; 常政威; 姜振超. 一种具有联动功能的智能变电站监控系统[P].中国,CN106230965A 发明专利,2016.12.14
[6] 李坚; 黄琦; 周统汉; 陈峦; 何亚; 张真源; 井实; 梁浩; 鲁尔洁. 基于混合Laplace分布的风电功率波动量概率分布模型建立方法[P].中国,CN105939026A 发明专利,2016.09.14
[7] 滕云龙; 黄琦; 井实; 李坚; 卢有亮. 一种双星座组合导航系统几何精度因子计算方法[P].中国,CN105589078A 发明专利,2016.05.18
[8] 卢有亮; 黄琦; 井实; 滕云龙; 易建波; 李坚. 一种支持RTOS的嵌入式系统建模方法[P].中国,CN105573763A 发明专利,2016.05.11
[9] 井实; 黄琦; 刘欢; 易建波; 李坚; 吴新保; 苏根; 何宇航. 一种远距离无线向量仪[P].中国,CN105445534A 发明专利,2016.03.30
[10] 刘影; 张有润; 黄琦; 腾云龙; 王均. 一种变压器油中颗粒杂质的在线检测器[P].中国,CN105424572A 发明专利,2016.03.23
[11] 刘影; 张有润; 黄琦; 王均. 一种水轮发电机定子槽放电检测器[P].中国,CN105353285A 发明专利,2016.03.24
[12] 黄琦; 井实; 李坚; 滕云龙; 陈云; 朱超; 任曼曼; 江晨颖; 黄卿; 苏根; 周瑜; 姚亮; 何宇航; 尹文; 石俊; 连利波. 一种智能变电站站控层设备辅助调试系统[P].中国,CN105141475A 发明专利,2015.12.09
[13] 黄琦; 李坚; 井实; 陈云; 郑爱; 蔡东升; 江晨颖; 罗漪澜; 尹温硕; 黄卿. 一种基于B/S架构的电网信息机房三维可视化管理平台[P].中国,CN105117835A 发明专利,2015.12.02
[14 常政威; 黄琦; 叶有名; 徐天昊; 何笠; 赵敏; 冯世林. 变电站环境监测模拟装置、系统及方法[P].中国,CN104977856A 发明专利,2015.10.14
[15] 常政威; 黄琦; 叶有名; 徐天昊; 崔弘; 井实; 冯世林. 一种视频信号网络损伤模拟装置、系统及方法[P].中国,CN104918042A 发明专利,2015.09.16
[16] 吴杰; 刘明忠; 姜振超; 黄琦; 井实; 苏根; 刘欢; 吴新宝. 一种用于变电站站系统调试的无线测试系统及测量方法[P].中国,CN104880624A 发明专利,2015.09.02
[17] 陈勇; 周虎; 刘霞; 黄琦.位置伺服系统位置环性能测试方法及测试系统[P].中国, CN102495622B 发明专利,2016.06.29
[18] 黄琦;王均;丁理杰;刘影;魏巍;郭巍;张周晶;胡晓东.一种变电站母线负荷特性测试记录装置[P].中国, CN103884931B发明专利,2016.06.22
[19] 丁理杰;王均;黄琦;魏巍;刘影;张周晶;郭巍;朱超.一种基于变电站量测的负荷模型辨识方法[P].中国,CN103872678B 发明专利,2016.02.10
[20] 易建波;黄琦; 井实; 张昌华; 卢有亮; 孟劲松; 蔡东升.一种电力系统低频振荡检测方法[P].中国, CN102937668B发明专利,分类号:H02J13/00(2006.01)I,2015.04.08
[21] 易建波; 黄琦; 王均; 何四海; 井实; 张昌华.一种农网近实时电量监测与调度管理系统[P].中国,CN102969796B 发明专利,分类号:H02J13/00(2006.01)I,2015.04.08
[22] 易建波; 黄琦; 井实; 张昌华; 卢有亮; 孟劲松; 蔡东升. 一种便携式电力系统低频振荡检测装置[P].中国,CN102944778B 发明专利,分类号:G01R31/00(2006.01)I,2015.06.24
[23] 张昌华; 王刚; 罗曼; 廉静如; 黄琦; 左琳; 陈树恒; 刘群英. 一种单相逆变器控制系统 [P].中国,CN103683331B 发明专利,分类号:H02J3/38(2006.01)I; H02M7/5387(2007.01)I ,2015.07.15
(3)课程团队师生近几年获得的部分教学荣誉与奖励
四川省教学成果三等奖(2018)
2017年工信部 “中国首届区块链开发大赛”二等奖(高校参与单位最高奖励)(2017)
电子科技大学教学成果一等奖(2016)
电子科技大学教学成果二等奖(2016)
全国大学生统计建模大赛研究生组二等奖(2017)
华为杯第十四届中国研究生数学建模竞赛一等奖(2017)
第二届中国科学院研究生学术论坛三等奖(2017)
华为杯第十一届中国研究生电子设计竞赛全国总决赛团队二等奖(2016)
华为杯第十一届中国研究生电子设计竞赛华为命题专项奖一等奖(2016)
华为杯第十一届中国研究生电子设计竞赛西南分赛区一等奖(2016)
第十五届研究生五一数学建模竞赛二等奖(2018)
亚洲智能电网创新国际会议最佳论文奖(2019)
(4) 课程团队师生在研的部分科研项目:
国家重点研发计划(2017YFB0902002),多可再生能源发电基地间及其与直流输电的动态相互作用分析,2017-2020
国家自然科学基金,大型陆上风电场风机布局与集电系统综合优化研究,2018-2020
国家重点研发计划,分布式光伏与梯级小水电互补联合发电技术研究及应用示范,2018-2020
国家自然科学基金委员会与英国皇家学会合作交流项目,考虑负荷供电可靠性的分布式新能源与抽水蓄能联合优化研究,2019-2021
横向课题,燃煤电厂智慧电气控制系统研发,2019 -2021
国家自然科学基金项目(No. 51977025),2020-2023
四川省科技计划项目(No. 2019YFG0014),2019-2020
