论文

1. 肖晃庆,黄小威,李岩,等.适用于二极管不控整流送出的海上风电机组无功功率同步控制策略[J].高电压技术,2022,48(10):3820-3828.DOI:10.13336/j.1003-6520.hve.20220348.
2. 林建熙,刘必成,肖晃庆,等.大规模海上风电接入的受端电网频率特性[J].广东电力,2023,36(03):23-31.
3. 伍双喜,刘洋,朱誉,等.城区电网直流互联系统交流短路后电能质量优化策略[J].供用电,2023,40(10):55-62.DOI:10.19421/j.cnki.1006-6357.2023.10.007.
4. 甘慧辰,肖晃庆,黄莹.用于海上风电的DRU-MMC混合换流器控制策略和容量选取[J/OL].电力系统自动化,1-13[2024-08-25].http://kns.cnki.net/kcms/detail/32.1180.TP.20231009.0743.002.html.
5. 黄莹,黄小威,肖晃庆,等.基于二极管整流单元的海上风电柔性低频送出系统黑启动策略[J/OL].高电压技术,1-11[2024-08-25].https://doi.org/10.13336/j.1003-6520.hve.20231246.
6. 朱琼海,肖晃庆.基于模块化多电平换流器的超级电容储能系统高效仿真方法[J].电力自动化设备,2024,44(06):185-191.DOI:10.16081/j.epae.202312006.
7. 朱琼海,肖晃庆.基于模块化多电平换流器的超级电容储能系统高效仿真方法[J/OL].电力自动化设备,1-8+11+10+9[2024-08-25].https://doi.org/10.16081/j.epae.202312006.
8. 黄云峰,肖晃庆,黄莹,等.具备故障限流和快速故障清除能力的多端口直流断路器拓扑与控制策略[J].高电压技术,2024,50(05):2128-2145.DOI:10.13336/j.1003-6520.hve.20232238.
9. 樊玮,何宏亮,肖晃庆,等.基于海上风电集群并网的统一潮流控制器与储能协同优化配置研究[J/OL].现代电力,1-13[2024-08-25].https://doi.org/10.19725/j.cnki.1007-2322.2023.0229.
10. 黄云峰,肖晃庆,黄莹,等.具备故障限流和快速故障清除能力的多端口直流断路器拓扑与控制策略[J].高电压技术,2024,50(05):2128-2145.DOI:10.13336/j.1003-6520.hve.20232238.
11. 刘宇,朱琼海,苗璐,等.基于同步型ADMM的含海上风电场电力系统分布鲁棒无功优化[J].广东电力,2024,37(06):21-31.
12. 肖晃庆,朱琼海,黄莹,等.用于大规模新能源架空线路送出的储能型柔性直流输电系统[J/OL].电力系统自动化,1-18[2024-08-25].http://kns.cnki.net/kcms/detail/32.1180.TP.20240625.1838.002.html.
13. 肖晃庆,甘慧辰.基于桥臂并联混合型换流器的海上风电直流送出系统[J/OL].高电压技术,1-15[2024-08-25].https://doi.org/10.13336/j.1003-6520.hve.20240322.

---

1. Sun K ,Xiao H ,Pan J , et al.A Station-hybrid HVDC System Structure and Control Strategies for Cross-seam Power Transmission[J].IEEE Transactions on Power Systems,2020,PP(99):1-1.
2. Xiao H ,Sun K ,Pan J , et al.Operation and control of hybrid HVDC system with LCC and full-bridge MMC connected in parallel[J].IET Generation, Transmission & Distribution,2020,14(7):1344-1352.
3. Tang Y ,Xu Z ,Xiao H , et al.Determination of operating conditions of LCC for PCOV calculation based on detailed analysis of commutation overshoot[J].IET Generation, Transmission & Distribution,2020,14(8):1566-1574.
4. Sun K ,Xiao H ,You S , et al.Frequency secure control strategy for power grid with large-scale wind farms through HVDC links[J].International Journal of Electrical Power and Energy Systems,2020,117105706-105706.
5. Xiao H ,Sun K ,Pan J , et al.Operation and control of hybrid HVDC system with LCC and full-bridge MMC connected in parallel[J].IET Generation, Transmission & Distribution,2020,14(7):1344-1352.
6. Sun K ,Xiao H ,You S , et al.Frequency secure control strategy for power grid with large-scale wind farms through HVDC links[J].International Journal of Electrical Power and Energy Systems,2020,117105706-105706.
7. Wu S ,Liu Y ,Zhu Y , et al.Adaptive compound power quality disturbance detection via OMD and improved networks for renewable energy systems[J].Frontiers in Energy Research,2024,12
8. Liu B ,Xiao H ,Yang P , et al.Influence of the DC frequency limit controller on the frequency characteristics of the multi-area asynchronous interconnected power grid with renewable energy integration[J].Frontiers in Energy Research,2024,12
9. Dai L ,Xiao H ,Yang P .Robust optimal power flow considering uncertainty in wind power probability distribution[J].Frontiers in Energy Research,2024,12