Huadian Technology ›› 2021, Vol. 43 ›› Issue (8): 11-19.doi: 10.3969/j.issn.1674-1951.2021.08.002
• AI Applications in New Energy • Previous Articles Next Articles
LIU Huiqiang(), MU Teng, XING Huadong, WU Haiyan, LIU Jianqiang, LEI Ke, GUO Qi
Received:
2021-04-28
Revised:
2021-06-04
Online:
2021-08-25
Published:
2021-08-24
CLC Number:
LIU Huiqiang, MU Teng, XING Huadong, WU Haiyan, LIU Jianqiang, LEI Ke, GUO Qi. Research on PV power grid connection stability based on decoupled active disturbance rejection control[J]. Huadian Technology, 2021, 43(8): 11-19.
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URL: https://www.hdpower.net/EN/10.3969/j.issn.1674-1951.2021.08.002
[1] | 吴永斌, 王素娥, 熊连松, 等. 光储一体化并网发电系统的惯量阻尼机理分析[J]. 电力系统自动化, 2020, 44(6):129-137. |
WU Yongbin, WANG Su'e, XIONG Liansong, et al. Analysis on inertia and damping mechanism of grid-connected power generation system integrated with photovoltaic and energy storage systems[J]. Power System Automation, 2020, 44(6):129-137. | |
[2] | 刘金豆, 成杰, 俞高伟. 基于低压直流配电网并网的并离网一体光储发电系统研究[J]. 华电技术, 2021, 43(4):63-70. |
LIU Jindou, CHENG Jie, YU Gaowei. Research on a PV-energy storage system with integration of grid-connection and disconnection modes based on low-pressure DC distribution network[J]. Huadian Technology, 2021, 43(4):63-70. | |
[3] | 王晗雯, 鲁胜, 周照宇. 光伏-混合储能微电网协调控制及经济性分析[J]. 华电技术, 2020, 42(4):31-36. |
WANG Hanwen, LU Sheng, ZHOU Zhaoyu. Coordinated control and economic analysis on a PV-hybrid energy storage micro-grid system[J]. Huadian Technology, 2020, 42(4):31-36. | |
[4] | 唐一铭, 顾文, 蒋琛, 等. 大型并网光伏电站无功电压控制策略与现场试验[J]. 电力电容器与无功补偿, 2018, 39(5):142-148. |
TANG Yiming, GU Wen, JIANG Chen, et al. Reactive power and voltage control strategy and field test of large grid connected photovoltaic power station[J]. Power Capacitor & Reactive Power Compensation, 2018, 39(5):142-148. | |
[5] | 涂岗刚. 提升电力系统稳定性的“源网储”多元互动控制与优化[D]. 杭州:浙江大学, 2021. |
[6] | GAO K, YUAN L, ZHANG Z, et al. The study of STATCOM-BESS damping power system oscillations based on DTA method[C]// 2016 International Congress on Computation Algorithms in Engineering, 2016, Thailand:Bangkok. |
[7] | 余希瑞, 周林, 郭珂, 等. 多模型自适应控制应用于大型光伏电站阻尼区间振荡[J]. 中国电机工程学报, 2017, 37(14):4036-4043. |
YU Xirui, ZHOU Lin, GUO Ke, et al. Application of multiple-model adaptive control for damping inter-area oscillations by large-scale photovoltaic plant[J]. Proceedings of the CSEE, 2017, 37(14):4036-4043. | |
[8] | 潘晓杰, 张立伟, 张文朝, 等. 基于飞蛾扑火优化算法的多运行方式电力系统稳定器参数协调优化方法[J]. 电网技术, 2020, 44(8):3038-3046. |
PAN Xiaojie, ZHANG Liwei, ZHANG Wenchao, et al. Multi-operation mode PSS parameter coordination optimization method based on moth-flame optimization algorithm[J]. Power System Technology, 2020, 44(8):3038-3046. | |
[9] | 任伟. 大型光伏电站参与抑制电力系统低频振荡控制策略研究[D]. 重庆:重庆大学, 2015. |
[10] | 吴渊军, 陈亮, 王亚迪, 等. 基于P-DPC的STATCOM/BESS微电网协同控制策略改进[J]. 安徽工程大学学报, 2018, 33(4):70-76. |
WU Yuanjun, CHEN Liang, WANG Yadi, et al. Improvement of synergistic control strategy based on P-DPC for the STACOM/BESS in microgrid[J]. Journal of Anhui Polytechnic University, 2018, 33(4):70-76. | |
[11] | 孙振宇, 沈明忠. 基于工业厂区的多能互补系统在微能源网的应用[J]. 华电技术, 2019, 41(11):46-48. |
SUN Zhenyu, SHEN Mingzhong. Application of multi-energy complementary system in micro-energy network of an industrial plant[J]. Huadian Technology, 2019, 41(11):46-48. | |
[12] | 郑治华. 多电平STATCOM/BESS协调控制风电场功率的研究[D]. 哈尔滨:东北农业大学, 2017. |
[13] | 王彦. 非规则波动下直线航迹自抗扰控制数学模型设计[J]. 舰船科学技术, 2019, 41(24):25-27. |
WANG Yan. Mathematical model design of linear track active disturbance rejection control under irregular fluctuation[J]. Ship Science and Technology, 2019, 41(24):25-27. | |
[14] | 卢凯文, 杨忠, 张秋雁, 等. 推力矢量可倾转四旋翼自抗扰飞行控制方法[J]. 控制理论与应用, 2020, 37(6):1377-1387. |
LU Kaiwen, YANG Zhong, ZHANG Qiuyan, et al. Active disturbance rejection flight control method for thrust-vectored quadrotor with tiltable rotors[J]. Control Theory & Applications, 2020, 37(6):1377-1387. | |
[15] | 毕格琳. 分布式电源接入对配电网影响的研究[D]. 济南:山东大学, 2019. |
[16] | 冯力勇, 张云. 考虑电池能效的电网侧电化学储能电站最优功率控制策略研究[J]. 华电技术, 2020, 42(4):37-41. |
FENG Liyong, ZHANG Yun. Optimal power control strategy of grid-side electrochemical energy storage stations considering battery energy efficiency[J]. Huadian Technology, 2020, 42(4):37-41. | |
[17] | 赵龙, 岳义博. 大型储能电站智能辅助调试系统的设计及应用[J]. 华电技术, 2019, 41(11):53-56. |
ZHAO Long, YUE Yibo. Design and application of intelligent auxiliary debugging system for large-scale energy storage power station[J]. Huadian Technology, 2019, 41(11):53-56. | |
[18] | 刘会强. 风电场中STATCOM抑制系统功率振荡的研究[D]. 保定:华北电力大学, 2018. |
[19] | 马燕峰, 刘会强, 俞人楠. 风电场中STATCOM抑制系统功率振荡[J]. 电力自动化设备, 2018, 38(2):67-73. |
MA Yanfeng, LIU Huiqiang, YU Rennan. Power oscillation suppression based on STATCOM in wind farm[J]. Electric Power Automation Equipment, 2018, 38(2):67-73. | |
[20] | 程鑫. 光伏微网STATCOM/BESS控制策略研究[D]. 合肥:安徽理工大学, 2019. |
[21] | KUNDUR P. Power system stability and control[M]. New York:McGraw-Hill Incorporated, 1994:35-48. |
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