ANALYSIS OF POWER QUALITY CHARACTERISTICS OF TIDAL CURRENT POWER GENERATION DEVICE BASED ON POWER INTERVAL DIVISION

Zhang Yuanfei; Wang Xiangnan; Xia Hainan; Xue Caixia; Guo Yi; Jia Ning

doi:10.19912/j.0254-0096.tynxb.2020-0860

PDF(1600 KB)

Acta Energiae Solaris Sinica ›› 2022, Vol. 43 ›› Issue (4) : 506-511. DOI: 10.19912/j.0254-0096.tynxb.2020-0860

Topics on Key Technologies for Safety of Electrochemical Energy Storage Systems and Echelon Utilization of Decommissioned Power Batteries

ANALYSIS OF POWER QUALITY CHARACTERISTICS OF TIDAL CURRENT POWER GENERATION DEVICE BASED ON POWER INTERVAL DIVISION

Zhang Yuanfei, Wang Xiangnan, Xia Hainan, Xue Caixia, Guo Yi, Jia Ning

Author information +

History +

Abstract

Based on the power quality data obtained from the open sea test of tidal current power generation in China, the analysis method of power interval division is proposed in this paper. The power interval is divided according to the rated power of the device, the power quality data of each power interval is counted, the power quality characteristics of each power interval are analyzed independently, and the causes of the power quality problems and the influence on the power grid after the grid connection are described. The power interval division method can improve the accuracy of power quality characteristics analysis of tidal current energy generation devices, and help to find out the causes of power quality problems. The method provides the basis for the optimization and upgrading, and the refined evaluation of power quality of tidal current power generation devices.

Key words

tidal power / power interval / power quality / sea test

Cite this article

EndNote

Ris (Procite)

Bibtex

Download Citations

Zhang Yuanfei, Wang Xiangnan, Xia Hainan, Xue Caixia, Guo Yi, Jia Ning. ANALYSIS OF POWER QUALITY CHARACTERISTICS OF TIDAL CURRENT POWER GENERATION DEVICE BASED ON POWER INTERVAL DIVISION[J]. Acta Energiae Solaris Sinica. 2022, 43(4): 506-511 https://doi.org/10.19912/j.0254-0096.tynxb.2020-0860

References

[1] 董伟杰, 白晓民, 朱宁辉, 等. 间歇式电源并网环境下电能质量问题研究[J]. 电网技术, 2013, 37(5): 1265-1271.
DONG W J, BAI X M, ZHU N H, et al. Discussion on the power quality under grid-connection of intermittent power sources[J]. Power system technology, 2013, 37(5): 1265-1271.
[2] 林海雪.电压电流频率和电能质量国家标准应用手册[M]. 北京: 中国电力出版社, 2001.
LIN H X.Application manual of national standards for voltage, current, frequency and power quality[M]. Beijing: China Electric Power Press, 2001.
[3] 颜全椿, 顾文, 范立新, 等. 考虑分功率区间的风电场电能质量综合评估方法[J]. 电气技术, 2018, 19(2): 75-79.
YAN Q C, GU W, FAN L X, et al. Power quality comprehensive evaluation method for wind plant considering fractional power section[J]. Electrical engineering, 2018, 19(2): 75-79.
[4] 倪赛赛, 陈仕彬, 刘科.基于功率区间划分的光伏电能质量测试与分析[J]. 电气自动化, 2016, 38(4): 68-70, 74.
NI S S, CHEN S B, LIU K, et al. Test and analysis of photovoltaic power quality based on power interval division[J]. Electrical automation, 2016, 38(4): 68-70, 74.
[5] 王项南, 张原飞, 夏海南, 等. 我国自主研发潮流能发电装置的现场测试与评价分析[J]. 仪器仪表学报, 2018, 39(7): 226-234.
WANG X N, ZHANG Y F, XIA H N, et al. The field test and evaluation of self-developed tidal power generation device[J]. Chinese journal of scientific instrument, 2018, 39(7): 226-234.
[6] MAC-ENRI J, REED M, THIRINGER T.Power quality performance of the tidal energy converter SeaGen[C]//ASME 2011 30th International Conference on Ocean, Offshore and Arctic Engineering(OMAE2011), Rotterdam,Netherlands, 2011.
[7] GB/T 20320—2013, 风力发电机组-电能质量测量和评估方法[S].
GB/T 20320—2013, Measurement and assessment of power quality characteristics of wind turbines generator systems[S].
[8] 曾江, 凌毓畅.光伏电站接入电网的电能质量分析及其应用[J]. 广东电力, 2017, 30(8): 38-46.
CENG J, LING Y C, et al. Analysis and application of power quality of grid-connected photovoltaic power station[J]. Guangdong electric power, 2017, 30(8): 38-46.
[9] GB 12325—2008, 电能质量-供电电压偏差[S].
GB 12325—2008, Power quality-deviation of supply voltage[S].
[10] GB/T 15945—2008, 电能质量-电力系统频率偏差[S].
GB/T 15945—2008, Power quality-frequency deviation for power system[S].
[11] GB/T 14549—1993, 电能质量-公用电网谐波[S].
GB/T 14549—1993, Power quality-harmonics in public supply network[S].
[12] GB/T 15543—2008, 电能质量-三相允许不平衡度[S].
GB/T 15543—2008, Power quality-three-phase voltage unbalance[S].
[13] GB 12326—2008, 电能质量-电压允许波动和闪变[S].
GB 12326—2008, Power quality-voltage fluctuation and flicker[S].
[14] MAC-ENRI J, REED M, THIRINGER T.Influence of tidal parameters on SeaGen flicker performance[J]. Philosophical transactions of the Royal Society A: mathematical physical, and engineering sciences, 2013, 371(1985): 20120247.