中压配电网串联电容补偿调压技术研究及应用

对于供电半径大、负荷波动较大的中压配电线路,由于线路中的电压损耗较大,常常造成负荷端的电压值偏低、电压波动大,难以满足电压质量要求。通过对不同负荷情况下,对补偿电容量的精确计算,得到中压辐射线路的在电容串联补偿下稳定末端电压的最大输送容量,并通过Matlab仿真验证。在某电力公司10kV线路接上串联电容补偿器,其正常运行并且稳定负荷侧电压验证了串联电容补偿调压的实用性。...

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Bibliographic Details
Published in电力系统保护与控制 Vol. 40; no. 13; pp. 140 - 144
Main Author 吴勇海 蔡金锭
Format Journal Article
LanguageChinese
Published 福州大学电气工程与自动化学院,福建 福州 350108 2012
Subjects
串联电容补偿
串联电容补偿器
最大输送容量
电压调节
辐射配电线路
串联电容补偿器
串联电容补偿
辐射配电线路
最大输送容量
电压调节
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ISSN1674-3415

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Summary:对于供电半径大、负荷波动较大的中压配电线路,由于线路中的电压损耗较大,常常造成负荷端的电压值偏低、电压波动大,难以满足电压质量要求。通过对不同负荷情况下,对补偿电容量的精确计算,得到中压辐射线路的在电容串联补偿下稳定末端电压的最大输送容量,并通过Matlab仿真验证。在某电力公司10kV线路接上串联电容补偿器,其正常运行并且稳定负荷侧电压验证了串联电容补偿调压的实用性。
Bibliography:WU Yong-hai, CAI Jin-ding (College of Electrical Engineering & Automation, Fuzhou University, Fuzhou 350108, China)
series capacitance compensation; radial distribution lines; voltage regulation; maximum transmission capacity; seriescapacitance compensator
41-1401/TM
The medium voltage distribution lines with long power supply radius and broad load fluctuations, because of the larger voltage loss in the line, often result in low voltage and voltage fluctuation in the load-side, which is difficult to meet the requirements of voltage quality. The compensation of capacitor is calculated precisely under different loads, and then the maximum transmission capacity of the medium voltage radial line with the series capacitance compensation can be gotten when the voltage of the end line is stable. Simulation using Matlab/Simulink is carried out and the results verify the correctness of this calculation. The series capacitance compensator is applied to 10 kV radiation line and its normal operation and stable load-side vol
ISSN:1674-3415