An Optimization of Superconducting Coil Installed in an HVDC-Wind Farm for Alleviating Power Fluctuation and Limiting Fault Current

Issarachai Ngamroo

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An Optimization of Superconducting Coil Installed in an HVDC-Wind Farm for Alleviating Power Fluctuation and Limiting Fault Current

机译：直流输电风电场中安装的超导线圈的优化设计，以减轻功率波动和限制故障电流

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The vital problems of a high-voltage direct current (HVdc) wind farm are the dc power fluctuation and dc faults. To tackle both problems simultaneously, the superconducting magnetic energy storage with fault current limiting capability (SMES-FCL), which is incorporated into the HVdc-wind farm system, is proposed. The SMES-FCL can be used to lessen the dc power fluctuation due to intermittent wind power and limit the fault current in the dc line. The optimal SMES coil and control parameters are tuned based on minimization of power and voltage fluctuations, and stored energy. Study results elucidate that the optimal SMES-FCL provides higher effect on power smoothing and fault current limiting than the non-optimal SMES-FCL against dc fault and wind power levels.

机译：高压直流（HVdc）风电场的关键问题是直流功率波动和直流故障。为了同时解决这两个问题，提出了一种具有故障限流能力的超导磁储能器（SMES-FCL），该储能器已被并入HVdc-风电场系统。 SMES-FCL可用于减少由于间歇性风力而引起的直流电源波动，并限制直流线路中的故障电流。基于最小化电源和电压波动以及存储的能量，可以调整最佳的SMES线圈和控制参数。研究结果表明，与非最优SMES-FCL相比，最优SMES-FCL对直流故障和风力水平的影响更大，对电源平滑和故障电流限制的影响更大。

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来源
《Applied Superconductivity, IEEE Transactions on》 |2019年第2期|1-5|共5页
作者
Issarachai Ngamroo;
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作者单位

Department of Electrical Engineering, Faculty of Engineering, King Mongkut's Institute of Technology Ladkrabang, Bangkok, Thailand;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Wind farms; Fault currents; Circuit faults; Fluctuations; HVDC transmission; Partial discharges; Optimization;

机译：风电场;故障电流;电路故障;波动;高压直流输电;局部放电;优化;

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专利

1. Alleviation of Power Fluctuation in Interconnected Power Systems With Wind Farm by SMES With Optimal Coil Size [J] . Saejia M. Applied Superconductivity, IEEE Transactions on . 2012,第3期

机译：采用最佳线圈尺寸的SMES缓解风电场互联电力系统的功率波动
2. Influence of Output Power out of a Synchronous Generator Installed in a Customer System on Current Limiting Effects Due to a Fault Current Limiter [J] . DAISUKEI IOKA, HIROTAKA SHIMIZU, YASUNOBU YOKOMIZU, Electrical engineering in Japan . 2004,第3期

机译：安装在客户系统中的同步发电机的输出功率对故障限流器引起的限流效果的影响
3. Quench Characteristics of High Temperature Superconducting Coil for Fault Current Limiting Application [J] . Lee C., Kang H., Nam K., IEEE Transactions on Applied Superconductivity . 2008,第2期

机译：限流应用中高温超导线圈的淬火特性
4. Integrated Superconducting Coil into HVDC-Wind Farm for Fault Current Limiting [C] . Issarachai Ngamroo International Conference on Applied Superconductivity and Electromagnetic Devices . 2018

机译：将超导线圈集成到HVDC风电场中以限制故障电流
5. Active current injection method for limiting ground fault current harmonics in underground coal mines. [D] . Zhang, Yigong. 2014

机译：限制地下煤矿中接地故障电流谐波的有源电流注入方法。
6. Power flow analysis and optimal locations of resistive type superconducting fault current limiters [O] . Xiuchang Zhang, Harold S. Ruiz, Jianzhao Geng, -1

机译：电阻型超导故障电流限制器的潮流分析和最佳位置
7. Comparative Analysis of Various Superconducting and Non-Superconducting Fault Current Limiting Devices Designed for Operation in a 110kV/100 MW Power Network [O] . Kopylov S.I., Altov V.A., Balashov N.N., 2012

机译：设计用于110kV / 100 MW电网的各种超导和非超导故障限流装置的比较分析
8. Fault-Current Limiter Using a Superconducting Coil [R] . Boenig, H. J., Paice, D. A. 1982

机译：使用超导线圈的故障限流器

An Optimization of Superconducting Coil Installed in an HVDC-Wind Farm for Alleviating Power Fluctuation and Limiting Fault Current

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