HVDC/GIC型直流偏磁的差异性分析

马书民; 夏少连; 熊 玮; 林湘宁; 李正天; 郑宇超; 吴宇奇; 徐海波

引用本文:	马书民,夏少连,熊玮,等.HVDC/GIC型直流偏磁的差异性分析[J].电力系统保护与控制,2023,51(2):55-64.
	MA Shumin,XIA Shaolian,XIONG Wei,et al.Difference analysis of HVDC/GIC type DC bias[J].Power System Protection and Control,2023,51(2):55-64

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HVDC/GIC型直流偏磁的差异性分析
马书民1，夏少连2，熊玮2，林湘宁1，李正天1，郑宇超1，吴宇奇1，徐海波3
(1.华中科技大学强电磁工程与新技术国家重点实验室，湖北武汉 430074；2.国家电网公司华中分部，湖北武汉 430074；3.易事特集团股份有限公司，广东东莞 523808)

摘要:

考虑到地磁感应电流(geomagnetically induced current, GIC)具有低频性，过去一直将其近似等效为高压直流输电(high voltage direct current, HVDC)诱发的不平衡电流进行研究。然而，与HVDC型直流偏磁相比，GIC型直流偏磁具有显著的随机性与时变性，因此简单地将两者完全等效处理并不合理，在特定场景下应加以区分。为此，首先，从理论上分析了两种类型直流偏磁在诱发原因及特点上的差异。其次，通过研究直流偏磁对变压器本体以及电流互感器的不利影响，进一步探究两种类型直流偏磁对电网一/二次设备的影响差异，为后续的偏磁治理提供有效参考。最后，基于PSCAD/EMTDC仿真平台搭建了等效仿真模型，并通过仿真验证了理论分析的正确性。

关键词: HVDC型直流偏磁 GIC型直流偏磁变压器饱和 CT饱和变压器差动保护

DOI：10.19783/j.cnki.pspc.220559

分类号:

基金项目:国家自然科学基金面上项目资助(51877088)；东莞市引进创新科研团队计划项目资助(201536000200036)

Difference analysis of HVDC/GIC type DC bias

HVDC type DC bias; GIC type DC bias; transformer saturation; CT saturation; transformer differential protection

(1. State Key Laboratory of Advanced Electromagnetic Engineering and Technology, Huazhong University of Science and Technology, Wuhan 430074, China; 2. Central China Branch, State Grid Corporation of China, Wuhan 430074, China; 3. EAST GROUP CO., LTD., Dongguan 523808, China)

Abstract:

Considering that geomagnetically induced current (GIC) has low frequency, it has been approximately equivalent to the imbalance current induced by high voltage direct current (HVDC). However, compared with the HVDC-type DC bias, the GIC-type DC bias has significant randomness and time-varying, so it is not reasonable to simply treat the two as completely equivalent, and they should be distinguished in specific scenarios. For this reason, first, the differences in the induced causes and characteristics of the two types of DC biases are analyzed theoretically. Second, by studying the adverse effects of DC magnetic bias on transformer body and current transformer, the differences of the influences of the two types of DC magnetic bias on primary/secondary equipment of power grid are further explored to provide effective reference for subsequent magnetic bias treatment. Finally, an equivalent simulation model is built based on the PSCAD/EMTDC simulation platform, and the correctness of the theoretical analysis is verified by simulation. This work is supported by the General Project of National Natural Science Foundation of China (No. 51877088).

Key words: HVDC type DC bias GIC type DC bias transformer saturation CT saturation transformer differential protection

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