10 千伏配电网中结合功率模块和低电阻的混合接地系统的中性点电压调节和控制策略

IF 2.6 3区 工程技术 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS Electronics Pub Date : 2024-09-11 DOI:10.3390/electronics13183608
Yu Zhou, Kangli Liu, Wanglong Ding, Zitong Wang, Yuchen Yao, Tinghuang Wang, Yuhan Zhou
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引用次数: 0

摘要

10 千伏配电网中经常发生单相接地故障,严重影响设备和人员的安全。随着城市电缆的普及,在一些大城市,低电阻接地系统逐渐取代了消弧线圈。与消弧线圈相比,低电阻接地系统具有简单可靠的特点。但是,当发生高阻接地故障时,较低的故障量特性无法触发零序保护动作,因此这类故障会长期存在,对电网造成威胁。针对此类问题,本文提出了一种低阻保护装置与全控功率模块相结合的混合接地系统。在低电阻接地故障中,通过低电阻接地系统本身的零序电流保护实现故障隔离;而在高电阻接地故障中,通过全控功率模块调节中性点电压实现可靠灭弧。本文首先介绍了主动电压灭弧混合接地系统的原理、拓扑结构和协调控制。随后,提出了一种基于双回路的控制方法来抑制故障相电压。此外,还提出了一种基于开普勒优化算法和卷积神经网络的故障馈线选择方法,以及时消除永久性故障。最后,仿真和基于 HIL 的模拟结果验证了所提方法的合理性和有效性。
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Neutral-Point Voltage Regulation and Control Strategy for Hybrid Grounding System Combining Power Module and Low Resistance in 10 kV Distribution Network
A single-phase grounding fault often occurs in 10 kV distribution networks, seriously affecting the safety of equipment and personnel. With the popularization of urban cables, the low-resistance grounding system gradually replaced arc suppression coils in some large cities. Compared to arc suppression coils, the low-resistance grounding system features simplicity and reliability. However, when a high-resistance grounding fault occurs, a lower amount of fault characteristics cannot trigger the zero-sequence protection action, so this type of fault will exist for a long time, which poses a threat to the power grid. To address this kind of problem, in this paper, a hybrid grounding system combining the low-resistance protection device and fully controlled power module is proposed. During a low-resistance grounding fault, the fault isolation is achieved through the zero-sequence current protection with the low-resistance grounding system itself, while, during a high-resistance grounding fault, the reliable arc extinction is achieved by regulating the neutral-point voltage with a fully controlled power module. Firstly, this paper introduces the principles, topology, and coordination control of the hybrid grounding system for active voltage arc extinction. Subsequently, a dual-loop-based control method is proposed to suppress the fault phase voltage. Furthermore, a faulty feeder selection method based on the Kepler optimization algorithm and convolutional neural network is proposed for the timely removal of permanent faults. Lastly, the simulation and HIL-based emulated results verify the rationality and effectiveness of the proposed method.
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来源期刊
Electronics
Electronics Computer Science-Computer Networks and Communications
CiteScore
1.10
自引率
10.30%
发文量
3515
审稿时长
16.71 days
期刊介绍: Electronics (ISSN 2079-9292; CODEN: ELECGJ) is an international, open access journal on the science of electronics and its applications published quarterly online by MDPI.
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