优化矿用供电系统过电压防护的高能ZnO 阀片研究与设计
Journal: Engineering and Management Science DOI: 10.12238/ems.v6i9.8961
Abstract
矿用供电系统特性鲜明,体现在其延伸的输电线路与错综复杂的非线性负载之上,频繁调节无功补偿成为维持电压稳定性的关键措施。针对真空断路器在接入或断开电容器时易诱发的过电压挑战,鉴于当前保护设备中ZnO阀片存在的能量储备不足及性能差异性问题,本研究独创性地设计出一种融合非线性高能ZnO阀片的并联电容与串联电抗组合型过电压防护策略。本项工作首先深度剖析了电容器操作过电压的生成机理及其有效抑制的核心要素,随后,精心制定了高能ZnO阀片的优选与均衡配置策略,同时,详尽阐述了该策略的实施流程。为进一步验证此保护方案的效能,研究结合了仿真模拟技术与现场线路实测数据,实现了全方位的性能评估。此研究成果不仅拓宽了过电压保护设计策略的创新路径,更预示着在工程实践中具有广阔的应用潜力和显著的实用价值。
Keywords
高能氧化锌;过电压;串抗;投切
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