基于多源衰减行波的煤矿电网故障定位方法研究

项目名称： 基于多源衰减行波的煤矿电网故障定位方法研究

项目编号： No.51504253

项目类型： 青年科学基金项目

立项/批准年度： 2016

项目学科： 矿业工程

项目作者： 梁睿

作者单位： 中国矿业大学

项目金额： 20万元

中文摘要： 故障的快速准确定位是煤矿电网面临的重大难题，广域同步行波测距是电网故障定位的有效手段。然而，煤矿井下无法布置时间同步的行波测量点，严重制约了行波测距在煤矿电网的推广应用。本项目从故障后暂态行波传递衰减的角度出发，通过异步测量获取电网不同位置的暂态行波，完成多源衰减行波在煤矿电网故障定位研究。基于行波衰减理论研究煤矿电网故障衰减规律，搭建线路仿真实验平台找出各测量点行波衰减的准确关系，建立行波衰减的故障定位模型；进而提炼测量点优化配置的约束条件，立足故障定位最大可观性，给出多测量点的优化部署方案；根据测量点间暂态行波各波头时刻与网络拓扑的关系，研究配置滤波器滤除与故障位置无关的波头信息，利用多源信息对多组单端测距的结果进行融合判定，实现精确故障定位。项目的研究将为多源衰减行波法在我国煤矿电网故障定位的应用提供理论基础和技术保障，对提高我国煤矿供电可靠性与安全性具有重要的理论意义和现实价值。

中文关键词： 煤矿供电安全；故障定位；行波衰减；优化部署；信息融合

英文摘要： It is a great challenge to realize fast and accurate fault location in coal mine power grid. While in normal power grid, the travelling wave method based on Wide Area Measurement System(WAMS) is reasonable effective to solve fault location. However, this method needs a great number of strictly synchronous measure points and real-time communication system to support it, so it is hardly to adopt in coal mine power grid directly because in coal mine the massive traveling wave measure points cannot easily deployed and it is impossible to ensure that every traveling wave measure point could obtain the GPS synchronous timing signals. .With the traveling wave are achieved by asynchronous measure points in different place in the power grid, this project aims at the attenuation of fault-generated transient traveling wave and can realize the fault location in coal mine power grid..First the energy attenuating rules of traveling waves in the coal mine power grid are studied systemically, and with building the emulation platform of transmission line, the travelling wave attenuation degree relationships of every measuring points are discovered while the fault is occur in different place of the power grid. Based on it, the fundamental fault location model is built. .Secondly, how to achieve optimal deployment of the measuring points is studied. With the constraints of deploy measuring points is thoroughly explored, the optimal deployment is realized based on the maximal observability of fault location. .In the end, based on the study of relationship between wave fronts and topology at each measuring point, the filters are determined to eliminate invalid information of wave fronts, thus the accurate fault location is completed via multi-source information fusion of several single-end-based results. The project will provide theoretical basis and technical support for the application of traveling wave method based on attenuation of multi-source information. It also has important theoretical and practical significance to improve the power supply reliability and safety in the coal mine power grid.

英文关键词： Safety of power supply in coal mine;Fault location;Attenuation of traveling wave;Optimal deployment ;Information fusion