电网技术
電網技術
전망기술
POWER SYSTEM TECHNOLOGY
2001年
4期
27-31
,共5页
刘理峰%孙才新%周湶%胡晓倩%安文斗
劉理峰%孫纔新%週湶%鬍曉倩%安文鬥
류리봉%손재신%주천%호효천%안문두
空间拓扑模型%绝缘在线监测%实时状态信息系统
空間拓撲模型%絕緣在線鑑測%實時狀態信息繫統
공간탁복모형%절연재선감측%실시상태신식계통
设备管理/地理信息系统(FM/GIS)目前主要应用在离线的配电管理系统,还未包含35~220 kV电气设备绝缘运行状态的特征量。如何合理有效地组织大量的电气设备实时状态信息,从而实现对各种电气设备在线监测信息的有效管理,是电力系统亟待解决的一个问题。作者采用GIS空间拓扑数据模型来解决变电站内部设备的动态拓扑分析问题,并提出一种将FM/GIS与电气设备绝缘在线监测系统进行集成的方法,用实例说明了构造该实时状态信息系统的方法和步骤。应用表明,该方法能全面地反映电力系统及设备的运行状态,可大大减少突发故障造成的损失,能适应电力系统现代化管理的需要;并指出,FM/GIS发展的方向是集成GIS与电气设备绝缘在线监测系统,以此形成全新的电气设备绝缘在线监测实时信息系统。
設備管理/地理信息繫統(FM/GIS)目前主要應用在離線的配電管理繫統,還未包含35~220 kV電氣設備絕緣運行狀態的特徵量。如何閤理有效地組織大量的電氣設備實時狀態信息,從而實現對各種電氣設備在線鑑測信息的有效管理,是電力繫統亟待解決的一箇問題。作者採用GIS空間拓撲數據模型來解決變電站內部設備的動態拓撲分析問題,併提齣一種將FM/GIS與電氣設備絕緣在線鑑測繫統進行集成的方法,用實例說明瞭構造該實時狀態信息繫統的方法和步驟。應用錶明,該方法能全麵地反映電力繫統及設備的運行狀態,可大大減少突髮故障造成的損失,能適應電力繫統現代化管理的需要;併指齣,FM/GIS髮展的方嚮是集成GIS與電氣設備絕緣在線鑑測繫統,以此形成全新的電氣設備絕緣在線鑑測實時信息繫統。
설비관리/지리신식계통(FM/GIS)목전주요응용재리선적배전관리계통,환미포함35~220 kV전기설비절연운행상태적특정량。여하합리유효지조직대량적전기설비실시상태신식,종이실현대각충전기설비재선감측신식적유효관리,시전력계통극대해결적일개문제。작자채용GIS공간탁복수거모형래해결변전참내부설비적동태탁복분석문제,병제출일충장FM/GIS여전기설비절연재선감측계통진행집성적방법,용실례설명료구조해실시상태신식계통적방법화보취。응용표명,해방법능전면지반영전력계통급설비적운행상태,가대대감소돌발고장조성적손실,능괄응전력계통현대화관리적수요;병지출,FM/GIS발전적방향시집성GIS여전기설비절연재선감측계통,이차형성전신적전기설비절연재선감측실시신식계통。
Recently the Facility Management/Geographic Information System (FM/GIS) is mainly applied in off-line distribution management system, but the characteristics of insulation status of electric equipment from 35kV to 220kV are still not included in the system. How to rationally organize lots of real-time status information of these equipment and thus to realize effective management of the on-line monitoring information from them is the question which should be solved urgently. In this paper a spatial topology model of GIS is used to implement the dynamic topology analysis of the equipment within the substations, at the same time, a method of integrating the FM/GIS with on-line insulation monitoring system of electric equipment is put forward, the means and steps for the construction of the real-time status information system is explained through instances. Application results show that this method can overall reflect the running status of power system and its equipment and greatly reduce the losses caused by sudden faults. Therefore, this method can meet the needs of modern management of power system. It is also pointed out that the development trend of FM/GIS is to integrate GIS with on-line insulation monitoring system of electric equipment to derive a brand-new real time information system for on-line insulation monitoring of electric equipment.
