电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2015年
7期
97-102
,共6页
李功新%黄文英%任晓辉%林静怀%李泽科%江修波
李功新%黃文英%任曉輝%林靜懷%李澤科%江脩波
리공신%황문영%임효휘%림정부%리택과%강수파
调控一体化%开关单元模型%拓扑防误%与/或树%无向环路搜索
調控一體化%開關單元模型%拓撲防誤%與/或樹%無嚮環路搜索
조공일체화%개관단원모형%탁복방오%여/혹수%무향배로수색
integrated dispatching and control system%switch unit model%topological anti-misoperation%and/or tree%undirected loop search
为提高电网智能防误校核结果的准确性和全面性,针对调控一体化运行模式,提出了智能防误拓扑计算的开关单元模型及环路拓扑搜索算法。基于电网拓扑模型和防误专家知识库,采用与/或树推理和拓扑防误计算方法,实现包括电磁合环、设备过载等调度操作防误规则以及二次防误规则等的防误功能。采用该方法建立某区域电网的拓扑防误模型,并结合防误规则专家库实现了应用。现场实践证明,基于电网开关单元防误模型和防误专家知识库的调控一体化防误校核方法能够对防止误调度、误遥控、误操作提供准确丰富的校验结果,从而保障电网调控操作的安全性。
為提高電網智能防誤校覈結果的準確性和全麵性,針對調控一體化運行模式,提齣瞭智能防誤拓撲計算的開關單元模型及環路拓撲搜索算法。基于電網拓撲模型和防誤專傢知識庫,採用與/或樹推理和拓撲防誤計算方法,實現包括電磁閤環、設備過載等調度操作防誤規則以及二次防誤規則等的防誤功能。採用該方法建立某區域電網的拓撲防誤模型,併結閤防誤規則專傢庫實現瞭應用。現場實踐證明,基于電網開關單元防誤模型和防誤專傢知識庫的調控一體化防誤校覈方法能夠對防止誤調度、誤遙控、誤操作提供準確豐富的校驗結果,從而保障電網調控操作的安全性。
위제고전망지능방오교핵결과적준학성화전면성,침대조공일체화운행모식,제출료지능방오탁복계산적개관단원모형급배로탁복수색산법。기우전망탁복모형화방오전가지식고,채용여/혹수추리화탁복방오계산방법,실현포괄전자합배、설비과재등조도조작방오규칙이급이차방오규칙등적방오공능。채용해방법건립모구역전망적탁복방오모형,병결합방오규칙전가고실현료응용。현장실천증명,기우전망개관단원방오모형화방오전가지식고적조공일체화방오교핵방법능구대방지오조도、오요공、오조작제공준학봉부적교험결과,종이보장전망조공조작적안전성。
In order to improve the accuracy and comprehensiveness of the power grid intelligent anti-misoperation result, this paper proposes switch unit model and loop topology search algorithm for intelligent topological anti-misoperation computing under the operating mode of integrated dispatching and control system. Basing on topological model and knowledge base of anti-misoperation rules, the system uses and/or tree reasoning and topological anti-misoperation computing method, and achieves the functions such as electromagnetic loop closing and equipment overload. This paper establishes the topological anti-misoperation model of a regional grid with this method, and implements the application based on anti-misoperation rules expert database. Site operation shows that, integrated anti-misoperation checking methods based on switch unit anti-misoperation model and anti-misoperation rules expert database can provide accurate verification results for preventing scheduling mistake, remote control by mistake and misoperation, and thus can ensure the safety of the power grid operation.