电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2015年
17期
75-81
,共7页
蒋玮%汪梁%王晓东%杨永标%王金明%周赣
蔣瑋%汪樑%王曉東%楊永標%王金明%週贛
장위%왕량%왕효동%양영표%왕금명%주공
双向互动%高级量测体系%IEC 61850%分布式发电系统
雙嚮互動%高級量測體繫%IEC 61850%分佈式髮電繫統
쌍향호동%고급량측체계%IEC 61850%분포식발전계통
two-way interaction%advanced metering infrastructure(AMI)%IEC 61850%distributed power generation system
首先,分析了用电双向互动的业务需求,并在高级量测体系的概念基础上,提出了双向互动服务数据采集与控制通信系统架构。然后,面对前端局域网中数据采集设备多样性的问题,设计了基于 IEC 61850信息模型的数据聚合单元,以提升双向互动服务系统之间以及互动服务系统与用电双向互动服务平台之间通信的稳定性、可靠性和互操作性。最后,遵循 IEC 61850标准,以分布式发电系统双向互动服务为例,给出了分布式发电监控终端的信息通信模型。利用此模型可以将分布式发电双向互动服务纳入高级量测体系,以满足灵活互动智能用电的需求。
首先,分析瞭用電雙嚮互動的業務需求,併在高級量測體繫的概唸基礎上,提齣瞭雙嚮互動服務數據採集與控製通信繫統架構。然後,麵對前耑跼域網中數據採集設備多樣性的問題,設計瞭基于 IEC 61850信息模型的數據聚閤單元,以提升雙嚮互動服務繫統之間以及互動服務繫統與用電雙嚮互動服務平檯之間通信的穩定性、可靠性和互操作性。最後,遵循 IEC 61850標準,以分佈式髮電繫統雙嚮互動服務為例,給齣瞭分佈式髮電鑑控終耑的信息通信模型。利用此模型可以將分佈式髮電雙嚮互動服務納入高級量測體繫,以滿足靈活互動智能用電的需求。
수선,분석료용전쌍향호동적업무수구,병재고급량측체계적개념기출상,제출료쌍향호동복무수거채집여공제통신계통가구。연후,면대전단국역망중수거채집설비다양성적문제,설계료기우 IEC 61850신식모형적수거취합단원,이제승쌍향호동복무계통지간이급호동복무계통여용전쌍향호동복무평태지간통신적은정성、가고성화호조작성。최후,준순 IEC 61850표준,이분포식발전계통쌍향호동복무위례,급출료분포식발전감공종단적신식통신모형。이용차모형가이장분포식발전쌍향호동복무납입고급량측체계,이만족령활호동지능용전적수구。
First,the application demands of two-way interactive service of power utilization are analyzed.Based on the concept of advanced metering infrastructure(AMI),a framework for the data acquisition and control communication system of two-way interactive service is developed.Secondly,in order to adapt to the diversity of data acquisition devices in the personal area network(PAN),a data aggregation unit(DAU) based on IEC 61850 communication model is designed.Thus,the stability, reliability and interoperability between two-way interactive service systems,as well as the two-way interactive service systems and two-way interactive service platforms of power utilization are improved.Finally,based on the IEC 61850 standards,taking the two-way interactive service of distributed power generation systems as an exemple,an information communication model for the monitor terminal of distributed power generation systems is given.With the model,the two-way interactive services of distributed power generation can be included in AMI to satisfy the need of flexible and interactive intelligent power utilization.