基于时空决策模型的电力走廊精准管控
|
摘要
制订电力走廊差异化运维策略,除了与设备资产本体特性有关以外,还与设备所处的空间环境及策略执行时间有关系。以电网GIS平台为依托,以电力走廊精益化管控为目标,对电力廊道内与运维检修相关的环境因子进行分类、采集、建模。综合考虑本体设备基建参数、历史运行参数、巡视缺陷、外力破坏、家族缺陷、雷电定位、气象预报等数据,采用层次分析法对上述因子进行权重赋值,建立电力走廊差异化运维策略时空决策模型,并借助现代计算机开发软件,实现了对电力走廊的精益化管控,为电力运维提供了新的参考思路。
The formulation of power corridor differentiation operation and maintenance strategy is not only related to the characteristics of equipment assets,but also to the space environment and the execution time.Based on the grid GIS platform,with power corridor exact control as the goal,this paper considers to classify environmental factors,collect power corridor and maintenance data,and build a model.After considering the body equipment infrastructure parameters,operation parameters,inspection history,external damage,family defect,lightning location,weather forecast data,the weights are assigned to the above factors by AHP,spatial decision support model is established for the power corridor difference operation and maintenance strategy.With the help of modern computer software development,it achieves an exact control on power corridor,provides a reference for new power operation.
The formulation of power corridor differentiation operation and maintenance strategy is not only related to the characteristics of equipment assets,but also to the space environment and the execution time.Based on the grid GIS platform,with power corridor exact control as the goal,this paper considers to classify environmental factors,collect power corridor and maintenance data,and build a model.After considering the body equipment infrastructure parameters,operation parameters,inspection history,external damage,family defect,lightning location,weather forecast data,the weights are assigned to the above factors by AHP,spatial decision support model is established for the power corridor difference operation and maintenance strategy.With the help of modern computer software development,it achieves an exact control on power corridor,provides a reference for new power operation.
引文
[1]刘向新.电力营销线损精益化管理策略探析[J].中国新技术新产品,2017(7):130-131.
[2]谭波,刘丙财,陈永德,等.基于风险评估的输电设备差异化运维策略[J].中国电力,2016,49(S1):21-26.
[3]段若晨,王丰华,顾承昱,等.采用改进层次分析法综合评估500kV输电线路防雷改造效果[J].高电压技术,2014,40(1):131-137.
[4]高广德,向文,邹建华,等.基于改进层次分析法的输电线路并行防雷措施的研究[J].电瓷避雷器,2015(6):154-158.
[5]陈青松,王彦东,李华.基于风险评估的变电设备差异化运维策略研究[J].中国电业(技术版),2015,(12):153-156.
[6]付可欣,彭澎,孔静,等.基于层次分析法的输电网能效评估方法研究[J].电测与仪表,2016,53(3):23-26.
[7]吴卓文.基于风险评估的输变电设备差异化运维策略应用研究[J].企业技术开发,2016,35(8):98-99.
[8]张晓明,吴焯军,甘艳,等.一种基于改进层次分析法的输电线路雷害风险评估模型[J].电力建设,2012,33(8):35-39.
[9]孙漪南,赵芯,王宇泓,等.基于VR全景图技术的乡村景观视觉评价偏好研究[J].北京林业大学学报,2016,38(12):104-112.
[10]崔雪,王少华,蔡文文.GIS平台软件自动化测试框架[J].测绘科学,2017,42(04):179-183.
[11]曹全龙,唐权,杨程瑶.基于ArcGIS的云GIS平台设计方案研究[J].测绘与空间地理信息,2014,37(10):36-38.
[12]翟晶晶,康凤琴.基于模糊层次分析法的电力变压器本体运维风险评估[J].南京工程学院学报(自然科学版),2015,13(2):45-51.
[13]章博,王磊,王志刚.炼油装置有害气体泄漏区域风险等级划分[J].中国石油大学学报(自然科学版),2015,39(05):144-149.
[14]李进军,单红仙,潘玉英,等.基于层次分析与集对理论的城市污染场地风险等级划分[J].环境工程,2013,31(1):89-94.
[15]王涛,段有桥.VR全景视频关键技术和进展[N].中国艺术报,2017-03-22.
[2]谭波,刘丙财,陈永德,等.基于风险评估的输电设备差异化运维策略[J].中国电力,2016,49(S1):21-26.
[3]段若晨,王丰华,顾承昱,等.采用改进层次分析法综合评估500kV输电线路防雷改造效果[J].高电压技术,2014,40(1):131-137.
[4]高广德,向文,邹建华,等.基于改进层次分析法的输电线路并行防雷措施的研究[J].电瓷避雷器,2015(6):154-158.
[5]陈青松,王彦东,李华.基于风险评估的变电设备差异化运维策略研究[J].中国电业(技术版),2015,(12):153-156.
[6]付可欣,彭澎,孔静,等.基于层次分析法的输电网能效评估方法研究[J].电测与仪表,2016,53(3):23-26.
[7]吴卓文.基于风险评估的输变电设备差异化运维策略应用研究[J].企业技术开发,2016,35(8):98-99.
[8]张晓明,吴焯军,甘艳,等.一种基于改进层次分析法的输电线路雷害风险评估模型[J].电力建设,2012,33(8):35-39.
[9]孙漪南,赵芯,王宇泓,等.基于VR全景图技术的乡村景观视觉评价偏好研究[J].北京林业大学学报,2016,38(12):104-112.
[10]崔雪,王少华,蔡文文.GIS平台软件自动化测试框架[J].测绘科学,2017,42(04):179-183.
[11]曹全龙,唐权,杨程瑶.基于ArcGIS的云GIS平台设计方案研究[J].测绘与空间地理信息,2014,37(10):36-38.
[12]翟晶晶,康凤琴.基于模糊层次分析法的电力变压器本体运维风险评估[J].南京工程学院学报(自然科学版),2015,13(2):45-51.
[13]章博,王磊,王志刚.炼油装置有害气体泄漏区域风险等级划分[J].中国石油大学学报(自然科学版),2015,39(05):144-149.
[14]李进军,单红仙,潘玉英,等.基于层次分析与集对理论的城市污染场地风险等级划分[J].环境工程,2013,31(1):89-94.
[15]王涛,段有桥.VR全景视频关键技术和进展[N].中国艺术报,2017-03-22.