基于智能感知的变电站运维系统
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摘要
传统的变电站运维系统在维护变电站设备时需要投入大量的人力和物力资源,花费成本比较高,但是由于运维人员工作的主观性很强,所以取得的效果并不理想。随着智能技术的进步,越来越多的运维系统中引入了智能技术。基于智能感知技术研究了一种新的运维系统,首先利用GPS接收机对地面上不同的基准站进行差分定位,然后通过福建省亿鑫海信息科技有限公司研发的远程协助平台远程指导整个运维过程,接着将智能眼镜引入到变电站运维系统中,分析如何交换眼镜端与PMS系统的数据,最后通过实验验证了该变电运维系统的实际工作效果,由实验结果可知,所研究的变电站用需要花费的成本比传统变电站低,但是取得的维护效果要远远好于传统运维系统。本研究加快了智能运检体系的建设和发展。
The traditional substation operation and maintenance system needs to invest a lot of manpower and material resources in the maintenance of the substation equipment,and the cost is high. However,because of the strong subjectivity of the operation and maintenance personnel,the effect is not ideal.With the development of intelligent technology,intelligent technology has been introduced into more and more operation and maintenance systems. Based on the intelligent sensing technology,a new operation and maintenance system is studied. First,the GPS receiver is used to locate the different datum stations on the ground. Then the whole operation and maintenance process is remotely guided through the remote assistance platform developed by the Fujian Yi Xinhai Mdt InfoTech Ltd. Then the intelligent glasses are introduced into the substation operation and maintenance department. In the system,the data of the glasses end and PMS system are exchanged. Finally,the actual work effect of the system is verified by experiments. The experimental results show that the cost of the substation used is lower than that of the traditional substation,but the maintenance effect is far better than the traditional operation and maintenance system. This research has accelerated the construction and development of intelligent transportation inspection system.
The traditional substation operation and maintenance system needs to invest a lot of manpower and material resources in the maintenance of the substation equipment,and the cost is high. However,because of the strong subjectivity of the operation and maintenance personnel,the effect is not ideal.With the development of intelligent technology,intelligent technology has been introduced into more and more operation and maintenance systems. Based on the intelligent sensing technology,a new operation and maintenance system is studied. First,the GPS receiver is used to locate the different datum stations on the ground. Then the whole operation and maintenance process is remotely guided through the remote assistance platform developed by the Fujian Yi Xinhai Mdt InfoTech Ltd. Then the intelligent glasses are introduced into the substation operation and maintenance department. In the system,the data of the glasses end and PMS system are exchanged. Finally,the actual work effect of the system is verified by experiments. The experimental results show that the cost of the substation used is lower than that of the traditional substation,but the maintenance effect is far better than the traditional operation and maintenance system. This research has accelerated the construction and development of intelligent transportation inspection system.
引文
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[15]李书田,杨红培,金翼,等.变电站继电保护装置集中打印方案设计及工程应用[J].电子设计工程,2016,24(15):56-59.
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[18]张飞飞,樊锐轶,孙广辉,等.大数据环境下变电站智能监控方案研究[J].陕西电力,2016(6):72-76.
[19]孟祥忠,王保磊.基于RFID的变电站巡检机器人无线充电系统的研究与设计[J].工业仪表与自动化装置,2017(6):120-123.
[20]郭昆丽,田海霞,王建波,等.ETAP在变电站谐波特性的应用[J].西安工程大学学报,2017(4):502-508.
[2]宋杰,徐洁,周德生,等.基于语义网的智能变电站运维专家系统可扩展建模与应用[J].电力系统保护与控制,2017,45(22):144-151.
[3]江洁,周宇晴,刘东.基于状态检修技术的智能变电站运维策略研究[J].通讯世界,2016,15(18):165-166.
[4]笃峻,叶翔,葛立青,等.智能变电站继电保护在线运维系统关键技术的研究及实现[J].电力自动化设备,2016,36(7):163-168.
[5]赵春雷,孙利强,高翔,等.基于源端数据维护机制的保护智能运维技术探讨[J].电网与清洁能源,2017,13(9):78-83.
[6]宋跃明,谢科军.基于物联网的自动化运维管理系统的技术应用分析[J].数字技术与应用,2016,21(8):240.
[7]罗江,李林,孟坤.基于渗透检测的网络安全运维框架设计与实现[J].智能计算机与应用,2018,13(1):123-126.
[8]曹敏,李鹏,谭旻,等.输变电设备物联网人机交互系统情景感知模型[J].自动化仪表,2016,37(8):46-49.
[9]陈国华,陈纬楠.变电站自动化设备远程集中运维系统技术方案研究[J].电工技术,2017,18(9):121-122.
[10]王长东,孙红,张淑艳,等.综自变电站远程运维管理系统构建应用[J].工程技术:全文版,2017,16(2):278-279.
[11]郑丽榕. 35 kV变电站设备运维管理体系的构建策略研究[J].中国新技术新产品,2017,42(23):125-126.
[12]张凛,刘伟,杜强业.浅谈变电站综合自动化系统运维工作需要注意的几个问题[J].科技与企业,2016,13(5):92-93.
[13]詹琦,庄琼剑. 110 kV智能变电站电气一次系统及继电保护运维研究[J].科技风,2018,15(6):169.
[14]张子博,雷颖,范多经.无人值班变电站运维管理模式分析及其应用发展[J].工程技术:全文版,2017,28(1):77.
[15]李书田,杨红培,金翼,等.变电站继电保护装置集中打印方案设计及工程应用[J].电子设计工程,2016,24(15):56-59.
[16]何建宗,吴杰康,郑风雷,等.考虑电源故障和功率特性的变电站供电可靠性评估方法[J].陕西电力,2016(12):67-72.
[17]邹磊,薛明军,姚亮,等.智能变电站采样异常处理方法的研究[J].陕西电力,2017(4):39-43.
[18]张飞飞,樊锐轶,孙广辉,等.大数据环境下变电站智能监控方案研究[J].陕西电力,2016(6):72-76.
[19]孟祥忠,王保磊.基于RFID的变电站巡检机器人无线充电系统的研究与设计[J].工业仪表与自动化装置,2017(6):120-123.
[20]郭昆丽,田海霞,王建波,等.ETAP在变电站谐波特性的应用[J].西安工程大学学报,2017(4):502-508.