摘要
泛在用能信息采集业务是实现能源高效管理的关键技术手段。为了实现用能信息采集的可靠性和高效性以及提高用能信息的价值,文章提出一种泛在用能信息采集业务技术架构,将边缘计算、窄带物联网技术和终端表计数据应用于技术架构中;构建了能源互联网背景下的用能信息采集业务分层模型并分析了其关键支撑技术;基于终端表计及其用能数据,分别阐述了“多表合一”数据采集、用能检修运维和异常用能行为分析的实现途径;设计了能源互联网用能信息采集典型应用框架,可为能源互联网能源智能运维提供应用参考。
Ubiquitous energy-consumption information acquisition service is a key technology to achieve efficient energy management.In order to realize the reliability and efficiency of energyconsumption information acquisition and improve the value of energy-consumption information,a technical architecture for energy-consumption information acquisition service is proposed,which applies edge computing,narrowband Internet of things technology and terminal meter data into the technical architecture.A layered architecture model of ubiquitous energy-consumption information acquisition service under the background of energy Internet is constructed and its key supporting technologies are analyzed.From the point of view of terminal meter and its energy-consumption data,the realization approaches of data acquisition of multi-meter integration,energy maintenance and abnormal energyconsumption behavior analysis are expounded respectively.A typical application architecture for ubiquitous energy-consumption information acquisition is designed,which can provide a reference for the intelligent operation and maintenance of energy in energy Internet.
作者
黄瑞
刘谋海
方旎
陈向群
陆俊
蔡鹏
HUANG Rui;LIU Mouhai;FANG Ni;CHEN Xiangqun;LU Jun;CAI Peng(State Grid Hunan Power Supply Service Center(Measurement Center)Key Laboratory of Intelligent Electrical Measurement and Application Technology,Changsha 410004,China;School of Energy and Electrical Engineering,HoHai University,Nanjing 210098,China;School of Electric and Electronic Engineering,North China Electric Power University,Beijing 102206,China)
出处
《电力信息与通信技术》
2020年第5期41-45,共5页
Electric Power Information and Communication Technology
基金
国网湖南省电力公司科技项目资助“基于物联网技术的智能电能表的设计与现场抄收技术研究”(SGHNKJ2018002016)。
关键词
能源互联网
多表合一
窄带物联网
信息采集系统
energy Internet
multi-meter integration
narrow band internet of things
information acquisition system