摘要
为满足智能电网负荷状态监测相关的教学与科研需求,基于非侵入式负荷监测技术设计了智慧用能实验平台。该实验平台采用云-端协同架构,由实验操作界面、数据服务器集群和零碳智慧小屋三部分构成,并具有拓扑灵活、扩展性强、重构性强的特点,同时支持多种分布式电源与负荷设备灵活接入,平台可开展非侵入式负荷状态感知实验、家庭能量管理实验及低压故障电弧检测实验。围绕该实验平台,可进一步设计多种理论教学实验和科学研究实验,助力新型电力系统领域卓越工程师的培养。
Facing the teaching and scientific research needs related to load monitoring of smart grid,an intelligent energy experiment platform is developed based on non-intrusive intelligent sensing technology.The overall design of the platform adopts the cloud-edge collaboration architecture,which consists of the human-computer interoperability interface,data server cluster and zero-carbon smart house.It has the advantages of flexible topology,strong scalability,good reconfigurability,and supports for a variety of flexible access to the generation and load devices,etc.By the platform,two basic experiments of load-side equipment state sensing,user energy management and low-voltage fault arc detection can be completed.Relying on the designed experimental platform,a variety of theoretical teaching experiments and scientific research experiments can be further designed to help cultivate outstanding engineers in the field of new-type power system.
作者
刘博
栾文鹏
宋关羽
张金江
张建锋
秦超
LIU Bo;LUAN Wenpeng;SONG Guanyu;ZHANG Jinjiang;ZHANG Jianfeng;QIN Chao(Key Laboratory of Smart Grid of the Ministry of Education,Tianjin University,Tianjin 300072,China)
出处
《实验室研究与探索》
北大核心
2025年第8期72-76,共5页
Research and Exploration In Laboratory
基金
教育部实验教学和教学实验室建设研究项目(教高司函[2024]6号)
天津市实验教学和教学实验室建设研究项目(津教高函[2024]11号)。
关键词
智慧用能
非侵入式负荷监测
用户能量管理
实验平台
intelligent energy usage
non-intrusive load monitoring
user energy management
experimental platform
