文章摘要
刘 俊,彭 浩,何 涵,张之涵,李诗卉,赵长乐.基于CPS架构的商业楼宇智能用能控制管理系统建设与应用[J].电力需求侧管理,2020,22(4):13-18
基于CPS架构的商业楼宇智能用能控制管理系统建设与应用
Construction and application of intelligent energy consumption control management system for commercial buildings based on CPS framework
投稿时间:2019-12-31  修订日期:2020-03-20
DOI:DOI:10. 3969 / j. issn. 1009-1831. 2020. 04. 004
中文关键词: 商业楼宇  信息物理系统  能效分析  用能管理
英文关键词: commercial buildings  cyber chysical system  efficiency analysis  energy consumption management
基金项目:国家自然科学基金项目(61973209)
作者单位
刘 俊 深圳供电局有限公司广东 深圳 518000 
彭 浩 深圳市康拓普信息技术有限公司广东 深圳 518000 
何 涵 深圳市康拓普信息技术有限公司广东 深圳 518000 
张之涵 深圳供电局有限公司广东 深圳 518000 
李诗卉 深圳供电局有限公司广东 深圳 518000 
赵长乐 北京慧和仕科技有限责任公司北京 100089 
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中文摘要:
      针对商业楼宇具有良好的节能及需求响应潜力的特点,提出了基于信息物理系统(cyber physical system, CPS)架构的商业楼宇智能用能控制系统。基于典型CPS系统的3层架构,单元级通过智能用能终端实现了空调、照明、电加热等用能系统的动态信息感知、标准化信息建模及控制;系统级通过智能用能网关开展多元信息融合及边缘计算,实现了楼宇的能效分析、能效诊断及多设备的协调控制;平台级通过智能用电主站系统实现了多商业楼宇用能响应潜力的聚合和协同优化。以深圳地区某商业楼宇为案例,部署应用了基于CPS架构的智能控制管理系统,结果证明用能调控响应程度显著提升,用能能耗明显下降。
英文摘要:
      In view of the good energy-saving and demand response potential of commercial buildings, an intelligent energy-using control system for commercial buildings based on cyber physical system(CPS)architecture is proposed. Based on the three-tier architecture of typical CPS system, unit level realizes dynamic information perception, standardized information modeling and control of energy-using systems such as air conditioning, lighting and electric heating through intelligent energy-using terminals. System level implements multi - information fusion and edge calculation through intelligent energy-using gateway to realize building energy efficiency analysis, energy efficiency diagnosis and coordinated control of multi-equipment. Platform level implements aggregation and synergetic optimization of energy response potential of multi-commercial buildings through intelligence. Take a commercial building in Shenzhen as an example, an intelligent control and management system based on CPS architecture is deployed and applied.The results show that responsiveness of energy regulation and control is significantly improved, and energy consumption is signifi-cantly reduced.
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