Variations of Systematic Solutions for 24-Hour Operating Sustainable Small-Scale Commercial Buildings
Purpose-Our research purpose is developing the Small Commercial Building Design Model (SCBDM). Our design model should be adopted for small-scale commercial stores (24-hour convenience store) in order to achieve to find efficiency of all installed technologies, energy use and demand, energy conservation and energy creation. Our research target of small size buildings have different environmental situations, so every project must select some common and different technologies. Development/ Methodology / Approach-All of the developed and designed projects have already been built and their operations are running without facility manager at each location. All of the pilot sustainable stores have visualization systems and AI control systems that provide optimized indoor temperature and humidity, IAQ, the control of HVAC devices, lighting, and their 24-hour optimization by machine learning. This paper displays both the common and locally integrated sustainable technologies implemented in the pilot projects, illustrating their economic benefits through actually monitored energy conservation and degrees of the usage of renewable energy. Findings Developed SCBDM (small commercial building design model) could be arranged to give conditions and scope of sustainable technologies. The model needs a feedback information system as EMS.We show three EMS (energy management system) levels for energy conservation and energy creation.Key developed technologies include information feedback EMS, AI control systems, and selection of design models arranged and organized by sustainable technologies.Originality/ value-Designed and developed AI control system achieves energy reduce and unman system control.
sustainable IoT (internet of things) machine learning AI (artificial intelligence) EMS (energy management system) energy conservation environment efficiency optimized control CO2 reduction
Bumpei MAGORI Tomonari YASHIRO Yu MORISHITA
Institute Industrial Science, the University of Tokyo, Japan
国际会议
2017世界可持续建筑环境大会(the World Sustainable Built Environment Conference)
香港
英文
379-386
2017-06-05(万方平台首次上网日期,不代表论文的发表时间)