Rizal Faris Mustaram, Teguh Solavide Gulo, E. Leksono, J. Pradipta
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引用次数: 0
摘要
该研究采用数字孪生技术,通过数据中心暖通空调系统的实时数据预测热负荷。利用IoT (Internet of Things)技术对物理设备系统进行数字化,并通过该技术创建一个数字空间来表示预测模型。使用物联网技术创建了数据采集和实时监控系统的仪表,并对数据中心冷却系统的性能进行了分析。本研究的目的是获得数据中心能源系统的热负荷预测,然后使用热平衡方法对其进行分析,以确定现有数据中心冷却设备的热负荷与性能(制冷量)的比率。这样做是为了确定节能的潜力。2022年10月25日和26日的平均预测热负荷分别为30.66 kW/h和29.88 kW/h。因此,PAC 1的热平衡值与安装的冷却设备的标称制冷量的比值为40.95%,PAC 2为49.21%。
Energy Audit on Campus Data Center for Digital Twin-Based Energy Efficiency
The research was developed using digital twin techniques to predict thermal loads through real-time data on the HVAC system in the data center. The physical device system was digitalized using IoT (Internet of Things) technology, and through this technology, a digital space was created to represent the prediction model. Instrumentation for data acquisition and real-time monitoring systems was created using IoT techniques, as well as an analysis of the performance of the data center cooling system. The aim of this research was to obtain thermal load predictions for the data center energy system and then analyze them using the heat balance method to determine the ratio of thermal load to the performance (cooling capacity) of the existing data center cooling devices. This was done to determine the potential for energy savings. The average predicted thermal load was 30.66 kW/h on October 25, 2022, and 29.88 kW/h on October 26, 2022. Therefore, the heat balance value against the nominal cooling capacity of the installed cooling devices was 40.95% for PAC 1 and 49.21% for PAC 2.
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