Abstract
Data centers are mission-critical infrastructures. There are strict service level requirements and standards imposed on operators and maintainers to ensure reliable run-the-clock operation. In the context of thermal management and data hall environmental control, the formation of hot and cold spots around server cabinets are especially undesirable, and can result in overheating, lifespan reductions, and performance throttling in the former and condensation damage in the latter. In this paper, we present a comprehensive multi-pronged methodology in data center environmental control, comprising computational fluid dynamics (CFD) simulation-aided predictive design first-stage approach, and a complementing Internet of Things (IoT) reactive management system that autonomously monitors and regulates fluctuations in thermal parameters. The novel hybrid methodology is demonstrated on various test scenarios derived from real-world context, and prototypes of the IoT system have been experimentally validated. The approach is shown to be efficient in eliminating unfavourable environmental variations and provides an enhanced understanding of common design problems and respective mitigation measures.
Highlights
Cooling processes serve a critical role in the effective operation of data centers [1]–[3]
APPROACH 2: AN INTERNET OF THINGS (IOT) MANAGEMENT SYSTEM The simulation-based predictive approach presented enables better-informed decision-making in the planning and design of data centers, and allows changes in configuration to be virtually evaluated before actual implementation in a live setting
In this paper, we have demonstrated a multi-pronged approach to enhance and optimize data center cooling, firstly through a simulation-based predictive method leveraging on computational fluid dynamics (CFD) and heat transport computational analyses, and secondly through a novel reactive Internet of things (IoT) feedback-controlled autonomous management system
Summary
KANG HAO CHEONG 1,2, (Member, IEEE), KENNETH JIAN WEI TANG1, JIN MING KOH1, SIMON CHING MAN YU3, U.
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