دانلود رایگان مقاله انگلیسی فناوری خنک کننده رایگان برای مراکز داده: مکانیسم ذخیره انرژی و کاربردها - الزویر 2018

Abstract

Air conditioning and cooling systems account for about 40 % of total electricity usage in data centers. Free cooling is a novel and promising technology that can decrease the load ratio of electrical chiller and save cooling energy consumption accordingly, through making full use of natural free cooling source. In this paper, four typical free cooling systems are analyzed and compared, to show their mechanisms, main features, energy saving effects and applicable situations respectively. (1) Direct fresh air cooling is of the highest free cooling potential. However, it is hard to meet indoor air quality demand due to the indoor-outdoor air mixing. (2) Rotating wheel heat exchanger can be used for indirect free cooling, since indoor and outdoor air flow in different paths for heat exchange. While its power usage effectiveness (PUE) increases inevitably under the same climatic conditions. (3) Heat pipe can be integrated with rack back plate to enhance heat transfer with free cooling sources. Its cooling efficiency can increase by 3-5 times compared to traditional heat exchangers. (4) In water-based free cooling system, a heat exchanger is installed in parallel with electrical chiller and the system can work under three modes according to different outdoor temperature. Increasing the load ratio of free cooling can decrease PUE and save electricity usage. In practical applications, the cooling system design for data centers depends on various factors, such as indoor air quality requirement, local climatic conditions, energy saving demands, room space, capital investment and operation costs.

4. Conclusions

Decreasing the electricity usage of refrigeration system through free cooling technology is greatly important for energy saving in data centers. In this paper, four typical free cooling systems are introduced and analyzed, including direct fresh air cooling, rotating wheel heat exchanger, heat pipe back rack and water-based free cooling system. Furthermore, the comparison among these free cooling systems is conducted to show their mechanisms, main features, energy saving effects and applicable situations respectively (Table 1). In practical applications, the cooling system design for data centers depends on various factors, such as indoor air quality requirement, local climatic conditions, energy saving demands, room space, capital investment and operation costs. This work is of significance in guiding the design of refrigeration systems with free cooling technologies for practical data centers.