数据中心动态自然冷却空调系统及其应用
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摘要
介绍了数据中心动态自然冷却空调系统的系统组成、运行模式,并将其与制冷剂自然冷却系统进行性能对比,同时给出该系统的设计流程。依据各个不同制冷模式下系统耗能组件的运行状况对位于上海的某数据中心进行了节能分析,计算结果显示100%机房负载下该项目空调系统的年部分电能使用效率值(partial Power Usage Effectiveness,pPUE)可达1. 23,进一步分析发现:若室内机组采用直流无刷电机(Electrical Commutation,EC)调速涡旋压缩机或者室外采用闭式冷却塔作为散热设备,则系统的节能效果将进一步放大。动态自然冷却空调系统不仅安装便利、应用场合灵活、可靠性高,而且节能效果显著,其应用前景光明。
The compositions and operating modes of dynamic free cooling( DFC) air conditioning system in data center are presented. The DFC air conditioning system is compared with the air cooled computer room air conditioner( CRAC) assembled with refrigerant economizer on performance,the design flow of DFC system is introduced. According to the operation state of components of DFC system in different cooling modes,power consumption of a sample data center located in shanghai is analyzed.Based on the assumption that the data center runs under full load a whole year,the calculation results show that the annual partial Power Usage Effectiveness( pPUE) value of air conditioning system in the data center is about 1. 23. It is found that if the indoor units were equipped with electrical commutation( EC) variable speed scroll comp ressors or the system adopted closed cooling towers as outdoor heat rejection equipment,the energy saving effect of the system would be further enlarged. The DFC system is highly flexible,extremely reliable and remarkably energy saving,so it will be a good choice for green data centers.
The compositions and operating modes of dynamic free cooling( DFC) air conditioning system in data center are presented. The DFC air conditioning system is compared with the air cooled computer room air conditioner( CRAC) assembled with refrigerant economizer on performance,the design flow of DFC system is introduced. According to the operation state of components of DFC system in different cooling modes,power consumption of a sample data center located in shanghai is analyzed.Based on the assumption that the data center runs under full load a whole year,the calculation results show that the annual partial Power Usage Effectiveness( pPUE) value of air conditioning system in the data center is about 1. 23. It is found that if the indoor units were equipped with electrical commutation( EC) variable speed scroll comp ressors or the system adopted closed cooling towers as outdoor heat rejection equipment,the energy saving effect of the system would be further enlarged. The DFC system is highly flexible,extremely reliable and remarkably energy saving,so it will be a good choice for green data centers.
引文
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[2]朱永忠.数据中心制冷技术的应用及发展[J].工程建设标准化,2015,(8):62-66.
[3]谷立静,周伏秋,孟辉.我国数据中心能耗及能效水平研究[J].中国能源,2010,32(11):42-45.
[4]刘海静,刘芳,杨晖.带自然冷源的风冷冷水机组应用于数据中心的节能潜力分析[J].建筑节能,2015,43(4):17-20.
[5]娄小军,王学军.数据中心水冷冷冻水系统能效分析[J].建筑节能,2018,46(1):19-22.
[6]周小清,柳建华,徐小进,等.大型数据中心制冷系统设计[J].建筑节能,2016,44(12):26-30.
[7]陈海东.氟泵节能空调的节能技术和效果分析[J].邮电设计技术,2014,(12):83-86.
[8]杜桂媛.氟泵自然冷却系统在中小型数据中心的应用分析[C]//2017年数据中心规划设计及高级工程师研修班论文集,2017-08,北京:中国电子学会,2017:2-9.
[9]殷平.数据中心研究(7):自然冷却[J].暖通空调,2017,47(11):49-60.
[10]郭佳哲,张海涛.数据中心局部PUE的测量与计算[J].移动通信,2016,40(10):54-57.
[11]殷平.数据中心研究(4):关键性能指标、电能使用效率PUE和EEUE[J].暖通空调,2017,47(4):36-45.
[12]中国电子工程设计院. GB 50174—2017,数据中心设计规范[S].北京:中国计划出版社,2017.
[13]周英涛,张晓丹,刘忠赏.涡旋压缩机技术发展趋势[J].制冷与空调,2017,17(7):69-72.
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