Impact of ASHRAE environmental classes on data centers

M. David, R. Schmidt
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引用次数: 15

Abstract

Data centers consume a significant amount of energy in the US and worldwide, much of which is consumed by the cooling infrastructure, particularly the chiller plant and computer room air conditioners and air handlers. To enable energy efficient data center designs, ASHRAE added two new IT environmental classes, A3 and A4, with associated allowable inlet air temperatures of 40C and 45C respectively. IT equipment that meet these new allowable environmental envelopes can operate in data centers with minimal refrigeration cooling and instead rely on ambient free cooling. In this paper we investigate the impact of allowing a data center to operate up to the A3 limit of 40C on total data center energy use for 3 different types of servers in a chiller-less data center located in a variety of locations. The study finds that though facility power reduces as the demand for cold air reduces, the increase in IT power consumption, due to fan speed-up, can offset these savings and in some cases result in an overall increase in data center power. Thus the most energy efficient operating point is dependant on the specific energy use profiles of the infrastructure and the IT equipment. The higher allowable temperature can also result in higher failure rates and an increased risk of equipment or service loss due to data center cooling failures. This paper also presents a study on the potential for chiller elimination and chiller use reduction across the US, Europe and in India by operating in the various ASHRAE envelopes. For wet, water side economized data centers, A2 and A3 equipment is sufficient to almost completely remove the need for chillers in many geographic locations.
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ASHRAE环境等级对数据中心的影响
在美国和世界范围内,数据中心消耗了大量的能源,其中大部分被冷却基础设施消耗,特别是冷却器设备和计算机机房空调和空气处理器。为了实现节能的数据中心设计,ASHRAE增加了两个新的IT环境等级,A3和A4,相关的允许进风温度分别为40摄氏度和45摄氏度。满足这些新允许的环境信封的IT设备可以在数据中心中以最小的制冷冷却运行,而不是依赖于环境自然冷却。在本文中,我们研究了允许数据中心运行到A3极限(40C)对位于不同位置的无冷却器数据中心中3种不同类型的服务器的总数据中心能源使用的影响。该研究发现,虽然随着对冷空气需求的减少,设施功耗也会降低,但由于风扇加速,IT功耗的增加可以抵消这些节省,并且在某些情况下会导致数据中心功耗的整体增加。因此,最节能的操作点取决于基础设施和IT设备的特定能源使用概况。较高的允许温度还可能导致更高的故障率,以及由于数据中心冷却故障而导致设备或服务损失的风险增加。本文还提出了一项关于在美国,欧洲和印度通过在各种ASHRAE信封中运行的冷水机消除和冷水机使用减少的潜力的研究。对于湿的、水侧的节能型数据中心,A2和A3设备足以在许多地理位置几乎完全消除对冷水机的需求。
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