DocumentCode :
634790
Title :
Effect of climatic conditions on energy consumption in direct fresh-air container data centers
Author :
Endo, Hiroshi ; Kodama, Hiroyoshi ; Fukuda, Hiroshi ; Sugimoto, Taku ; Horie, Toshihiro ; Kondo, Makoto
Author_Institution :
Fujitsu Labs. Ltd., Atsugi, Japan
fYear :
2013
fDate :
27-29 June 2013
Firstpage :
1
Lastpage :
10
Abstract :
To examine the use of fresh-air cooling to reduce energy consumption in container data centers (CDCs) regardless of location, a prototype fresh-air-cooled CDC was constructed in a Tokyo suburb, and a year-long operating test was conducted. Fresh-air cooling of information technology (IT) equipment does not require energy for air conditioning, and can be operated at reduced cost and energy usage. However, the characteristics of fresh-air change throughout the year, which would make it difficult to maintain inside temperature and humidity of a server room at the set points. Also, some geographic locations may be unsuitable for CDCs cooled directly by fresh-air. In addition to fresh-air cooling, CDCs at these locations have been equipped with supplemental air-conditioning units such as air conditioners to control the internal temperature and humidity. To reduce energy usage, it is desirable to use energy conservation methods such as evaporative cooling and waste heat from IT equipment as supplemental air-conditioning because they can be more feasible in compact facilities than conventional air conditioners. Although data centers (DCs) that supplement fresh-air cooling with these air-conditioning methods are currently in operation, it is not clear whether these methods can be applied in any location regardless of the climatic conditions. Depending on the application, in particular, it is necessary to set up CDCs in urban suburbs, because large access latency for users may be required. To examine these issues, a fresh-air-cooled CDC was set up and evaluated for one year in a Tokyo suburb, under different climate conditions of existing fresh-air-cooled DCs. The results confirmed that evaporative cooling and the use of waste heat from IT equipment were sufficient to support direct fresh-air cooling even when the characteristics of fresh-air were outside the range of acceptable server settings. Moreover, this CDC realized an annual energy savings of 20.8% compared with the- centers that use conventional air conditioning. Furthermore, the power usage effectiveness of this CDC was found to be 1.058 from the energy usage and was compared with that of existing direct fresh-air-cooled DCs which is located in the urban suburbs. The CDC near Tokyo exhibited similar energy savings to other DCs.
Keywords :
air conditioning; climate mitigation; computer centres; cooling; cost reduction; energy consumption; evaporation; humidity; waste heat; CDC near Tokyo; IT equipment; Tokyo suburb; access latency; air-conditioning methods; annual energy savings; climate conditions; climatic conditions; conventional air conditioning; direct fresh-air container data centers; direct fresh-air-cooled DC; energy conservation methods; energy consumption reduction; energy usage reduction; evaporative cooling; fresh-air cooling; geographic locations; humidity; information technology equipment; inside temperature; internal temperature; prototype fresh-air-cooled CDC; reduced cost; server settings; supplemental air-conditioning units; urban suburbs; waste heat; Energy consumption; Fans; Humidity; Servers; Temperature measurement; Waste heat; container data center; energy reduction; energy saving; evaporative cooling; fresh-air cooling;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Green Computing Conference (IGCC), 2013 International
Conference_Location :
Arlington, VA
Type :
conf
DOI :
10.1109/IGCC.2013.6604472
Filename :
6604472
Link To Document :
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