Experimental investigations of air conditioning solutions in high power density data centers using a scaled physical model
International Journal of Refrigeration • 2015
معلومات البحث
المؤلفون
S.A. Nada, K.E. Elfeky, Ali M.A. Attia
الكلمات المفتاحية
Data center; air conditioning; physical modeling; thermal management; aisle partition; aisle containment
المجلة العلمية
International Journal of Refrigeration
الناشر
Not Available
المجلد
Not Available
العدد
Not Available
الصفحات
Not Available
publication.type
International
رابط البحث
Not Available
المواد المرفقة
Not Available
الملخص
Abstract
The widespread use of data centers, the dramatically increase of the data center power density and the need of improving cooling system efficiency to maintain reliable operation temperature and save cooling energy make the study of data center thermal management an urgent issue. In the current paper, three different configurations for thermal management solution of high power density data centers are investigated, compared and evaluated. A scaled physical model data center have been designed and constructed for the sake of the study using the theory of scale modeling of air flow experiments. The results showed that (i) by using aisle partition and aisle containment the rack inlet temperature can be reduced by 3–13% and 13%-15.5% for aisle partition and aisle containment configurations, respectively, (ii) the intake air temperature reduction increases with increasing power density, (iii) using aisle partitions and aisle containment with raised floor improves the data center cooling performance.
The widespread use of data centers, the dramatically increase of the data center power density and the need of improving cooling system efficiency to maintain reliable operation temperature and save cooling energy make the study of data center thermal management an urgent issue. In the current paper, three different configurations for thermal management solution of high power density data centers are investigated, compared and evaluated. A scaled physical model data center have been designed and constructed for the sake of the study using the theory of scale modeling of air flow experiments. The results showed that (i) by using aisle partition and aisle containment the rack inlet temperature can be reduced by 3–13% and 13%-15.5% for aisle partition and aisle containment configurations, respectively, (ii) the intake air temperature reduction increases with increasing power density, (iii) using aisle partitions and aisle containment with raised floor improves the data center cooling performance.
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