標題: | 使用部份旁通觀念應用於資料中心之機架式冷卻設備 Using "Partial Bypass" Concept to Augment In-row Cooler Applicable for Cooling Data Centre Servers |
作者: | 哈飛思 Hafiz ,M.Daraghmeh 王啟川 Wang,Chi-Chuan 機械工程系所 |
關鍵字: | 資料中心;機架式冷卻;旁通;水冷式熱交換器;壓降;Data centre;In-row cooling;partial bypass;water-cooled heat exchanger;pressure drop |
公開日期: | 2013 |
摘要: | In this research, a new idea of in-row cooler applicable for data centres servers was designed based on the concept of “partial-bypass”. The proposed in-row cooler aims to enhance the effectiveness and the performance of the current traditional in-row coolers by using partial–bypass, which enhances the heat transfer augmentation, temperature distribution, and pressure drop decrement[1]. The results showed clearly the effects of using "partial bypass" idea for both of the pypass designs [1&2], results obviously showed higher velocity average values for the pypass designs comparing with other typical design results.
Effectiveness and heat capacity results showed that partial pypass in-row cooler cases have much better enhancement in the cooling process comparing to the typical ones; bypass case 2 showed the best results of good temperature distribution, higher velocity average values, high effectiveness, and high heat transfer rate. In this research, a new idea of in-row cooler applicable for data centres servers was designed based on the concept of “partial-bypass”. The proposed in-row cooler aims to enhance the effectiveness and the performance of the current traditional in-row coolers by using partial–bypass, which enhances the heat transfer augmentation, temperature distribution, and pressure drop decrement[1]. The results showed clearly the effects of using "partial bypass" idea for both of the pypass designs [1&2], results obviously showed higher velocity average values for the pypass designs comparing with other typical design results. Effectiveness and heat capacity results showed that partial pypass in-row cooler cases have much better enhancement in the cooling process comparing to the typical ones; bypass case 2 showed the best results of good temperature distribution, higher velocity average values, high effectiveness, and high heat transfer rate. |
URI: | http://140.113.39.130/cdrfb3/record/nctu/#GT070051119 http://hdl.handle.net/11536/73897 |
Appears in Collections: | Thesis |