HOT WATER COOLED HEAT SINKS FOR EFFICIENT DATA CENTER COOLING: TOWARDS ELECTRONIC COOLING WITH HIGH EXERGETIC UTILITY

Kasten Peter; Michel Bruno; Poulikakos Dimos; Tiwari Manish; Zimmermann Severin

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HOT WATER COOLED HEAT SINKS FOR EFFICIENT DATA CENTER COOLING: TOWARDS ELECTRONIC COOLING WITH HIGH EXERGETIC UTILITY

机译：高效的热水冷却技术，可实现高效的数据中心冷却：朝着具有高能效实用性的电子冷却方向发展

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Electronic data center cooling using hot water is proposed for high system exergetic utility. The proof-of-principle is provided by numerically modeling a manifold micro-channel heat sink for cooling microprocessors of a data center. An easily achievable 0.5l/min per chip water flow, with 60°C inlet water temperature, is found sufficient to address the typical data center thermal loads. A maximum temperature difference of ~8°C was found between the solid and liquid, confirming small exergetic destruction due to heat transport across a temperature differential. The high water outlet temperature from the heat sink opens the possibility of waste heat recovery applications.

机译：提出了使用热水对电子数据中心进行冷却的方法，以提高系统的利用率。通过对用于冷却数据中心微处理器的歧管微通道散热器进行数值建模来提供原理证明。发现入口温度为60°C时，每片水流量轻松达到0.5l / min足以解决典型的数据中心热负荷。固体和液体之间的最大温差为〜8°C，这证实了由于跨温差的热传递而导致的少量热能破坏。散热器的高出水温度为废热回收应用提供了可能性。

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《Frontiers in Heat and Mass Transfer》 |2010年第2期|共页
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Kasten Peter; Michel Bruno; Poulikakos Dimos; Tiwari Manish; Zimmermann Severin;
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HOT WATER COOLED HEAT SINKS FOR EFFICIENT DATA CENTER COOLING: TOWARDS ELECTRONIC COOLING WITH HIGH EXERGETIC UTILITY

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