Exergy Analysis of Pump-driven Two-phase Loop System for Free Cooling in Data Centers

Zhu Wanpeng; Ma Guoyuan; Li Cuicui; Zhou Feng

doi:10.3969/j.issn.0253-4339.2019.03.024

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Exergy Analysis of Pump-driven Two-phase Loop System for Free Cooling in Data Centers

更新时间：2024-07-18

- Exergy Analysis of Pump-driven Two-phase Loop System for Free Cooling in Data Centers
- Journal of Refrigeration Vol. 40, Issue 3, (2019)
- 作者机构：
  
  北京工业大学环境与能源工程学院
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2019.03.024
  CLC：
- Published：2019
- 稿件说明：
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Zhu Wanpeng, Ma Guoyuan, Li Cuicui, et al. Exergy Analysis of Pump-driven Two-phase Loop System for Free Cooling in Data Centers[J]. Journal of refrigeration, 2019, 40(3).
DOI：

Zhu Wanpeng, Ma Guoyuan, Li Cuicui, et al. Exergy Analysis of Pump-driven Two-phase Loop System for Free Cooling in Data Centers[J]. Journal of refrigeration, 2019, 40(3). DOI： 10.3969/j.issn.0253-4339.2019.03.024.

摘要

为了降低数据中心的总能耗，本文提出了用于数据中心的自然冷却的泵驱动两相回路系统。基于稳流系统?平衡方程，对系统进行了优化分析，建立了系统及主要部件的?平衡模型，对3种工况下系统的?和?损进行了理论和实验比较，分析了各个部件的?损变化趋势和?损占比。结果表明：系统?损占比最大的装置是蒸发器，高达40%以上，其次是冷凝器和泵，达到了25%左右，在系统性能优化时应依次考虑蒸发器、冷凝器和泵3大部件的优化；对蒸发器和冷凝器优化可采取提高换热器的传热系数、增加传热面积、合理设定室内温度；对泵优化时应尽量保证其热力学过程接近定熵过程。

Abstract

To reduce the energy consumption in data centers

a pump-driven two-phase loop system was proposed for free-cooling in data centers. Based on the exergy balance equation of a steady-flow system

the system was analyzed and optimized in this study

and exergy balance models of components for the system were established. The variation and distribution of exergy loss for both the system and every single component were compared theoretically and experimentally under three different working conditions. The results showed that the largest exergy loss was from the evaporator at over 40%. The next largest loss was that of the condenser and pump at approximately 25% each. The evaporator

condenser

and pump should be considered in sequence for system improvement. Improving the heat transfer coefficient

increasing the heat transfer area appropriately

and setting a reasonable indoor temperature could be performed for optimization of the evaporator and condenser. To optimize the pump

the pump compression should be as close as possible to isentropic compression.

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