热通道气流遏制和冷通道气流遏制均可显著提高数据核心制冷系统的可预测性和效率。尽管两种方式均可消除冷、热空气的混合，但在实施中两者仍存在现实的差别，而且这种差别将产生显著的影响。本文将对两种方法进行研究，并着重阐述为什么热通道气流遏制系统是解决高密度和提高制冷效率的最优化方案。

(Both hot aisle containment and cold aisle containment can significantly improve the predictability and efficiency of data core cooling systems. Although both methods can eliminate the mixing of cold and hot air, there are practical differences between the two in implementation, and this difference will have a significant impact. This article examines both approaches and focuses on why hot aisle containment is the optimal solution to address high densities and improve cooling efficiency.)

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热通道气流遏制和冷通道气流遏制均可显著提高数据核心制冷系统的可预测性和效率。尽管两种方式均可消除冷、热空气的混合，但在实施中两者仍存在现实的差别，而且这种差别将产生显著的影响。本文将对两种方法进行研究，并着重阐述为什么热通道气流遏制系统是解决高密度和提高制冷效率的最优化方案。

(Both hot aisle containment and cold aisle containment can significantly improve the predictability and efficiency of data core cooling systems. Although both methods can eliminate the mixing of cold and hot air, there are practical differences between the two in implementation, and this difference will have a significant impact. This article examines both approaches and focuses on why hot aisle containment is the optimal solution to address high densities and improve cooling efficiency.)

[下载]10252410915.rar

2022-8-27 10:25 上传

文件大小: 362 KB
下载次数: 0