Enhancing the thermal performance of a phase change energy storage assisted ventilation system via unit structure optimization for data center

Xu, Hongli, Zhou, Jiri, Liang, Xing, Yi, Xiaoyan, Wu, Hongwei, Mao, Ruiyong and Zhang, Zujing (2025) Enhancing the thermal performance of a phase change energy storage assisted ventilation system via unit structure optimization for data center. International Communications in Heat and Mass Transfer, 167 (B): 109396. ISSN 0735-1933
Copy

This numerical study aims to improve the melting uniformity of the phase change plate (PCP) by optimizing structure, enhancing the energy efficiency of PCP’s application in the ventilation system of data centers. The anterior-to-posterior slope ratio (Wr), fin configuration, and volume of the PCP are optimized. For the practical application of the PCP with an optimized structure and configuration, the effects of ambient temperature, air supply velocity, phase change temperature and thermal conductivity have been studied. The main results are as follows: (ⅰ) When the PCP changes from a rectangular body to a trapezoidal body, the uniformity of melting is improved by 93%. The average cooling range of PCP increases by about 0.5℃, and the energy-saving rate increases by 22%. (ⅱ)The structure of the PCP with the volume of 19 L, a Wr of 1.5 and double fin arranged horizontally parallel to the PCP effectively shorts the charging time from 14 h to 11.6 h. (ⅲ) A nonlinear functional relationship between the average cooling performance of the system and the main four variables is proposed. This work provides guidelines for the application of PCP in data center.

mail Request Copy

picture_as_pdf
Accepted_Manuscript.pdf
subject
Submitted Version
lock_clock
Restricted to Repository staff only until 21 July 2026
Available under Creative Commons: BY-NC-ND 4.0

Request Copy

EndNote BibTeX Reference Manager Refer Atom Dublin Core OpenURL ContextObject Data Cite XML MODS OPENAIRE RIOXX2 XML HTML Citation ASCII Citation METS MPEG-21 DIDL OpenURL ContextObject in Span
Export

Downloads