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Abstract
The thermal performance of a 115 L latent heat storage prototype for
cooling data centers was investigated. Experimentally, the heat transfer
power and heat absorbed by the heat exchanger during the charging and
discharging processes were measured at two flow rates (5 and 10 L/min).
Numerically, two phase-change models were developed using the enthalpy
and effective heat capacity methods, respectively. The results showed
that the enthalpy method provides an overall better prediction of the
absorbed heat, whereas the other method only agrees well with the
measured results during the melting process. Thus, it is suggested that
further modification of the effective heat capacity with temperature
improves the agreement between the results. For a volume flow rate of
5 L/min, the average heat transfer power predicted by the enthalpy model
was 2290 W during the melting process and > 920 W during the
solidification process due to the smaller temperature difference for
heat transfer caused by supercooling. The prototype achieved the highest
average heat exchange capacity rate when melted to a 50% of its total
capacity. This study provides a baseline for predicting and improving
the thermal performance of latent heat storage.
Original language | English |
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Article number | 121598 |
Journal | Applied Thermal Engineering |
Volume | 236 Part B |
Number of pages | 14 |
ISSN | 1359-4311 |
DOIs | |
Publication status | Published - 2023 |
Keywords
- Cold storage
- Computational fluid dynamics
- Data center
- Heat exchange capacity rate
- Phase change material
- Thermal energy storage
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Dive into the research topics of 'Numerical investigations of a latent thermal energy storage for data center cooling'. Together they form a unique fingerprint.Projects
- 1 Finished
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Cool-Data: Cool-Data: Flexible Cooling of Data Centers
Dominkovic, D. F. (PI), Bergaentzlé, C. (Project Participant), Englmair, G. (Project Participant), Furbo, S. (Project Participant), Madsen, H. (Project Participant), Junker, R. G. (Project Participant), Brok, N. B. (Project Participant), Stefansen, R. (Project Participant) & Kokkegård, H. (Project Participant)
01/09/2020 → 29/02/2024
Project: Research