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Research on heat transfer of the closed-loop thermosyphon system with microencapsulated phase change material suspension

Conference Paper


Abstract


  • Heat generation of datacenters becomes larger and larger because of the improvement of operational performance of equipment and the expansion of datacenter scale. Two-phase closed-loop thermosyphon system as a new type of cooling system, which has a large cooling capacity, has gotten a widespread attention. This paper investigates experimentally heat transfer performance of a closed-loop thermosyphon system by testing under different mass concentrations, heating and cooling scenarios. The system, filled with microencapsulated phase change material suspension (MPCMS), contains heating, cooling and adiabatic sections. The result shows that the convective heat transfer coefficient at the heating section inlet with 0.5% MPCMS is twice as much as that of base fluid. Hence, a closed-loop thermosyphon system with MPCMS is an effective scheme to enhance the performance of the cooling system.

Publication Date


  • 2019

Citation


  • Li, Y., Wang, S., Wang, J., Deng, X., Zhang, T., & Ma, Z. (2019). Research on heat transfer of the closed-loop thermosyphon system with microencapsulated phase change material suspension. In Refrigeration Science and Technology Vol. 2019-August (pp. 2288-2295). doi:10.18462/iir.icr.2019.0719

Scopus Eid


  • 2-s2.0-85082691883

Web Of Science Accession Number


Start Page


  • 2288

End Page


  • 2295

Volume


  • 2019-August

Issue


Place Of Publication


Abstract


  • Heat generation of datacenters becomes larger and larger because of the improvement of operational performance of equipment and the expansion of datacenter scale. Two-phase closed-loop thermosyphon system as a new type of cooling system, which has a large cooling capacity, has gotten a widespread attention. This paper investigates experimentally heat transfer performance of a closed-loop thermosyphon system by testing under different mass concentrations, heating and cooling scenarios. The system, filled with microencapsulated phase change material suspension (MPCMS), contains heating, cooling and adiabatic sections. The result shows that the convective heat transfer coefficient at the heating section inlet with 0.5% MPCMS is twice as much as that of base fluid. Hence, a closed-loop thermosyphon system with MPCMS is an effective scheme to enhance the performance of the cooling system.

Publication Date


  • 2019

Citation


  • Li, Y., Wang, S., Wang, J., Deng, X., Zhang, T., & Ma, Z. (2019). Research on heat transfer of the closed-loop thermosyphon system with microencapsulated phase change material suspension. In Refrigeration Science and Technology Vol. 2019-August (pp. 2288-2295). doi:10.18462/iir.icr.2019.0719

Scopus Eid


  • 2-s2.0-85082691883

Web Of Science Accession Number


Start Page


  • 2288

End Page


  • 2295

Volume


  • 2019-August

Issue


Place Of Publication