Energies (Feb 2021)

Impact of Tube Bundle Placement on the Thermal Charging of a Latent Heat Storage Unit

  • Mohammad Ghalambaz,
  • Amir Hossein Eisapour,
  • Hayder I. Mohammed,
  • Mohammad S. Islam,
  • Obai Younis,
  • Pouyan Talebizadeh Sardari,
  • Wahiba Yaïci

DOI
https://doi.org/10.3390/en14051289
Journal volume & issue
Vol. 14, no. 5
p. 1289

Abstract

Read online

The melting process of a multi-tube’s thermal energy storage system in the existence of free convection effects is a non-linear and important problem. The placement of heated tubes could change the convective thermal circulation. In the present study, the impact of the position of seven heat exchanger tubes was systematically investigated. The energy charging process was numerically studied utilizing liquid fraction and stored energy with exhaustive temperature outlines. The tubes of heat transfer fluid were presumed in the unit with different locations. The unit’s heat transfer behavior was assessed by studying the liquid fraction graphs, streamlines, and isotherm contours. Each of the design factors was divided into four levels. To better investigate the design space for the accounted five variables and four levels, an L16 orthogonal table was considered. Changing the location of tubes could change the melting rate by 28%. The best melting rate was 94% after four hours of charging. It was found that the tubes with close distance could overheat each other and reduce the total heat transfer. The study of isotherms and streamlines showed the general circulation of natural convection flows at the final stage of melting was the most crucial factor in the melting of top regions of the unit and reduces the charging time. Thus, particular attention to the tubes’ placement should be made so that the phase change material could be quickly melted at both ends of a unit.

Keywords