Author(s)

Mohammad Khan¹, Nan Zhao¹, Tianhao Xu²

¹Department of Physics, Division of Nuclear Power Safety, Royal Institute of Technology (KTH), Stockholm, Sweden.
²Department of Energy Technology, KTH Royal Institute of Technology (KTH), Stockholm, Sweden.

The present work focus on the thermal performance of a horizontal concentric heat exchanger, which is numerically investigated to evaluate the heat transfer enhancement process by adding fins with different configurations. As a part of this investigation, the melting process is simulated from the onset of phase change to the offset involving physics of natural convection in PCM fluid pool. The investigation is carried out by ANSYS Fluent code, which is an efficient numerical analysis tool for investigating fluid flow and convective heat transfer phenomena during PCM melting process. The attention is mainly focused on the extension of contact area between the PCM body and cylindrical capsule to enhance heat transfer rates to PCM bodies during the melting process by employing longitudinal fins in the enclosed capsule. Two commercial PCMs: RT50 and C58, are introduced in a 2D cylindrical pipe with their thermo-physical properties as input for modelling. The selected modelling approach is validated against experimental result with respect to the total enthalpy changes that qualify our model to run in the proceeding calculation. It is ensured that an isothermal boundary condition (373 K) is applied to the inner pipe throughout the series of simulation cases and the corresponding Rayleigh number (Ra) ranges from 10⁴ - 10⁵ and Prandtl number (Pr) 0.05 - 0.07. Finally, parametric study is carried out to evaluate the effect of length, thickness and number of longitudinal fins on the thermal performance of PCM-LHTES (Latent Heat Thermal Energy Storage) system associated with the physics of natural convection process during PCM melting.

Phase Change Materials (PCM), Natural Convection, Thermal Energy Storage (TES), CFD Simulation, Latent Heat Based Thermal Energy Storage (LHTES), Enthalpy

Khan, M. , Zhao, N. and Xu, T. (2019) Numerical Assessment on Fin Design Parameters Employed for Augmentation of Natural Convection and Fluid Flow in a Horizontal Latent Heat Thermal Energy Storage Unit. Engineering, 11, 407-428. doi: 10.4236/eng.2019.117029.