Journal ArticleDOI
CFD thermal energy storage enhancement of PCM filling a cylindrical cavity equipped with submerged heating sources
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TLDR
In this paper, a two-dimensional CFD simulations were performed to simulate the melting process of a phase change material (PCM) filling a cylindrical cavity which includes heating sources.Abstract:
In this paper, two-dimensional CFD simulations were performed to simulate the melting process of a phase change material (PCM) filling a cylindrical cavity which includes heating sources. A CFD model based on the physical enthalpy-porosity formulation was used to simulate the phase change of the solid Gallium and to optimize the geometry of the heating sources according to the operating conditions in terms of the applied temperatures. The geometric effect of the heating sources, as well as the boundary conditions on the heat transfer characteristics are investigated in detail. In fact, the evolution of the temperature, liquid fraction and streamlines contours for the studied configurations, namely the cylindrical heating sources and the heating source with fins for two applied temperatures ( T h = 40 ° C) and ( T h = 45 ° C) were carried out. Temperature and liquid fraction measurement were assessed numerically for some specific points located inside the studied configurations for determining the redesign effect of the heating sources. Finally yet importantly, the heat transfer coefficient at the heating sources has been defined as indicator of performance to measure the contribution of the fins in the improvement of the melting time within the cylindrical cavity. It has been found that the cylindrical cavity where four fins are integrated at each heating source have enhanced the heat transfer in the PCM and improved its melting time from 18.35 min to 13.35 min while applying a hot temperature ( T h = 40 ° C). Furthermore, the configuration with fins enhanced the heat transfer and improved the melting time of the PCM.read more
Citations
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A review of melting and freezing processes of PCM/nano-PCM and their application in energy storage
Sara Rostami,Masoud Afrand,Amin Shahsavar,Mohsen Sheikholeslami,Rasool Kalbasi,Saeed Aghakhani,Mostafa Safdari Shadloo,Hakan F. Oztop +7 more
TL;DR: In this article, a detailed illustration of phase change materials and their working principle, different types, and properties are provided, and a characteristic example of PCM in solar energy storage and the design of PCMs are reviewed and analyzed.
Journal ArticleDOI
Examining effects of special heat transfer fins designed for the melting process of PCM and Nano-PCM
TL;DR: In this article, a new heat transfer fin design was proposed to improve melting in thermal energy storage, which may improve melting of non-melting regions in TES, and the melting ratio at t = 120 min is 98% and 36% for base and nano PCMs, respectively.
Journal ArticleDOI
Melting heat transfer of power-law non-Newtonian phase change nano-enhanced n-octadecane-mesoporous silica (MPSiO2)
TL;DR: In this paper, a deformed mesh method based on the Arbitrary Lagrangian-Eulerian (ALE) was used to solve the Stefan problem in the case of nano-enhanced PCM.
Journal ArticleDOI
Melting performance enhancement of PCM based thermal energy storage system using multiple tubes and modified shell designs
TL;DR: In this article, experimental and numerical investigations are performed for heat transfer enhancement in a horizontal Latent Thermal Energy Storage System using multiple heat transfer tubes and modified shell designs, where Stearic acid is used as phase change material and it is placed in the annulus of steel shell and copper tubes carrying water as the heat transfer fluid.
Journal ArticleDOI
PCM addition inside solar water heaters: Numerical comparative approach
TL;DR: In this article, two numerical codes were built to predict the temperature evolution in a storage tank simulation filled by spherical PCM modules for solar hot water production, and the results showed that the choice of a numerical method plays an important role in describing efficiently the phase change phenomena and system thermal performance.
References
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Journal ArticleDOI
Phase change materials for thermal energy storage
TL;DR: In this article, the state of the art of phase change materials for thermal energy storage applications is reviewed and an insight into recent efforts to develop new phase change material with enhanced performance and safety.
Journal ArticleDOI
Enhance heat transfer for PCM melting in triplex tube with internal-external fins
Sohif Mat,Abduljalil A. Al-Abidi,Abduljalil A. Al-Abidi,Kamaruzzaman Sopian,M. Y. Sulaiman,Abdulrahman Th Mohammad +5 more
TL;DR: In this paper, the melting process in a triplex-tube heat exchanger with phase-change material (PCM) RT82.26 was numerically investigated using the Fluent 6.3.
Journal ArticleDOI
Using phase change materials in photovoltaic systems for thermal regulation and electrical efficiency improvement: A review and outlook
TL;DR: In this paper, a detailed review of the literature focused on the use of phase change materials (PCM) for photovoltaic (PV) module thermal regulation and electrical efficiency improvement is presented.
Journal ArticleDOI
Heat transfer enhancement of phase change composite material: Copper foam/paraffin
TL;DR: In this article, the phase change material paraffin was embedded in copper foam metal to form composite phase change materials, and the results showed that copper foam can effectively improve the internal heat transfer uniformity of the material.
Journal ArticleDOI
Passive cooling of buildings with phase change materials using whole-building energy simulation tools: A review
TL;DR: In this paper, an extensive review has been made, with regard to whole-building energy simulation for passive cooling, addressing the possibilities of applying different PCM-enhanced components into the building envelope and also the feasibility of PCM passive cooling system under different climate conditions.