Impact of fin number and nanoparticle size on molten salt NanoPCM melting in finned annular space
Author:
Publisher
Elsevier BV
Subject
Electrical and Electronic Engineering,Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment
Reference67 articles.
1. Role of orientation of fins in performance enhancement of a latent thermal energy storage unit;Khan;Appl. Therm. Eng.,2020
2. Melting performance enhancement of PCM based thermal energy storage system using multiple tubes and modified shell designs;Qaiser;J. Energy Storage,2021
3. Performance enhancement of double-wall-heated rectangular latent thermal energy storage unit through effective design of fins;Shafiq;Case Stud. Therm.,2021
4. 3D validation, improving the melting performance of a horizontal shell-tube latent-heat thermal energy storage unit using local enhanced finned tube;Deng;Energy Build.,2019
5. 3D validation, evaluation and optimization of thermal performance for a finned double tube latent heat thermal energy storage;Deng;Int. J. Heat Mass Transfer,2019
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1. Study on performance of carbon nanotube composite phase change cold storage sphere with annular fins;Journal of Energy Storage;2024-02
2. Enhancing Heat Storage Cooling Systems via the Implementation of Honeycomb-Inspired Design: Investigating Efficiency and Performance;Energies;2024-01-10
3. Effect of high Hartmann number on thermal performance of SWCNT-Fe3O4 hybrid nanoenhanced PCM in magnetized minichannel;Results in Engineering;2023-12
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