Approaches for expedition of discharging of PCM involving nanoparticles and radial fins

In this research, sinusoidal tank including inner circular cylinder was considered and to expedite the solidification, radial fins were installed over the inner cold cylinder. To improve the conduction, CuO nano sized material was added and effects of size of particles were involved. The governing e...

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Bibliographic Details
Published in:Journal of molecular liquids 2021-05, Vol.329, p.115052, Article 115052
Main Authors: Wang, Tong, Almarashi, Adel, Al-Turki, Yusuf A., Abu-Hamdeh, Nidal H., Hajizadeh, Mohammed Reza, Chu, Yu-Ming
Format: Article
Language:English
Subjects:
Galerkin approach
Heat release
Nanomaterial
Radial fins
Wavy tank
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Summary:In this research, sinusoidal tank including inner circular cylinder was considered and to expedite the solidification, radial fins were installed over the inner cold cylinder. To improve the conduction, CuO nano sized material was added and effects of size of particles were involved. The governing equations consist of energy equation with one source term of solid fraction and equation for distribution of ice fraction. To fins the solution, Galerkin approach was applied and different mesh configuration in various time step helps to capture the phenomena more accurate. Validation with experimental data shows the nice accommodation. So, influence of fins length and diameter of particles were imposed. As longer fins were employed, the solidification time reduces about 3.74% when dp = 40. As dp rises from 40 to 50, temperature augments and greater energy has been achieved because of augmentation of needed time from 175.44 to 264.05 s. Impact of dp on isotherms is more significant than fins length. •Sinusoidal tank including inner circular cylinder was considered.•Copper oxide nano sized material was utilized to reduce the solidification time.•As dp rises from 40 to 50, temperature augments.•Impact of dp on isotherms is more significant than fins length.
ISSN:0167-7322
DOI:10.1016/j.molliq.2020.115052