Please use this identifier to cite or link to this item: https://hdl.handle.net/20.500.11851/9890
Title: The Permeability Effects of Copper-Nanofluid Flow With Using the Porous Media Model
Authors: Tongkratoke, A.
Pramuanjaroenkij, A.
Chaengbamrung, A.
Kakaç, S.
Keywords: Copper
Laminar flow
Nanofluid
Permeability
Porous media
Publisher: Begell House Inc.
Abstract: To increase heat transfer performances in heat exchangers, heat transfer media play important roles and are improved continuously. Nanofluids, combinations of base fluids and nanoparticles, are one of the media which are developed progressively, especially by enhancing the nanofluid and nanoparticle properties. This work focused on studying permeability effects of the Cu-water nanofluid flows. The mathematical model of the nanofluid flow has been developed as the steady flow of the fluid with nanofluid properties through the porous medium of the Cu nanoparticles. The simulated nanofluid flow was under fully developed laminar flow condition through a rectangular pipe as in electronic applications. The governing equations written in terms of the 3D dimensionless variables were solved through an in-house program by using the finite volume method with the SIMPLE algorithm. Since the nanoparticle arrangement was simulated as the porous media, so effects of the porous properties; permeability and thermal conductivity of Cu, were studied. From results, the calculated convective heat transfer coefficients with using the mixing thermal conductivity model; Yu and Choi model coupled with Maxwell model, as the model of the fluid flowing through the Cu porous medium, were closer to the coefficients obtained from the experimental work than those with using other mixing models. Then, the best mixing model was brought to investigate the effects of the Cu permeability values, from 1.17 10-11 to 2 m2, the simulated results from 1.17 10-11 to 0.001 m2 were approaching to the experimental results, noted that the Cu permeability was found at 1.17 10-11 m2 . The developed model using the mixing thermal conductivity model with the porous media and the suitable permeability assumption could improve the model performance and supported its excellent potential in the nanofluid simulation as the porous media. © 2021, Begell House Inc. All rights reserved.
Description: 6th International Symposium on Advances in Computational Heat Transfer , CHT 2015 -- 25 May 2015 through 29 May 2015 -- 269129
URI: https://doi.org/10.1615/ICHMT.2015.IntSympAdvComputHeatTransf.650
https://hdl.handle.net/20.500.11851/9890
ISBN: 9.78E+12
ISSN: 2578-5486
Appears in Collections:Scopus İndeksli Yayınlar Koleksiyonu / Scopus Indexed Publications Collection

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