Intensification of heat transfer with inclusion of nanoparticles and employ of Coulomb forces inside a driven enclosure

Yu Song; Adel Almarashi; Mahmoud Mohamed Selim; Xuejun Chen; Ahmad B. Albadarin; Z. Li

doi:10.1016/j.cep.2021.108467

Intensification of heat transfer with inclusion of nanoparticles and employ of Coulomb forces inside a driven enclosure

Yu Song
, Adel Almarashi
, Mahmoud Mohamed Selim
, Xuejun Chen
, Ahmad B. Albadarin
, Z. Li

Mathematics

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

This problem is applicable in electronic device and permeable media help the performance of such system. Dispersion of nano powders allows better transport of energy through the domain. As a result of augmenting permeability, Nusselt number (Nu) enhances and same impact reports for voltage. Augmenting voltage make boundary layer thinner and complex shape of isotherm appears which indicates greater convection. Growth of shape factor permits stronger Nu due to higher temperature gradient. As radiation term added in equations, higher heat flux transfer and magnitude of Nu enhances. With selecting platelet iron oxide, Nu will be augmented and highest value obtained when all factor are maximum.

Original language	English
Article number	108467
Journal	Chemical Engineering and Processing - Process Intensification
Volume	166
DOIs	https://doi.org/10.1016/j.cep.2021.108467
State	Published - Sep 2021

Keywords

Coulomb
Ferrofluid
Porous space
Radiation
Shape of nano powders

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10.1016/j.cep.2021.108467

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title = "Intensification of heat transfer with inclusion of nanoparticles and employ of Coulomb forces inside a driven enclosure",

abstract = "This problem is applicable in electronic device and permeable media help the performance of such system. Dispersion of nano powders allows better transport of energy through the domain. As a result of augmenting permeability, Nusselt number (Nu) enhances and same impact reports for voltage. Augmenting voltage make boundary layer thinner and complex shape of isotherm appears which indicates greater convection. Growth of shape factor permits stronger Nu due to higher temperature gradient. As radiation term added in equations, higher heat flux transfer and magnitude of Nu enhances. With selecting platelet iron oxide, Nu will be augmented and highest value obtained when all factor are maximum.",

keywords = "Coulomb, Ferrofluid, Porous space, Radiation, Shape of nano powders",

author = "Yu Song and Adel Almarashi and Selim, \{Mahmoud Mohamed\} and Xuejun Chen and Albadarin, \{Ahmad B.\} and Z. Li",

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T1 - Intensification of heat transfer with inclusion of nanoparticles and employ of Coulomb forces inside a driven enclosure

AU - Song, Yu

AU - Almarashi, Adel

AU - Selim, Mahmoud Mohamed

AU - Chen, Xuejun

AU - Albadarin, Ahmad B.

AU - Li, Z.

PY - 2021/9

Y1 - 2021/9

N2 - This problem is applicable in electronic device and permeable media help the performance of such system. Dispersion of nano powders allows better transport of energy through the domain. As a result of augmenting permeability, Nusselt number (Nu) enhances and same impact reports for voltage. Augmenting voltage make boundary layer thinner and complex shape of isotherm appears which indicates greater convection. Growth of shape factor permits stronger Nu due to higher temperature gradient. As radiation term added in equations, higher heat flux transfer and magnitude of Nu enhances. With selecting platelet iron oxide, Nu will be augmented and highest value obtained when all factor are maximum.

AB - This problem is applicable in electronic device and permeable media help the performance of such system. Dispersion of nano powders allows better transport of energy through the domain. As a result of augmenting permeability, Nusselt number (Nu) enhances and same impact reports for voltage. Augmenting voltage make boundary layer thinner and complex shape of isotherm appears which indicates greater convection. Growth of shape factor permits stronger Nu due to higher temperature gradient. As radiation term added in equations, higher heat flux transfer and magnitude of Nu enhances. With selecting platelet iron oxide, Nu will be augmented and highest value obtained when all factor are maximum.

KW - Coulomb

KW - Ferrofluid

KW - Porous space

KW - Radiation

KW - Shape of nano powders

UR - https://www.scopus.com/pages/publications/85108079460

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DO - 10.1016/j.cep.2021.108467

M3 - Article

AN - SCOPUS:85108079460

SN - 0255-2701

VL - 166

JO - Chemical Engineering and Processing - Process Intensification

JF - Chemical Engineering and Processing - Process Intensification

M1 - 108467

ER -

Intensification of heat transfer with inclusion of nanoparticles and employ of Coulomb forces inside a driven enclosure

Abstract

Keywords

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