Analysis of thermosolutal buoyancy-driven suspension comprising nano-encapsulated phase change materials using finite element method and ANN-based MLP algorithm

•Thermosolutal buoyancy-driven suspension comprising NEPCMs and entropy is studied.•The inclined H-shaped enclosure is equipped with wavy walls and fins.•Forchheimer-Brinkman extended Darcy model is applied to model porous medium.•Geometrical impact on the entropy and hydrothermal features of NEPCM...

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Published inJournal of the Taiwan Institute of Chemical Engineers Vol. 168; p. 105912
Main Authors Kouki, Marouan, Nayak, M.K., Irshad, Kashif, Mesfer, Mohammed K. Al, Danish, Mohd, Pasha, Amjad Ali, Zahir, Md Hasan, Chamkha, Ali J.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2025
Subjects
ANN-based MLP algorithm
Double-diffusive NEPCMs
Geometrical change
Inclined H-shaped domain
Rib and Baffle
Wavy wall
Inclined H-shaped domain
Rib and Baffle
Double-diffusive NEPCMs
Wavy wall
Geometrical change
ANN-based MLP algorithm
Online AccessGet full text
ISSN1876-1070
DOI10.1016/j.jtice.2024.105912

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Abstract •Thermosolutal buoyancy-driven suspension comprising NEPCMs and entropy is studied.•The inclined H-shaped enclosure is equipped with wavy walls and fins.•Forchheimer-Brinkman extended Darcy model is applied to model porous medium.•Geometrical impact on the entropy and hydrothermal features of NEPCM is analyzed.•ANN-based MLP learning algorithm is applied to predict the values of temperature and concentration. The present research problem is the investigation of thermal behavior of double-diffusive nano-encapsulated phase change materials (NEPCMs) inside a porous H-shaped wavy cavity with two baffles at the top rib. By using accessible renewable energy sources and off-peak electricity, the application of double-diffusive NEPCM in components can lower energy consumption and interior temperature variation. Such embedded H-shaped wavy cylinder with NEPCM suspension can be applied for diversified thermal uses in cooling devices and heat exchangers. The purpose of this study is to explore the effect of geometrical change on hydro-thermal and entropy behaviors of double-diffusive NEPCM suspension within a Forchheimer-Brinkman extended Darcy medium-based H-shaped cavity with wavy walls and hot baffles at upper rib. The current problem is solved by implementing finite element method (FEM) and to estimate the values of temperature and concentration, artificial neural network (ANN)-based multi-layer perceptron (MLP) is applied. The major outcomes are that the average Nusselt number whittles down by 22%, 32%, and 44% and average Sherwood number peters out by 21%, 33%, and 53% for rise in baffle length from 0.1 to 0.3, rib's size from 0.25 to 0.35 and angle from 0° to 90°, respectively. Moreover, Bejan number decreases with amplification of Raleigh number and upsurges due to augmentation of baffle length. Furthermore, mean square error for the validation data is 3.0649e-4 which shows superior ability of applied ANN-based MLP in estimating the values of temperature and concentration. Subject to proper alteration of several geometries such as baffle length, rib size, wavy wall undulation, and inclination angle, greater cooling effect of H-shaped chamber is accomplished in the presence of double diffusive NEPCM suspension applicable to lowering energy consumption and interior temperature variation thereby improving thermal performance of components. [Display omitted]
AbstractList •Thermosolutal buoyancy-driven suspension comprising NEPCMs and entropy is studied.•The inclined H-shaped enclosure is equipped with wavy walls and fins.•Forchheimer-Brinkman extended Darcy model is applied to model porous medium.•Geometrical impact on the entropy and hydrothermal features of NEPCM is analyzed.•ANN-based MLP learning algorithm is applied to predict the values of temperature and concentration. The present research problem is the investigation of thermal behavior of double-diffusive nano-encapsulated phase change materials (NEPCMs) inside a porous H-shaped wavy cavity with two baffles at the top rib. By using accessible renewable energy sources and off-peak electricity, the application of double-diffusive NEPCM in components can lower energy consumption and interior temperature variation. Such embedded H-shaped wavy cylinder with NEPCM suspension can be applied for diversified thermal uses in cooling devices and heat exchangers. The purpose of this study is to explore the effect of geometrical change on hydro-thermal and entropy behaviors of double-diffusive NEPCM suspension within a Forchheimer-Brinkman extended Darcy medium-based H-shaped cavity with wavy walls and hot baffles at upper rib. The current problem is solved by implementing finite element method (FEM) and to estimate the values of temperature and concentration, artificial neural network (ANN)-based multi-layer perceptron (MLP) is applied. The major outcomes are that the average Nusselt number whittles down by 22%, 32%, and 44% and average Sherwood number peters out by 21%, 33%, and 53% for rise in baffle length from 0.1 to 0.3, rib's size from 0.25 to 0.35 and angle from 0° to 90°, respectively. Moreover, Bejan number decreases with amplification of Raleigh number and upsurges due to augmentation of baffle length. Furthermore, mean square error for the validation data is 3.0649e-4 which shows superior ability of applied ANN-based MLP in estimating the values of temperature and concentration. Subject to proper alteration of several geometries such as baffle length, rib size, wavy wall undulation, and inclination angle, greater cooling effect of H-shaped chamber is accomplished in the presence of double diffusive NEPCM suspension applicable to lowering energy consumption and interior temperature variation thereby improving thermal performance of components. [Display omitted]
ArticleNumber 105912
Author Irshad, Kashif
Kouki, Marouan
Nayak, M.K.
Mesfer, Mohammed K. Al
Danish, Mohd
Pasha, Amjad Ali
Zahir, Md Hasan
Chamkha, Ali J.
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  fullname: Nayak, M.K.
  email: manojkumarnayak@soa.ac.in, mkn2122@gmail.com
  organization: Department of Mechanical Engineering, ITER, Siksha 'O' Anusandhan Deemed to be University, Bhubaneswar, 751030, India
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  givenname: Kashif
  surname: Irshad
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  givenname: Mohammed K. Al
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  fullname: Pasha, Amjad Ali
  organization: Aerospace Engineering Department, King Abdulaziz University, Jeddah, 21589, Saudi Arabia
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  givenname: Md Hasan
  surname: Zahir
  fullname: Zahir, Md Hasan
  organization: Interdisciplinary Research Centre for Sustainable Energy Systems (IRC-SES), Research Institute, King Fahd University of Petroleum & Minerals, Dhahran, 31261, Saudi Arabia
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  givenname: Ali J.
  surname: Chamkha
  fullname: Chamkha, Ali J.
  organization: Faculty of Engineering, Kuwait College of Science and Technology, Doha District, Kuwait
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Keywords Inclined H-shaped domain
Rib and Baffle
Double-diffusive NEPCMs
Wavy wall
Geometrical change
ANN-based MLP algorithm
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Snippet •Thermosolutal buoyancy-driven suspension comprising NEPCMs and entropy is studied.•The inclined H-shaped enclosure is equipped with wavy walls and...
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SubjectTerms ANN-based MLP algorithm
Double-diffusive NEPCMs
Geometrical change
Inclined H-shaped domain
Rib and Baffle
Wavy wall
Title Analysis of thermosolutal buoyancy-driven suspension comprising nano-encapsulated phase change materials using finite element method and ANN-based MLP algorithm
URI https://dx.doi.org/10.1016/j.jtice.2024.105912
Volume 168
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