Thermo-solutal convective flow of nanofluid with Marangoni convection: An artificial neural network study considering thermophoresis and thermal radiation effects

A neural network backpropagation approach combined with the AI-integrated Levenberg-Marquardt algorithm provides a comprehensive analysis of the thermal radiation on thermos-solutal Marangoni convective flow of nanofluid with thermophoresis influenced by Lorentz force effects. In order to explain ma...

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Published inJournal of Radiation Research and Applied Sciences Vol. 18; no. 3; p. 101612
Main Authors Aoudia, Mouloud, Abbas, Munawar, Alazman, Ibtehal, Khan, Ilyas
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.09.2025
Subjects
Convective conditions
Levenberg-Marquardt algorithm
Marangoni convection
Nanofluid
Thermal radiation
Thermal radiation
Nanofluid
Convective conditions
Marangoni convection
Levenberg-Marquardt algorithm
Online AccessGet full text
ISSN1687-8507
DOI10.1016/j.jrras.2025.101612

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Abstract A neural network backpropagation approach combined with the AI-integrated Levenberg-Marquardt algorithm provides a comprehensive analysis of the thermal radiation on thermos-solutal Marangoni convective flow of nanofluid with thermophoresis influenced by Lorentz force effects. In order to explain mass and heat transmission and fluid flow, non-linear, coupled PDE (partial differential equations) are transformed into ODE (ordinary differential equations) with similarity scaling. The Bvp4c method is then used to resolve these equations numerically. The suggested model has important uses in many industrial and technical processes where mass transfer and heat are important factors. It is used in sophisticated material processing, cooling systems, and microfluidic devices where accurate thermal control is crucial. The research holds special significance for cooling mechanisms based on nanotechnology, including nuclear reactor safety and semiconductor chip cooling. Furthermore, the model's incorporation of Marangoni convection, thermophoresis, and thermal radiation effects renders it applicable to solar energy harvesting, biomedical engineering, and aerospace technology, all of which depend on effective heat dissipation and fluid stability. The concentration profile decreases as increase the thermophoretic parameter rise.
AbstractList A neural network backpropagation approach combined with the AI-integrated Levenberg-Marquardt algorithm provides a comprehensive analysis of the thermal radiation on thermos-solutal Marangoni convective flow of nanofluid with thermophoresis influenced by Lorentz force effects. In order to explain mass and heat transmission and fluid flow, non-linear, coupled PDE (partial differential equations) are transformed into ODE (ordinary differential equations) with similarity scaling. The Bvp4c method is then used to resolve these equations numerically. The suggested model has important uses in many industrial and technical processes where mass transfer and heat are important factors. It is used in sophisticated material processing, cooling systems, and microfluidic devices where accurate thermal control is crucial. The research holds special significance for cooling mechanisms based on nanotechnology, including nuclear reactor safety and semiconductor chip cooling. Furthermore, the model's incorporation of Marangoni convection, thermophoresis, and thermal radiation effects renders it applicable to solar energy harvesting, biomedical engineering, and aerospace technology, all of which depend on effective heat dissipation and fluid stability. The concentration profile decreases as increase the thermophoretic parameter rise.
ArticleNumber 101612
Author Khan, Ilyas
Aoudia, Mouloud
Alazman, Ibtehal
Abbas, Munawar
Author_xml – sequence: 1
  givenname: Mouloud
  orcidid: 0000-0002-9455-1297
  surname: Aoudia
  fullname: Aoudia, Mouloud
  organization: Department of Industrial Engineering, College of Engineering, Northern Border University, P.O. Box 1321, Arar, 91431, Saudi Arabia
– sequence: 2
  givenname: Munawar
  surname: Abbas
  fullname: Abbas, Munawar
  email: m.abbas7478@gmail.com
  organization: Department of Mathematics, Saveetha School of Engineering, Saveetha Institute of Medical and Technical Sciences, Saveetha University, Chennai, 602105, Tamil Nadu, India
– sequence: 3
  givenname: Ibtehal
  surname: Alazman
  fullname: Alazman, Ibtehal
  organization: Department of Mathematics and Statistics, College of Science, Imam Mohammad Ibn Saud Islamic University (IMSIU), Riyadh, Saudi Arabia
– sequence: 4
  givenname: Ilyas
  surname: Khan
  fullname: Khan, Ilyas
  organization: Department of Mathematics, College of Science, Al-Zulfi Majmaah University, Al-Majmaah, 11952, Saudi Arabia1
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Keywords Thermal radiation
Nanofluid
Convective conditions
Marangoni convection
Levenberg-Marquardt algorithm
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Snippet A neural network backpropagation approach combined with the AI-integrated Levenberg-Marquardt algorithm provides a comprehensive analysis of the thermal...
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StartPage 101612
SubjectTerms Convective conditions
Levenberg-Marquardt algorithm
Marangoni convection
Nanofluid
Thermal radiation
Title Thermo-solutal convective flow of nanofluid with Marangoni convection: An artificial neural network study considering thermophoresis and thermal radiation effects
URI https://dx.doi.org/10.1016/j.jrras.2025.101612
Volume 18
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