Computational examination of heat and mass transfer of nanofluid flow across an inclined cylinder with endothermic/exothermic chemical reaction

The consequence of thermal performance and mass distribution of endothermic/exothermic chemical reaction and pollutant concentration on the nanoliquid stream via cylinder/plate in the presence of permeable media is explored in the present study. The advancement of efficient waste disposal and pollut...

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Published inCase studies in thermal engineering Vol. 57; p. 104336
Main Authors Karthik, K., Srilatha, Pudhari, Madhukesh, J.K., Khan, Umair, Prasannakumara, B.C., Kumar, Raman, Ishak, Anuar, Hussain, Syed Modassir, Muhammad, Taseer, Abdou, M. Modather M.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2024
Elsevier
Subjects
Cylinder and plate
Endothermic/exothermic chemical reaction
Nanofluid
Pollutant concentration
Porous medium
Pollutant concentration
Nanofluid
Cylinder and plate
Porous medium
Endothermic/exothermic chemical reaction
Online AccessGet full text
ISSN2214-157X
2214-157X
DOI10.1016/j.csite.2024.104336

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Abstract The consequence of thermal performance and mass distribution of endothermic/exothermic chemical reaction and pollutant concentration on the nanoliquid stream via cylinder/plate in the presence of permeable media is explored in the present study. The advancement of efficient waste disposal and pollution prevention techniques might result from studies on the fluid flow and dispersion of contaminants in cylinders and plates. Further, TiO2 nanoparticle offers improved thermal conductivity, helps in wide range of technological and industrial applications. The governing partial differential equations (PDEs) of the fluid problem are modeled and converted to ordinary differential equations (ODEs) utilizing similarity variables. The resultant ODEs are numerically solved using Runge Kutta Fehlberg’s fourth-fifth order (RKF-45) scheme. The influence of various non-dimensional parameters on the velocity, thermal, and concentration profiles are illustrated with a graphical representation. The comparison between cylinder and plate geometry is also displayed in graphs. The novel outcomes show that the augmentation of the chemical reaction parameter reduces the thermal profile of the endothermic case and elevates the thermal profile of the exothermic case. Elevating the local pollutant external source parameter leads to a rise in the concentration profile. It is around 10%–12% in Cf, 4%–6% in Nu and 8%–12% Sh observed in cylinder geometry than plate. The mass transfer rate reduces for improved values of solid fraction and activation energy. In all the modes, the cylinder geometry performs better than plate geometry.
AbstractList The consequence of thermal performance and mass distribution of endothermic/exothermic chemical reaction and pollutant concentration on the nanoliquid stream via cylinder/plate in the presence of permeable media is explored in the present study. The advancement of efficient waste disposal and pollution prevention techniques might result from studies on the fluid flow and dispersion of contaminants in cylinders and plates. Further, TiO2 nanoparticle offers improved thermal conductivity, helps in wide range of technological and industrial applications. The governing partial differential equations (PDEs) of the fluid problem are modeled and converted to ordinary differential equations (ODEs) utilizing similarity variables. The resultant ODEs are numerically solved using Runge Kutta Fehlberg’s fourth-fifth order (RKF-45) scheme. The influence of various non-dimensional parameters on the velocity, thermal, and concentration profiles are illustrated with a graphical representation. The comparison between cylinder and plate geometry is also displayed in graphs. The novel outcomes show that the augmentation of the chemical reaction parameter reduces the thermal profile of the endothermic case and elevates the thermal profile of the exothermic case. Elevating the local pollutant external source parameter leads to a rise in the concentration profile. It is around 10%–12% in Cf, 4%–6% in Nu and 8%–12% Sh observed in cylinder geometry than plate. The mass transfer rate reduces for improved values of solid fraction and activation energy. In all the modes, the cylinder geometry performs better than plate geometry.
ArticleNumber 104336
Author Srilatha, Pudhari
Abdou, M. Modather M.
Madhukesh, J.K.
Prasannakumara, B.C.
Ishak, Anuar
Khan, Umair
Karthik, K.
Hussain, Syed Modassir
Kumar, Raman
Muhammad, Taseer
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  givenname: Anuar
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  surname: Ishak
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  givenname: M. Modather M.
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  fullname: Abdou, M. Modather M.
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  organization: Department of Mathematics, College of Science and Humanities in Al-Kharj, Prince Sattam bin Abdulaziz University, Al-Kharj, 11942, Saudi Arabia
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Keywords Pollutant concentration
Nanofluid
Cylinder and plate
Porous medium
Endothermic/exothermic chemical reaction
Language English
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Snippet The consequence of thermal performance and mass distribution of endothermic/exothermic chemical reaction and pollutant concentration on the nanoliquid stream...
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StartPage 104336
SubjectTerms Cylinder and plate
Endothermic/exothermic chemical reaction
Nanofluid
Pollutant concentration
Porous medium
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Title Computational examination of heat and mass transfer of nanofluid flow across an inclined cylinder with endothermic/exothermic chemical reaction
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