Significance of Lorentz Force and Viscous Dissipation on the Dynamics of Propylene Glycol: Water Subject to Joule Heating Conveying Paraffin Wax and Sand Nanoparticles Over an Object with a Variable Thickness

With emphasis on the motion of PG–Water + Paraffin Wax + Sand and PG–Water + Paraffin Wax on an object with a variable thickness experiencing Joule dissipation and nth order chemical reaction, nothing is known on the increasing Lorentz force, viscous dissipation, Prandtl number, and Schmidt number....

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Published inArabian journal for science and engineering (2011) Vol. 47; no. 12; pp. 15505 - 15518
Main Authors Sajja, Venkata Subrahmanyam, Gadamsetty, Revathi, Muthu, P., Babu, M. Jayachandra, Animasaun, I. L.
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.12.2022
Springer Nature B.V
Subjects
Chemical reactions
Correlation coefficients
Differential equations
Drag
Engineering
Heat
Heat transfer
Humanities and Social Sciences
Lorentz force
Magnetic fields
Mass transfer
multidisciplinary
Nanoparticles
Ohmic dissipation
Ordinary differential equations
Paraffin wax
Parameters
Prandtl number
Propylene
Research Article-Mechanical Engineering
Resistance heating
Schmidt number
Science
Transport phenomena
Variable thickness
Correlation coefficient
Thin needle
Eckert number
Viscous dissipation
Magnetic field
Hybrid nanofluid
Online AccessGet full text
ISSN2193-567X
1319-8025
2191-4281
DOI10.1007/s13369-022-06658-z

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Abstract With emphasis on the motion of PG–Water + Paraffin Wax + Sand and PG–Water + Paraffin Wax on an object with a variable thickness experiencing Joule dissipation and nth order chemical reaction, nothing is known on the increasing Lorentz force, viscous dissipation, Prandtl number, and Schmidt number. The mathematical model that governs the transport phenomenon presented in this report was reduced to a coupled ordinary differential equations, non-dimensionalized, parameterized, and solved numerically using bvp4c solver (MATLAB built-in function). A statistical tool (correlation coefficient) was used to confirm the impact of pertinent parameters on heat and mass transfer rates, and surface drag force. It is worth concluding that magnetic field parameter and Eckert number have significant negative association with heat transfer rate. There is a significant positive association among chemical reaction parameter and mass transfer rate. Fluid temperature ameliorates with larger Eckert number, and surface drag force diminishes with larger magnetic field parameter. Prandtl number minimizes the temperature and escalates the heat transfer rate. Concentration minifies with larger Schmidt number and chemical reaction parameter. Furthermore, it is detected that the fluid concentration gets ameliorated with the raise in the order of chemical reaction.
AbstractList With emphasis on the motion of PG–Water + Paraffin Wax + Sand and PG–Water + Paraffin Wax on an object with a variable thickness experiencing Joule dissipation and nth order chemical reaction, nothing is known on the increasing Lorentz force, viscous dissipation, Prandtl number, and Schmidt number. The mathematical model that governs the transport phenomenon presented in this report was reduced to a coupled ordinary differential equations, non-dimensionalized, parameterized, and solved numerically using bvp4c solver (MATLAB built-in function). A statistical tool (correlation coefficient) was used to confirm the impact of pertinent parameters on heat and mass transfer rates, and surface drag force. It is worth concluding that magnetic field parameter and Eckert number have significant negative association with heat transfer rate. There is a significant positive association among chemical reaction parameter and mass transfer rate. Fluid temperature ameliorates with larger Eckert number, and surface drag force diminishes with larger magnetic field parameter. Prandtl number minimizes the temperature and escalates the heat transfer rate. Concentration minifies with larger Schmidt number and chemical reaction parameter. Furthermore, it is detected that the fluid concentration gets ameliorated with the raise in the order of chemical reaction.
Author Gadamsetty, Revathi
Animasaun, I. L.
Babu, M. Jayachandra
Muthu, P.
Sajja, Venkata Subrahmanyam
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Issue 12
Keywords Correlation coefficient
Thin needle
Eckert number
Viscous dissipation
Magnetic field
Hybrid nanofluid
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Snippet With emphasis on the motion of PG–Water + Paraffin Wax + Sand and PG–Water + Paraffin Wax on an object with a variable thickness experiencing Joule dissipation...
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SubjectTerms Chemical reactions
Correlation coefficients
Differential equations
Drag
Engineering
Heat
Heat transfer
Humanities and Social Sciences
Lorentz force
Magnetic fields
Mass transfer
multidisciplinary
Nanoparticles
Ohmic dissipation
Ordinary differential equations
Paraffin wax
Parameters
Prandtl number
Propylene
Research Article-Mechanical Engineering
Resistance heating
Schmidt number
Science
Transport phenomena
Variable thickness
Title Significance of Lorentz Force and Viscous Dissipation on the Dynamics of Propylene Glycol: Water Subject to Joule Heating Conveying Paraffin Wax and Sand Nanoparticles Over an Object with a Variable Thickness
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