Thermodynamical study of chemically-reactive and thermal-radiative magnetized oscillatory Couette flow in a porous medium filled channel
The thermodynamical study of a mathematical model of unsteady natural convective MHD oscillatory flow through a porous medium-filled channel of infinite plates with chemical reaction and thermal radiation effect is taken into account in this respective research. The time-dependent flow governing equ...
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Elsevier
2023-08-01
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Series: | Case Studies in Thermal Engineering |
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Online Access: | http://www.sciencedirect.com/science/article/pii/S2214157X23004422 |
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author | Tarun Sharma Pooja Sharma A.H. Seikh Amjad Iqbal Navin Kumar |
author_facet | Tarun Sharma Pooja Sharma A.H. Seikh Amjad Iqbal Navin Kumar |
author_sort | Tarun Sharma |
collection | DOAJ |
description | The thermodynamical study of a mathematical model of unsteady natural convective MHD oscillatory flow through a porous medium-filled channel of infinite plates with chemical reaction and thermal radiation effect is taken into account in this respective research. The time-dependent flow governing equations (PDEs); comprises momentum, energy and concentration equations are derived for the concerned physical model and converted into dimensionless second-order ordinary differential equations (ODEs) for fluctuation of small amplitude. Further, the set of ODEs is solved by MATLAB's built-in dsolve function. The graphical analysis of fluid velocity, temperature and concentration profiles has been explicated for flow parameters. According to the results, the transient velocity and concentration profiles expand when the chemical reaction parameter and Schmidt number increase, whereas a strong magnetic field retards the transient velocity profile. In addition, the velocity, temperature, and concentration profiles decline whenever the frequency of oscillation is increased. The elucidated flow model and mathematical results are significant to be used in real-life applications, including packed bed reactors, chemical reactors, cooling the towers and rocket engines, designing of heat exchangers, sewage and wastewater treatment, chemical and magnetic filtration, and separation etc. |
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id | doaj.art-62e89b8bb50e492a93031fb90a66a76d |
institution | Directory Open Access Journal |
issn | 2214-157X |
language | English |
last_indexed | 2024-03-13T05:28:25Z |
publishDate | 2023-08-01 |
publisher | Elsevier |
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series | Case Studies in Thermal Engineering |
spelling | doaj.art-62e89b8bb50e492a93031fb90a66a76d2023-06-15T04:56:06ZengElsevierCase Studies in Thermal Engineering2214-157X2023-08-0148103136Thermodynamical study of chemically-reactive and thermal-radiative magnetized oscillatory Couette flow in a porous medium filled channelTarun Sharma0Pooja Sharma1A.H. Seikh2Amjad Iqbal3Navin Kumar4University of Engineering & Management Jaipur, Jaipur, 303807, Rajasthan, IndiaManipal University Jaipur, Jaipur, 303007, Rajasthan, India; Corresponding author.Mechanical Engineering Department, College of Engineering, King Saud University, Riyadh, 11421, Saudi ArabiaDepartment of Materials Technologies, Faculty of Materials Engineering, Silesian University of Technology, 44-100, Gliwice, PolandIndian Military Academy, Dehradun, 244807, Uttarakhand, IndiaThe thermodynamical study of a mathematical model of unsteady natural convective MHD oscillatory flow through a porous medium-filled channel of infinite plates with chemical reaction and thermal radiation effect is taken into account in this respective research. The time-dependent flow governing equations (PDEs); comprises momentum, energy and concentration equations are derived for the concerned physical model and converted into dimensionless second-order ordinary differential equations (ODEs) for fluctuation of small amplitude. Further, the set of ODEs is solved by MATLAB's built-in dsolve function. The graphical analysis of fluid velocity, temperature and concentration profiles has been explicated for flow parameters. According to the results, the transient velocity and concentration profiles expand when the chemical reaction parameter and Schmidt number increase, whereas a strong magnetic field retards the transient velocity profile. In addition, the velocity, temperature, and concentration profiles decline whenever the frequency of oscillation is increased. The elucidated flow model and mathematical results are significant to be used in real-life applications, including packed bed reactors, chemical reactors, cooling the towers and rocket engines, designing of heat exchangers, sewage and wastewater treatment, chemical and magnetic filtration, and separation etc.http://www.sciencedirect.com/science/article/pii/S2214157X23004422Chemical reactionMHDOscillatory flowThermal radiation |
spellingShingle | Tarun Sharma Pooja Sharma A.H. Seikh Amjad Iqbal Navin Kumar Thermodynamical study of chemically-reactive and thermal-radiative magnetized oscillatory Couette flow in a porous medium filled channel Case Studies in Thermal Engineering Chemical reaction MHD Oscillatory flow Thermal radiation |
title | Thermodynamical study of chemically-reactive and thermal-radiative magnetized oscillatory Couette flow in a porous medium filled channel |
title_full | Thermodynamical study of chemically-reactive and thermal-radiative magnetized oscillatory Couette flow in a porous medium filled channel |
title_fullStr | Thermodynamical study of chemically-reactive and thermal-radiative magnetized oscillatory Couette flow in a porous medium filled channel |
title_full_unstemmed | Thermodynamical study of chemically-reactive and thermal-radiative magnetized oscillatory Couette flow in a porous medium filled channel |
title_short | Thermodynamical study of chemically-reactive and thermal-radiative magnetized oscillatory Couette flow in a porous medium filled channel |
title_sort | thermodynamical study of chemically reactive and thermal radiative magnetized oscillatory couette flow in a porous medium filled channel |
topic | Chemical reaction MHD Oscillatory flow Thermal radiation |
url | http://www.sciencedirect.com/science/article/pii/S2214157X23004422 |
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