Pulsatile MHD Flow of Two Immiscible Nanofluid through a Porous Channel with Slip Effects
The present study is carried out to investigate the effects of shape factor nanoparticles on the oscillatory MHD flow of a nanofluid in two immiscible liquids in a horizontal porous channel with velocity and thermal slip on the walls. Thermal radiation, Joule heating, viscous and Darcy dissipations...
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University of Zielona Góra
2024-03-01
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Series: | International Journal of Applied Mechanics and Engineering |
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author | Padma Devi MEDISETTY S. Srinivas Suripeddi K. Vajravelu Kuppalapalle B. Satyanarayana Badeti |
author_facet | Padma Devi MEDISETTY S. Srinivas Suripeddi K. Vajravelu Kuppalapalle B. Satyanarayana Badeti |
author_sort | Padma Devi MEDISETTY |
collection | DOAJ |
description | The present study is carried out to investigate the effects of shape factor nanoparticles on the oscillatory MHD flow of a nanofluid in two immiscible liquids in a horizontal porous channel with velocity and thermal slip on the walls. Thermal radiation, Joule heating, viscous and Darcy dissipations have been accounted for in the model. We have considered and as nanoparticles, in the lower region (Region-I) and upper region (Region-II) respectively, with water as a base fluid. The effective ratio of thermal conductivity of the nanofluid is evaluated using the Maxwell-Garnetts model. Graphical behavior of velocity, temperature, and rate of heat transfer distributions have been depicted for the cases of slip and no-slip effects. This study has been made to understand the impact of different nanoparticle shape factors on temperature and heat transfer rate. For various parameters, values of shear stress distribution at the walls and the mass flux are shown in tabular form. Our study asserts that with the increase of the strength of the magnetic field, the velocity of the liquid falls and enhances the temperature of the liquid. The influence of different combinations of nanoparticles, on the flow variables, have also been discussed. In order to validate the analytical results, the numerical evaluation of the closed-form results, for the velocity distribution, has been compared with those of the numerical method, by using the NDSolve command in MATHEMATICA, and a good agreement is observed. |
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institution | Directory Open Access Journal |
issn | 1734-4492 2353-9003 |
language | English |
last_indexed | 2024-04-24T18:41:05Z |
publishDate | 2024-03-01 |
publisher | University of Zielona Góra |
record_format | Article |
series | International Journal of Applied Mechanics and Engineering |
spelling | doaj.art-81caae9eb2404740914750f0afc8b5702024-03-27T11:32:21ZengUniversity of Zielona GóraInternational Journal of Applied Mechanics and Engineering1734-44922353-90032024-03-0129110512910.59441/ijame/175745175745Pulsatile MHD Flow of Two Immiscible Nanofluid through a Porous Channel with Slip EffectsPadma Devi MEDISETTY0https://orcid.org/0000-0003-1925-8039S. Srinivas Suripeddi1https://orcid.org/0000-0002-3666-981XK. Vajravelu Kuppalapalle2B. Satyanarayana Badeti3Mathematics, VIT-AP University, IndiaMathematics, VIT-AP University, IndiaMathematics, University of Central Florida, United StatesMathematics, VIT-AP University, IndiaThe present study is carried out to investigate the effects of shape factor nanoparticles on the oscillatory MHD flow of a nanofluid in two immiscible liquids in a horizontal porous channel with velocity and thermal slip on the walls. Thermal radiation, Joule heating, viscous and Darcy dissipations have been accounted for in the model. We have considered and as nanoparticles, in the lower region (Region-I) and upper region (Region-II) respectively, with water as a base fluid. The effective ratio of thermal conductivity of the nanofluid is evaluated using the Maxwell-Garnetts model. Graphical behavior of velocity, temperature, and rate of heat transfer distributions have been depicted for the cases of slip and no-slip effects. This study has been made to understand the impact of different nanoparticle shape factors on temperature and heat transfer rate. For various parameters, values of shear stress distribution at the walls and the mass flux are shown in tabular form. Our study asserts that with the increase of the strength of the magnetic field, the velocity of the liquid falls and enhances the temperature of the liquid. The influence of different combinations of nanoparticles, on the flow variables, have also been discussed. In order to validate the analytical results, the numerical evaluation of the closed-form results, for the velocity distribution, has been compared with those of the numerical method, by using the NDSolve command in MATHEMATICA, and a good agreement is observed.https://www.ijame-poland.com/Pulsatile-MHD-Flow-of-Two-Immiscible-Nanofluid-through-a-Porous-Channel-with-Slip,175745,0,2.htmljoule heatingvolume fractionvelocity and thermal slipsdarcy dissipationshape factor |
spellingShingle | Padma Devi MEDISETTY S. Srinivas Suripeddi K. Vajravelu Kuppalapalle B. Satyanarayana Badeti Pulsatile MHD Flow of Two Immiscible Nanofluid through a Porous Channel with Slip Effects International Journal of Applied Mechanics and Engineering joule heating volume fraction velocity and thermal slips darcy dissipation shape factor |
title | Pulsatile MHD Flow of Two Immiscible Nanofluid through a Porous Channel with Slip Effects |
title_full | Pulsatile MHD Flow of Two Immiscible Nanofluid through a Porous Channel with Slip Effects |
title_fullStr | Pulsatile MHD Flow of Two Immiscible Nanofluid through a Porous Channel with Slip Effects |
title_full_unstemmed | Pulsatile MHD Flow of Two Immiscible Nanofluid through a Porous Channel with Slip Effects |
title_short | Pulsatile MHD Flow of Two Immiscible Nanofluid through a Porous Channel with Slip Effects |
title_sort | pulsatile mhd flow of two immiscible nanofluid through a porous channel with slip effects |
topic | joule heating volume fraction velocity and thermal slips darcy dissipation shape factor |
url | https://www.ijame-poland.com/Pulsatile-MHD-Flow-of-Two-Immiscible-Nanofluid-through-a-Porous-Channel-with-Slip,175745,0,2.html |
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