The magnetohydrodynamic flow of viscous fluid and heat transfer examination between permeable disks by AGM and FEM
This paper studied a two-dimensional steady, laminar, and incompressible viscous fluid between two porous disks in outer magnetic amplitude. The invention in this essay is broken down into two interconnected parts. In the first part, the dimensionless equations of the nanofluid flow passing between...
| Main Authors: | , , , , , |
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| Format: | Article |
| Language: | English |
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Elsevier
2023-05-01
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| Series: | Case Studies in Thermal Engineering |
| Subjects: | |
| Online Access: | http://www.sciencedirect.com/science/article/pii/S2214157X23002678 |
| _version_ | 1797832728898437120 |
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| author | Bahram Jalili Hassan Roshani Payam Jalili Mohammad Jalili Pooya Pasha Davood Domiri Ganji |
| author_facet | Bahram Jalili Hassan Roshani Payam Jalili Mohammad Jalili Pooya Pasha Davood Domiri Ganji |
| author_sort | Bahram Jalili |
| collection | DOAJ |
| description | This paper studied a two-dimensional steady, laminar, and incompressible viscous fluid between two porous disks in outer magnetic amplitude. The invention in this essay is broken down into two interconnected parts. In the first part, the dimensionless equations of the nanofluid flow passing between two disks are investigated using the Akbari-Ganji Method (AGM). The findings are compared with those obtained using the numerical method. In the second section, the Finite Element Method (FEM) in CFD software was used to analyze the fluid pressure, velocity, and temperature parameters of two MWCNT and SWCNT nanotubes. Sliding at the limits shifts the turning point toward the upper disc. It is observed that the magnitude of the axial velocity reduces as the Reynolds number increases at any point in the space between the discs. Two critical areas within the fluid locale where the fluid is persistent despite changes in significant parameters are uncovered by contrasts in radial velocity profiles. The heat transmission rate at the lower penetrable circle consistently diminishes within the nearness of slip as the Reynolds number increments. Also, the inverse is genuine at the upper permeable plate. |
| first_indexed | 2024-04-09T14:13:34Z |
| format | Article |
| id | doaj.art-df3d521a49ac452fb5faf11578ead97f |
| institution | Directory Open Access Journal |
| issn | 2214-157X |
| language | English |
| last_indexed | 2024-04-09T14:13:34Z |
| publishDate | 2023-05-01 |
| publisher | Elsevier |
| record_format | Article |
| series | Case Studies in Thermal Engineering |
| spelling | doaj.art-df3d521a49ac452fb5faf11578ead97f2023-05-06T04:38:03ZengElsevierCase Studies in Thermal Engineering2214-157X2023-05-0145102961The magnetohydrodynamic flow of viscous fluid and heat transfer examination between permeable disks by AGM and FEMBahram Jalili0Hassan Roshani1Payam Jalili2Mohammad Jalili3Pooya Pasha4Davood Domiri Ganji5Engineering, Faculty of Engineering, North Tehran Branch, Islamic Azad University, Tehran, IranEngineering, Faculty of Engineering, North Tehran Branch, Islamic Azad University, Tehran, IranEngineering, Faculty of Engineering, North Tehran Branch, Islamic Azad University, Tehran, Iran; Corresponding author.Department of Mechanical Engineering Babol Noshirvani University of Technology, P.O. Box 47166, 85635, Babol, IranDepartment of Management, Qaemshahr Branch, Islamic Azad University, Qaemshahr, IranDepartment of Management, Qaemshahr Branch, Islamic Azad University, Qaemshahr, Iran; Corresponding author.This paper studied a two-dimensional steady, laminar, and incompressible viscous fluid between two porous disks in outer magnetic amplitude. The invention in this essay is broken down into two interconnected parts. In the first part, the dimensionless equations of the nanofluid flow passing between two disks are investigated using the Akbari-Ganji Method (AGM). The findings are compared with those obtained using the numerical method. In the second section, the Finite Element Method (FEM) in CFD software was used to analyze the fluid pressure, velocity, and temperature parameters of two MWCNT and SWCNT nanotubes. Sliding at the limits shifts the turning point toward the upper disc. It is observed that the magnitude of the axial velocity reduces as the Reynolds number increases at any point in the space between the discs. Two critical areas within the fluid locale where the fluid is persistent despite changes in significant parameters are uncovered by contrasts in radial velocity profiles. The heat transmission rate at the lower penetrable circle consistently diminishes within the nearness of slip as the Reynolds number increments. Also, the inverse is genuine at the upper permeable plate.http://www.sciencedirect.com/science/article/pii/S2214157X23002678Finite element methodSWCNT nanotubeAGMSteady statePorosity disks |
| spellingShingle | Bahram Jalili Hassan Roshani Payam Jalili Mohammad Jalili Pooya Pasha Davood Domiri Ganji The magnetohydrodynamic flow of viscous fluid and heat transfer examination between permeable disks by AGM and FEM Case Studies in Thermal Engineering Finite element method SWCNT nanotube AGM Steady state Porosity disks |
| title | The magnetohydrodynamic flow of viscous fluid and heat transfer examination between permeable disks by AGM and FEM |
| title_full | The magnetohydrodynamic flow of viscous fluid and heat transfer examination between permeable disks by AGM and FEM |
| title_fullStr | The magnetohydrodynamic flow of viscous fluid and heat transfer examination between permeable disks by AGM and FEM |
| title_full_unstemmed | The magnetohydrodynamic flow of viscous fluid and heat transfer examination between permeable disks by AGM and FEM |
| title_short | The magnetohydrodynamic flow of viscous fluid and heat transfer examination between permeable disks by AGM and FEM |
| title_sort | magnetohydrodynamic flow of viscous fluid and heat transfer examination between permeable disks by agm and fem |
| topic | Finite element method SWCNT nanotube AGM Steady state Porosity disks |
| url | http://www.sciencedirect.com/science/article/pii/S2214157X23002678 |
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