Bioconvective radiative unsteady Casson nanofluid flow across two concentric stretching cylinders with variable viscosity and variable thermal conductivity
The role of variable viscosity and variable thermal conductivity in nanofluid flows is significant, as they can strongly influence the flow behavior and heat transfer performance of nanofluids. Keeping in mind the importance of these effects of variable characteristics, our motivation in this study...
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| Published in | Numerical heat transfer. Part A, Applications Vol. 85; no. 10; pp. 1653 - 1670 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Philadelphia
Taylor & Francis
18.05.2024
Taylor & Francis Ltd |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1040-7782 1521-0634 |
| DOI | 10.1080/10407782.2023.2208733 |
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| Abstract | The role of variable viscosity and variable thermal conductivity in nanofluid flows is significant, as they can strongly influence the flow behavior and heat transfer performance of nanofluids. Keeping in mind the importance of these effects of variable characteristics, our motivation in this study is to investigate the role of nonlinear radiative heat flux on unsteady Casson nanofluid flow across two concentric stretched cylinders in the presence of temperature-dependent viscosity and thermal conductivity. A convective condition on the inner cylinder wall is also considered. In addition, the nanofluid is immersed with microorganisms that can swim and move independently. The addition of microorganisms has a significant role in the stability of the nanofluid flow. The influence of thermophoresis and Brownian motion on the flow, heat, mass, and microorganisms are scrutinized by employing the Buongiorno model. The governing flow equations are converted into a system of differential equations engaging similarity transformations, and the bvp4c method is employed to solve it numerically. Engineering parameters are computed and tabulated numerically. The findings demonstrate that as the unsteadiness parameter upsurges, the radial profile intensifies while the axial profile diminishes near the outer cylinder surface. It is also comprehended that both Lewis and bioconvective Lewis numbers reduce the motile density profiles. The accuracy of the presented model is also given in a graphical illustration by comparing it with a published result in a limiting case. |
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| AbstractList | The role of variable viscosity and variable thermal conductivity in nanofluid flows is significant, as they can strongly influence the flow behavior and heat transfer performance of nanofluids. Keeping in mind the importance of these effects of variable characteristics, our motivation in this study is to investigate the role of nonlinear radiative heat flux on unsteady Casson nanofluid flow across two concentric stretched cylinders in the presence of temperature-dependent viscosity and thermal conductivity. A convective condition on the inner cylinder wall is also considered. In addition, the nanofluid is immersed with microorganisms that can swim and move independently. The addition of microorganisms has a significant role in the stability of the nanofluid flow. The influence of thermophoresis and Brownian motion on the flow, heat, mass, and microorganisms are scrutinized by employing the Buongiorno model. The governing flow equations are converted into a system of differential equations engaging similarity transformations, and the bvp4c method is employed to solve it numerically. Engineering parameters are computed and tabulated numerically. The findings demonstrate that as the unsteadiness parameter upsurges, the radial profile intensifies while the axial profile diminishes near the outer cylinder surface. It is also comprehended that both Lewis and bioconvective Lewis numbers reduce the motile density profiles. The accuracy of the presented model is also given in a graphical illustration by comparing it with a published result in a limiting case. |
| Author | Kadry, Seifedine Ramzan, Muhammad Alharbi, Khalid Abdulkhaliq M. Almusawa, Musawa Yahya Shahmir, Nazia |
| Author_xml | – sequence: 1 givenname: Khalid Abdulkhaliq M. orcidid: 0000-0002-7290-8398 surname: Alharbi fullname: Alharbi, Khalid Abdulkhaliq M. organization: Mechanical Engineering Department, College of Engineering, Umm Al-Qura University – sequence: 2 givenname: Nazia surname: Shahmir fullname: Shahmir, Nazia organization: Department of Computer Science, Bahria University – sequence: 3 givenname: Muhammad orcidid: 0000-0002-9523-5800 surname: Ramzan fullname: Ramzan, Muhammad organization: Department of Computer Science, Bahria University – sequence: 4 givenname: Musawa Yahya surname: Almusawa fullname: Almusawa, Musawa Yahya organization: Department of Mathematics, Faculty of Science, Jazan University – sequence: 5 givenname: Seifedine surname: Kadry fullname: Kadry, Seifedine organization: Department of Electrical and Computer Engineering, Lebanese American University |
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| Snippet | The role of variable viscosity and variable thermal conductivity in nanofluid flows is significant, as they can strongly influence the flow behavior and heat... |
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| SubjectTerms | Bio-convective Casson nanofluid Cylinders Differential equations Flow equations Flow stability Fluid flow Heat conductivity Heat flux Heat transfer Lewis numbers Mathematical models Microorganisms Motion stability Nanofluids Parameters stretching concentric cylinders Temperature dependence temperature-dependent viscosity and thermal conductivity Thermal conductivity Thermophoresis Viscosity |
| Title | Bioconvective radiative unsteady Casson nanofluid flow across two concentric stretching cylinders with variable viscosity and variable thermal conductivity |
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