Flow and heat transfer of nanofluid over a stretching sheet with non-linear velocity in the presence of thermal radiation and chemical reaction
In this paper, the effects of Brownian motion, thermophoresis, chemical reaction, heat generation, magnetohydrodynamic and thermal radiation has been included in the model of nanofluid flow and heat transfer over a moving surface with variable thickness. The similarity transformation is used to tran...
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American Institute of Physics
2017
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| Online Access: | http://irep.iium.edu.my/29995/2/29995_AIP%20conference%201830_Complete.pdf http://irep.iium.edu.my/29995/3/29995_AIP%20Conference%20830_SCOPUS.pdf http://irep.iium.edu.my/29995/14/29995%20Flow%20and%20heat%20transfer%20of%20nanofluid%20over%20a%20stretching%20sheet%20WOS.pdf http://irep.iium.edu.my/29995/ http://aip.scitation.org/doi/abs/10.1063/1.4980877 |
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my.iium.irep.299952019-08-17T16:26:17Z http://irep.iium.edu.my/29995/ Flow and heat transfer of nanofluid over a stretching sheet with non-linear velocity in the presence of thermal radiation and chemical reaction Madaki, A. G. Roslan, R. Kandasamy, Ramasamy Chowdhury, Md. Sazzad Hossien QC Physics TJ Mechanical engineering and machinery TJ255 Heat engines In this paper, the effects of Brownian motion, thermophoresis, chemical reaction, heat generation, magnetohydrodynamic and thermal radiation has been included in the model of nanofluid flow and heat transfer over a moving surface with variable thickness. The similarity transformation is used to transform the governing boundary layer equations into ordinary differential equations (ODE). Both optimal homotopy asymptotic method (OHAM) and Runge-Kutta fourth order method with shooting technique are employed to solve the resulting ODEs. For different values of the pertinent parameters on the velocity, temperature and concentration profiles have been studied and details are given in tables and graphs respectively. A comparison with the previous study is made, where an excellent agreement is achieved. The results demonstrate that the radiation parameter N increases, with the increase in both the temperature and the thermal boundary layer thickness respectively. While the nanoparticles concentration profiles increase with the influence of generative chemical reaction γ < 0, while it decreases with destructive chemical reaction American Institute of Physics 2017-04 Conference or Workshop Item PeerReviewed application/pdf en http://irep.iium.edu.my/29995/2/29995_AIP%20conference%201830_Complete.pdf application/pdf en http://irep.iium.edu.my/29995/3/29995_AIP%20Conference%20830_SCOPUS.pdf application/pdf en http://irep.iium.edu.my/29995/14/29995%20Flow%20and%20heat%20transfer%20of%20nanofluid%20over%20a%20stretching%20sheet%20WOS.pdf Madaki, A. G. and Roslan, R. and Kandasamy, Ramasamy and Chowdhury, Md. Sazzad Hossien (2017) Flow and heat transfer of nanofluid over a stretching sheet with non-linear velocity in the presence of thermal radiation and chemical reaction. In: 4th International Conference on Mathematical Sciences - Mathematical Sciences: Championing the Way in a Problem Based and Data Driven Society, ICMS 2016;, 15-17 November 2016, Putrajaya, Malaysia. http://aip.scitation.org/doi/abs/10.1063/1.4980877 10.1063/1.4980877 |
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QC Physics TJ Mechanical engineering and machinery TJ255 Heat engines |
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QC Physics TJ Mechanical engineering and machinery TJ255 Heat engines Madaki, A. G. Roslan, R. Kandasamy, Ramasamy Chowdhury, Md. Sazzad Hossien Flow and heat transfer of nanofluid over a stretching sheet with non-linear velocity in the presence of thermal radiation and chemical reaction |
| description |
In this paper, the effects of Brownian motion, thermophoresis, chemical reaction, heat generation, magnetohydrodynamic and thermal radiation has been included in the model of nanofluid flow and heat transfer over a moving surface with variable thickness. The similarity transformation is used to transform the governing boundary layer equations into ordinary differential equations (ODE). Both optimal homotopy asymptotic method (OHAM) and Runge-Kutta fourth order method with shooting technique are employed to solve the resulting ODEs. For different values of the pertinent parameters on the velocity, temperature and concentration profiles have been studied and details are given in tables and graphs respectively. A comparison with the previous study is made, where an excellent agreement is achieved. The results demonstrate that the radiation parameter N increases, with the increase in both the temperature and the thermal boundary layer thickness respectively. While the nanoparticles concentration profiles increase with the influence of generative chemical reaction γ < 0, while it decreases with destructive chemical reaction |
| format |
Conference or Workshop Item |
| author |
Madaki, A. G. Roslan, R. Kandasamy, Ramasamy Chowdhury, Md. Sazzad Hossien |
| author_facet |
Madaki, A. G. Roslan, R. Kandasamy, Ramasamy Chowdhury, Md. Sazzad Hossien |
| author_sort |
Madaki, A. G. |
| title |
Flow and heat transfer of nanofluid over a stretching sheet with non-linear velocity in the presence of thermal radiation and chemical reaction |
| title_short |
Flow and heat transfer of nanofluid over a stretching sheet with non-linear velocity in the presence of thermal radiation and chemical reaction |
| title_full |
Flow and heat transfer of nanofluid over a stretching sheet with non-linear velocity in the presence of thermal radiation and chemical reaction |
| title_fullStr |
Flow and heat transfer of nanofluid over a stretching sheet with non-linear velocity in the presence of thermal radiation and chemical reaction |
| title_full_unstemmed |
Flow and heat transfer of nanofluid over a stretching sheet with non-linear velocity in the presence of thermal radiation and chemical reaction |
| title_sort |
flow and heat transfer of nanofluid over a stretching sheet with non-linear velocity in the presence of thermal radiation and chemical reaction |
| publisher |
American Institute of Physics |
| publishDate |
2017 |
| url |
http://irep.iium.edu.my/29995/2/29995_AIP%20conference%201830_Complete.pdf http://irep.iium.edu.my/29995/3/29995_AIP%20Conference%20830_SCOPUS.pdf http://irep.iium.edu.my/29995/14/29995%20Flow%20and%20heat%20transfer%20of%20nanofluid%20over%20a%20stretching%20sheet%20WOS.pdf http://irep.iium.edu.my/29995/ http://aip.scitation.org/doi/abs/10.1063/1.4980877 |
| _version_ |
1643619580025765888 |
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13.214268 |