Dual solutions in biomagnetic fluid flow and heat transfer over a nonlinear stretching/shrinking sheet: Application of lie group transformation method
Of concern in the paper is a theoretical investigation of boundary layer flow of a biomagnetic fluid and heat transfer on a stretching/shrinking sheet in the presence of a magnetic dipole. The problem has been treated mathematically by using Lie group transformation. The governing nonlinear partial...
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| Published in | Mathematical biosciences and engineering : MBE Vol. 17; no. 5; pp. 4852 - 4874 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
AIMS Press
13.07.2020
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1551-0018 1551-0018 |
| DOI | 10.3934/mbe.2020264 |
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| Abstract | Of concern in the paper is a theoretical investigation of boundary layer flow of a biomagnetic fluid and heat transfer on a stretching/shrinking sheet in the presence of a magnetic dipole. The problem has been treated mathematically by using Lie group transformation. The governing nonlinear partial differential equations are thereby reduced to a system of coupled nonlinear ordinary differential equations subject to associated boundary conditions. The resulting equations subject to boundary conditions are solved numerically by using bvp4c function available in MATLAB software. The plots for variations of velocity, temperature, skin friction and heat transfer rate have been drawn and adequate discussion has been made. The study reveals that the problem considered admits of dual solutions in particular ranges of values of the suction parameter and nonlinear stretching/shrinking parameter. A stability analysis has also been carried out and presented in the paper. This enables one to determine which solution is stable that can be realized physically, and which is not. The results of the present study have been compared with those reported by previous investigators to ascertain the validity/reliability of the computational results.Of concern in the paper is a theoretical investigation of boundary layer flow of a biomagnetic fluid and heat transfer on a stretching/shrinking sheet in the presence of a magnetic dipole. The problem has been treated mathematically by using Lie group transformation. The governing nonlinear partial differential equations are thereby reduced to a system of coupled nonlinear ordinary differential equations subject to associated boundary conditions. The resulting equations subject to boundary conditions are solved numerically by using bvp4c function available in MATLAB software. The plots for variations of velocity, temperature, skin friction and heat transfer rate have been drawn and adequate discussion has been made. The study reveals that the problem considered admits of dual solutions in particular ranges of values of the suction parameter and nonlinear stretching/shrinking parameter. A stability analysis has also been carried out and presented in the paper. This enables one to determine which solution is stable that can be realized physically, and which is not. The results of the present study have been compared with those reported by previous investigators to ascertain the validity/reliability of the computational results. |
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| AbstractList | Of concern in the paper is a theoretical investigation of boundary layer flow of a biomagnetic fluid and heat transfer on a stretching/shrinking sheet in the presence of a magnetic dipole. The problem has been treated mathematically by using Lie group transformation. The governing nonlinear partial differential equations are thereby reduced to a system of coupled nonlinear ordinary differential equations subject to associated boundary conditions. The resulting equations subject to boundary conditions are solved numerically by using bvp4c function available in MATLAB software. The plots for variations of velocity, temperature, skin friction and heat transfer rate have been drawn and adequate discussion has been made. The study reveals that the problem considered admits of dual solutions in particular ranges of values of the suction parameter and nonlinear stretching/shrinking parameter. A stability analysis has also been carried out and presented in the paper. This enables one to determine which solution is stable that can be realized physically, and which is not. The results of the present study have been compared with those reported by previous investigators to ascertain the validity/reliability of the computational results. Of concern in the paper is a theoretical investigation of boundary layer flow of a biomagnetic fluid and heat transfer on a stretching/shrinking sheet in the presence of a magnetic dipole. The problem has been treated mathematically by using Lie group transformation. The governing nonlinear partial differential equations are thereby reduced to a system of coupled nonlinear ordinary differential equations subject to associated boundary conditions. The resulting equations subject to boundary conditions are solved numerically by using bvp4c function available in MATLAB software. The plots for variations of velocity, temperature, skin friction and heat transfer rate have been drawn and adequate discussion has been made. The study reveals that the problem considered admits of dual solutions in particular ranges of values of the suction parameter and nonlinear stretching/shrinking parameter. A stability analysis has also been carried out and presented in the paper. This enables one to determine which solution is stable that can be realized physically, and which is not. The results of the present study have been compared with those reported by previous investigators to ascertain the validity/reliability of the computational results.Of concern in the paper is a theoretical investigation of boundary layer flow of a biomagnetic fluid and heat transfer on a stretching/shrinking sheet in the presence of a magnetic dipole. The problem has been treated mathematically by using Lie group transformation. The governing nonlinear partial differential equations are thereby reduced to a system of coupled nonlinear ordinary differential equations subject to associated boundary conditions. The resulting equations subject to boundary conditions are solved numerically by using bvp4c function available in MATLAB software. The plots for variations of velocity, temperature, skin friction and heat transfer rate have been drawn and adequate discussion has been made. The study reveals that the problem considered admits of dual solutions in particular ranges of values of the suction parameter and nonlinear stretching/shrinking parameter. A stability analysis has also been carried out and presented in the paper. This enables one to determine which solution is stable that can be realized physically, and which is not. The results of the present study have been compared with those reported by previous investigators to ascertain the validity/reliability of the computational results. |
| Author | Ferdows, Mohammad C. Misra, Jagadis E. Tzirtzilakis, Efstratios Murtaza, Ghulam Alsenafi, Abdulaziz |
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| References_xml | – ident: 34 article-title: J. C. Misra, S. Chandra, H. Herwig, Flow of a micro polar fluid in a micro-channel under the action of an alternating electric – ident: 38 article-title: D. S. Chauhan, R. Agrawal, MHD flow through a porous medium adjacent to a stretching – ident: 4 article-title: Y. Haik, C. J. Chen, V. Pai, Development of biomagnetic fluid dynamics. Proceedings of the IX international Symposium on Transport Properties in Thermal fluid engineering, Singapore, Pacific center of thermal fluid engineering, June – ident: 32 article-title: Sinha, J. C. Misra, Effect of induced magnetic field on magnetohydrodynamic stagnation point flow and heat transfer on a stretching sheet, J. Heat Transfer, ASME, 136 – ident: 19 article-title: R, Mahapatra, S. K. Nandy, I. Pop, Dual solutions in magnetohydrodynamics stagnation point flow and heat transfer over a shrinking surface with partial slip, J. Heat Transfer, ASME, 136 – ident: 12 article-title: M. M. Bhatti, A. Zeeshan, R. Ellahi, Heat transfer analysis on peristaltically induced motion of particle-fluid suspension with variable – ident: 1 article-title: J. C. Misra, A. Sinha, G. C. Shit, Flow of a biomagnetic viscoelastic – ident: 45 article-title: S. D. Harris, D. B. Ingham, I. Pop, Mixed convection Boundary-layer flow near the stagnation point on a vertical surface in a porous – ident: 20 article-title: R. Dhanai, P. Ranaa, L. Kumar, Multiple solutions in MHD flow and heat transfer of Sisko fluid containing nanoparticles migration with a convective boundary – ident: 25 article-title: G. W. Bluman, S. Kumei, Symmetries and differential equations, Applied mathematical sciences, |
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| Title | Dual solutions in biomagnetic fluid flow and heat transfer over a nonlinear stretching/shrinking sheet: Application of lie group transformation method |
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