Abstract
In this paper a study is carried out to analyze the unsteady heat transfer effects due to a sudden introduction of heat source/sink on a steady viscous boundary layer MHD flow and heat transfer over a linearly stretching sheet subjected to a constant temperature. Governing boundary layer equations have been solved by an implicit finite difference method. Numerical results show that the steady state is reached quickly for a heat sink or for a large Prandtl number. The time to reach steady state increases under magnetic field. Upto a critical value of the strength of heat source, steady solution exists.
Keywords
- Stretching Sheet
- Chebyshev Finite Difference Method
- Sudden Introduction
- Steady-state Boundary Layer Equations
- Heat Transfer
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Banerjee, A.K., Kumar, A.V., Kumaran, V. (2012). Unsteady MHD Flow Past a Stretching Sheet Due to a Heat Source/Sink. In: Luo, A., Machado, J., Baleanu, D. (eds) Dynamical Systems and Methods. Springer, New York, NY. https://doi.org/10.1007/978-1-4614-0454-5_16
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DOI: https://doi.org/10.1007/978-1-4614-0454-5_16
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