Numerical Solutions for Chemically Reactive Non-Newtonian Nanofluid over a Semi Infinite Moving Flat Plate with Heat Generation
M. Sreedhar Babu1, G. Ravi Sankar2, V. Venkata Ramana3
1M. Sreedhar Babu, Department of Applied Mathematics, Yogi Vemana University, Kadapa, A.P. 

2G. Ravi Sankar, Department of Applied Mathematics, Yogi Vemana University, Kadapa, A.P. 
3V.Venkata Rammana, Department of Applied Mathematics, Yogi Vemana University, Kadapa, A.P.
Manuscript received on January 02, 2020. | Revised Manuscript received on January 15, 2020. | Manuscript published on January 30, 2020. | PP: 5652-5660 | Volume-8 Issue-5, January 2020. | Retrieval Number: E6660018520/2020©BEIESP | DOI: 10.35940/ijrte.E6660.018520

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Abstract: A hypothetical report was performed to contemplate the consistent two-dimensional flow of incompressible non-Newtonian nanofluids on a semi-infinite moving plate, considering viscous scattering of heat generation and third-request chemical responses. The methodology of Eyring Powell is utilized for the liquid. The solution is derived for the transformed equations by utilizingRunge-Kutta4thorder method in conjunction with shooting technique. The numerical convergence and precision of the outcomes are exhibited. The effects of the different parameters identified with this investigation are exhibited through graphs and tables separately. The outcomes demonstrate that there exists a significant improvement in the velocity of nanofluid along with the increase of both velocity and material parameters. Further, there is an improvement in the temperature of the nanofluid and decrement in the pace of heat move for the expanding enlarges of heat generation parameter. Furthermore, by increasing viscous dissipation parameter nanofluid temperature and Sherwood number are increased and Nusselt number decreased. At long last, the consequences of this investigation were contrasted and the outcomes gave in the writing.
Keywords: Nanofluid, Viscous Dissipation, Heat Generation, Semi-infinite Moving Flat Plate.
Scope of the Article: Heat Generation