Enhanced heat transfer rate analysis with Ohmic heating, and multiple slips over exponentially stretching/shrinking plate on MHD hybrid nanofluid: Response surface methodology DOI Open Access
Chandralekha Mahanta, Ram Prakash Sharma

ZAMM ‐ Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik, Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 27, 2024

Abstract The proposed investigation leads toward the discussion on dissipative heat conducting flow of hybrid nanofluid over an exponentially expanding/contracting plate. sheet is considered to be permeable therefore, impact suction/injection vital throughout discussion. model adopted with various thermophysical parameters likely conductivity and viscosity properties. By employing valid similarity transformations, governing set equations boundary conditions converted non‐linear ODEs. reduced system explicated using bvp4c solver in MATLAB. numerical outcomes are deliberated graphically presented momentum temperature profiles. enhancement transfer rate achieved through utilization Response Surface Methodology (RSM). Further, stability analysis validate convergence time‐dependent profiles for contributing constraints. From RSM, combination a high level , conducive good transfer. Also, low slip parameter value (), emerges as most operating condition that would maximize transportation heat.

Language: Английский

Enhanced heat transfer rate analysis with Ohmic heating, and multiple slips over exponentially stretching/shrinking plate on MHD hybrid nanofluid: Response surface methodology DOI Open Access
Chandralekha Mahanta, Ram Prakash Sharma

ZAMM ‐ Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik, Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 27, 2024

Abstract The proposed investigation leads toward the discussion on dissipative heat conducting flow of hybrid nanofluid over an exponentially expanding/contracting plate. sheet is considered to be permeable therefore, impact suction/injection vital throughout discussion. model adopted with various thermophysical parameters likely conductivity and viscosity properties. By employing valid similarity transformations, governing set equations boundary conditions converted non‐linear ODEs. reduced system explicated using bvp4c solver in MATLAB. numerical outcomes are deliberated graphically presented momentum temperature profiles. enhancement transfer rate achieved through utilization Response Surface Methodology (RSM). Further, stability analysis validate convergence time‐dependent profiles for contributing constraints. From RSM, combination a high level , conducive good transfer. Also, low slip parameter value (), emerges as most operating condition that would maximize transportation heat.

Language: Английский

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