Computational Simulation of Scott-Blair Model of Fractional Hybrid Nanofluid with Darcy Medium
Abstract:
The primary and foremost objective of the recent assessment is to offer a comprehensive analysis regarding the heat transfer of fractional unsteady magneto hydrodynamic flow of viscoelastic hybrid nanofluids ( blend of MWCNTs and SWCNTs) over an inclined surface fixed in a Darcy porous medium where the impact of mixed convection is also taken into account. We have also presented the Scott Blair model and fractional Fourier’s law in the constitutive relations. Furthermore, the Caputo fractional derivatives (CFD) (α and β) has been employed together with fractional momentum and thermal relaxation times λ1 and λ2 to model the flow problem under consideration to attain flow and heat transfer control. As fractional PDEs are nonlinear, hence numerical scheme has been developed and the model has been solved. The Finite Difference discretization combined with the L1 method have been employed in order to develop the scheme. The simulations of the velocity and temperature have been obtained and elaborated in both cases, i.e., the single and hybrid nanofluids. The obtained results are of significant value due to FD, CNTs. The same may be utilized to proficiently tackle thermal management challenges like the various profiles of temperature control in automobile engines, boilers, grinders, heat exchangers, and refrigerators, etc.
Committee Members
- Dr. Imran Naeem, (Examiner)
- Dr. Amer Rasheed (Advisor)
Zoom Meeting Invite
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