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- Title
Computational Investigation on Flow of Nanofluid past an Exponentially Stretching Surface using VHPM.
- Authors
Mahalakshmi, D.; Vennila, B.
- Abstract
The theory of nanoliquids has revealed several fundamental properties, including a significant increase in thermal conductivity over the base fluid. In this study, we analyzed the nanoliquids two-dimensional laminar boundary layer flow over an exponentially stretching surface. Suitable variables are applied to simplify the nonlinear partial differential equations (π·π«π¬π) into ordinary differential equations (πΆπ«π¬π). The resulting equations are analytically solved by using the variational homotopy perturbation method (π½π·π―π΄), and the graphical representation obtained with the help of the expressions for momentum, temperature, and concentration are evaluated for specific estimates of the dimensionless parameters, specifically the Lewis number(π³π), Brownian motion parameter (π΅π), thermophoresis parameter (π΅π), Prandtl number (π·π), of suction and injection parameters.
- Subjects
LAMINAR boundary layer; ORDINARY differential equations; DIFFERENTIAL equations; NONLINEAR differential equations; PARTIAL differential equations; NANOFLUIDICS
- Publication
IAENG International Journal of Applied Mathematics, 2024, Vol 54, Issue 5, p902
- ISSN
1992-9978
- Publication type
Article