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Influence of heat generation/absorption and stagnation point on polystyrene–TiO2/H2O hybrid nanofluid flow
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AbstractThis article focuses on hybrid nanofluid flow induced by stretched surface. The present context covers stagnation point flow of a hybrid nanofluid with the effect of heat generation/absorption. Currently most famous class of nanofluids is Hybrid nanofluid. It contains polystyrene and titanium oxide as a nanoparticles and water as a base fluid. First time attributes of heat transfer are evaluated by utilizing polystyrene–TiO2/H2O hybrid nanofluid with heat generation/absorption. Partial differential equations are converted into ordinary differential equation by using appropriate transformations for heat and velocity. Homotopy analysis method is operated for solution of ordinary differential equations. Flow and heat are disclosed graphically for unlike parameters. Resistive force and heat transfer rate is deliberated mathematically and graphically. It is deduced that velocity field enhanced for velocity ratio parameter whereas temperature field grows for heat generation/absorption coefficient. To judge the production of any engineering system entropy generation is also calculated. It is noticed that entropy generation grows for Prandtl number and Eckert number while it shows opposite behavior for temperature difference parameter.
Springer Science and Business Media LLC
Title: Influence of heat generation/absorption and stagnation point on polystyrene–TiO2/H2O hybrid nanofluid flow
Description:
AbstractThis article focuses on hybrid nanofluid flow induced by stretched surface.
The present context covers stagnation point flow of a hybrid nanofluid with the effect of heat generation/absorption.
Currently most famous class of nanofluids is Hybrid nanofluid.
It contains polystyrene and titanium oxide as a nanoparticles and water as a base fluid.
First time attributes of heat transfer are evaluated by utilizing polystyrene–TiO2/H2O hybrid nanofluid with heat generation/absorption.
Partial differential equations are converted into ordinary differential equation by using appropriate transformations for heat and velocity.
Homotopy analysis method is operated for solution of ordinary differential equations.
Flow and heat are disclosed graphically for unlike parameters.
Resistive force and heat transfer rate is deliberated mathematically and graphically.
It is deduced that velocity field enhanced for velocity ratio parameter whereas temperature field grows for heat generation/absorption coefficient.
To judge the production of any engineering system entropy generation is also calculated.
It is noticed that entropy generation grows for Prandtl number and Eckert number while it shows opposite behavior for temperature difference parameter.
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