The transverse curvature effects of non-Newtonian flow past a slender parabolic body of revolution (Q2224051)
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scientific article
| Language | Label | Description | Also known as |
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| English | The transverse curvature effects of non-Newtonian flow past a slender parabolic body of revolution |
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The transverse curvature effects of non-Newtonian flow past a slender parabolic body of revolution (English)
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3 February 2021
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Summary: The Levy Lee transformations are modified with the aim of transforming nonlinear partial differential equations of boundary value type governing the steady two dimensional incompressible boundary layer flows of non-Newtonian power-law fluids past a slender parabolic body of revolution into nonlinear ordinary differential equation with appropriate boundary conditions. The transverse curvature effect of the present flow situation is studied theoretically using group-theoretic initial value technique. It is concluded that the slope of the velocity profile is greatly influenced by transverse curvature and suction or blowing parameters.
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slender bodies
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Levy Lee transformations
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transverse curvature effect
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suction parameters
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blowing parameters
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transformation methods
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initial value technique
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non-Newtonian flow
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parabolic body of revolution
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fluid flow
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nonlinear PDEs
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partial differential equations
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group theory
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velocity profile
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