A. Shatalov scite author profile

SUMMARYSimulations of incompressible ows are important for many practical applications in aeronautics and beyond, particularly in the high Reynolds number regime. The present formulation is based on Helmholtz velocity decomposition where the velocity is presented as the gradient of a potential plus a rotational component. Substituting in the continuity equation yields a Poisson equation for the potential which is solved with a zero normal derivative at solid surfaces. The momentum equation is used to update the rotational component with no slip=no penetration surface boundary conditions. The pressure is related to the potential function through a special relation which is a generalization of Bernoulli's law, with a viscous term included. Results of calculations for two-and three-dimensional problems prove that the present formulation is a valid approach, with some possible beneÿts compared to existing methods.

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The ray method of solving the three-dimensional dynamic problem of coupled thermoelasticity for a sphere

Shatalov¹

1999

Journal of Applied Mathematics and Mechanics

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A. Shatalov

Numerical simulations of incompressible aerodynamic flows using viscous/inviscid interaction procedures

Improved numerical simulations of incompressible flows based on viscous/inviscid interaction procedures

Improved Numerical Simulations of Incompressible Flows Based on Viscous/Inviscid Interaction Procedures

Numerical solutions of incompressible Navier–Stokes equations using modified Bernoulli's law

The ray method of solving the three-dimensional dynamic problem of coupled thermoelasticity for a sphere

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