Vortex structure and strength of secondary flows in model aortic arches

Abstract: SUMMARYA numerical method is developed to study the ow structures in the aortic arch. The method solves the incompressible Navier-Stokes equations. It uses a third-order upwind scheme for the convective terms and the second-order central scheme for the viscous terms. A DDADI time integration is used for achieving fast convergence. For the unsteady solutions, the second-order Crank-Nicolson method coupled with the diagonalized diagonal dominated alternating direction implicit scheme (DDADI) time integration are… Show more

“…The incompressible Navier-Stokes equations, (1a) and (1b), are solved by a pressure correction method. And, the advection equation, (1c), is solved by a third-order modified MUSCL scheme (monotone upwind scheme for conservation law) to obtain the density at the next time step [10][11][12]. To sharpen the interface, a slope modification scheme is used [13].…”

“…In this paper, the advection equation is solved by a higher order upwind scheme which is based on a modified Osher-Chakravarthy MUSCL scheme (monotone upwind scheme for conservation law) [10][11][12]. It is a third-order accurate and stable scheme to handle the compressible flows.…”

“…To compute the numerical flux by using the local Lax-Friedrich flux scheme, one needs to interpolate (or extrapolate) to obtain flow variables at the interface. A higher order upwind-biased MUSCL scheme is used [10][11][12] (For simplicity, we introduce the interpolation in the i-direction and drop the subscripts j and k in the following Equations (3)- (8)):…”

“…A modified MUSCL scheme is used to compute the volume fraction function of the advection equation (1c) [10][11][12]. It is a third-order accurate and stable scheme to handle the compressible flow.…”

A pressure correction‐volume of fluid method for simulation of two‐phase flows

“…The incompressible Navier-Stokes equations, (1a) and (1b), are solved by a pressure correction method. And, the advection equation, (1c), is solved by a third-order modified MUSCL scheme (monotone upwind scheme for conservation law) to obtain the density at the next time step [10][11][12]. To sharpen the interface, a slope modification scheme is used [13].…”

“…In this paper, the advection equation is solved by a higher order upwind scheme which is based on a modified Osher-Chakravarthy MUSCL scheme (monotone upwind scheme for conservation law) [10][11][12]. It is a third-order accurate and stable scheme to handle the compressible flows.…”

“…To compute the numerical flux by using the local Lax-Friedrich flux scheme, one needs to interpolate (or extrapolate) to obtain flow variables at the interface. A higher order upwind-biased MUSCL scheme is used [10][11][12] (For simplicity, we introduce the interpolation in the i-direction and drop the subscripts j and k in the following Equations (3)- (8)):…”

“…A modified MUSCL scheme is used to compute the volume fraction function of the advection equation (1c) [10][11][12]. It is a third-order accurate and stable scheme to handle the compressible flow.…”

A pressure correction‐volume of fluid method for simulation of two‐phase flows