Abstract
The goal of the current paper is to describe an in-depth study of a numerical implementation of the modified equation of fluid motion for incompressible flow. The applications of the developed solver are discussed for both laminar and turbulent flow problems. The results are evaluated by comparing them with those obtained by other methods, including the numerical results obtained by the Navier–Stokes solver measurement data. Then, the computational effort and accuracy of the solver are emphasized. The comparisons indicate that the developed solver, which is based on the modified equation of fluid motion, requires less computation time than the Navier–Stokes solver, and it produces physically reasonable results validated by measurement data
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