- Turkish Journal of Engineering and Environmental Sciences
- Vol: 31 Issue: 5
- Total Volume Conservation in Simulation of Unsteady Free-Surface~Flows
Total Volume Conservation in Simulation of Unsteady Free-Surface~Flows
Authors : Ender DEMİREL
Pages : 311-321
Doi:10.3906/zoo-1211-32
View : 5 | Download : 1
Publication Date : 9999-12-31
Article Type : Makaleler
Abstract :Free surface tracking methods used in the numerical simulation of unsteady free surface flows may introduce sources or sinks resulting in changes in total fluid volume in the computational domain. A computational model is developed for incompressible, 2-dimensional, unsteady free surface flows to investigate the conditions of total volume conservation. The model is based on finite volume discretization of the Navier-Stokes equations coupling momentum and mass conservation. Free surface position is tracked using a depth-integrated continuity equation. Possible free surface cell configurations and a solution procedure for continuity are described. A flux-corrected transport method is applied to the free surface solution to maintain numerical stability and eliminate unphysical surface oscillations. The discretization scheme and the computer code are validated in lid-driven cavity flow. Liquid sloshing in a partially filled rectangular tank and dam-break flows are simulated. Numerical solutions preserving total volume are presented. Computed free surface profiles are verified by experimental data.Keywords : Free-surface flow, Unsteady flow, Dam-break, Sloshing tank, Finite volume method