The Godunov-type finite-volume model is able to accurately simulate complex fluid flows without numerical oscillation. In particular, the mesh-based finite-volume model can capture the feature geometry with precision at the nodes of the grid, and thus has a benefit in flood modeling. However, the mesh-based model may cause partial drying and wetting, which are challenges to solve in the 2D numerical model. Begnudelli and Sanders (2006) proposed a triangular mesh-based volume/free surface relationship (VFR) for resolving partial drying and wetting, and Kim et al. (2014) extended the method to mixed mesh. In this study the accuracy and applicability of VFRs extended by Kim et al. (2014) were examined by applying three mesh types, namely triangular, quadrilateral and mixed mesh, with various resolutions. Model errors and run times were acceptable and VFRs applied in this study performed well regardless of mesh type and resolution.