On the properties and limitations of the height function method in two-dimensional Cartesian geometry
From MaRDI portal
Publication:630306
DOI10.1016/j.jcp.2010.11.029zbMath1210.65053OpenAlexW1967105313MaRDI QIDQ630306
Ruben Scardovelli, Stéphane Zaleski, Sandro Manservisi, Giorgio Bornia, Antonio Cervone
Publication date: 17 March 2011
Published in: Journal of Computational Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jcp.2010.11.029
algorithmnumerical examplescurvaturenormal vectorheight functioninterface reconstructionvolume of fluid methodquadratic reconstruction
Related Items (19)
A consistent and parallelized height function based scheme for applying contact angle to 3D volume-of-fluid simulations ⋮ Accurate interface normal and curvature estimates on three-dimensional unstructured non-convex polyhedral meshes ⋮ A fourth-order accurate curvature computation in a level set framework for two-phase flows subjected to surface tension forces ⋮ Computing interface curvature from volume fractions: a hybrid approach ⋮ Numerical integration of implicit functions for the initialization of the VOF function ⋮ Height function based volume of fluid code for simulations of multiphase magnetic fluids ⋮ A volume-of-fluid formulation for the study of co-flowing fluids governed by the Hele-Shaw equations ⋮ HFES: A Height Function Method with Explicit Input and Signed Output for High-Order Estimations of Curvature and unit Vectors of Planar Curves ⋮ Estimation of curvature from volume fractions using parabolic reconstruction on two-dimensional unstructured meshes ⋮ Parabolic interface reconstruction for 2D volume of fluid methods ⋮ PArallel, Robust, Interface Simulator (PARIS) ⋮ Deep learning of interfacial curvature: a symmetry-preserving approach for the volume of fluid method ⋮ Height-function curvature estimation with arbitrary order on non-uniform Cartesian grids ⋮ High resolution sharp computational methods for elliptic and parabolic problems in complex geometries ⋮ A projection method for coupling two-phase VOF and fluid structure interaction simulations ⋮ Detailed numerical simulations of pore competition in idealized micro-spall using the VOF method ⋮ Importance of curvature evaluation scale for predictive simulations of dynamic gas-liquid interfaces ⋮ A mesh-decoupled height function method for computing interface curvature ⋮ Computing interface curvature from volume fractions: a machine learning approach
Uses Software
Cites Work
- Unnamed Item
- Unnamed Item
- An accurate adaptive solver for surface-tension-driven interfacial flows
- A sharp interface method for incompressible two-phase flows
- Second-order accurate normals from height functions
- A quadratic spline based interface (QUASI) reconstruction algorithm for accurate tracking of two-phase flows
- Volume of fluid (VOF) method for the dynamics of free boundaries
- A continuum method for modeling surface tension
- Reconstructing volume tracking
- Volume-of-fluid interface tracking with smoothed surface stress methods for three-dimensional flows
- A second order coupled level set and volume-of-fluid method for computing growth and collapse of vapor bubbles.
- Second-order accurate volume-of-fluid algorithms for tracking material interfaces
- Interface curvature via volume fractions, heights, and mean values on nonuniform rectangular grids
- High-order Techniques for Calculating Surface Tension Forces
- Height functions for applying contact angles to 2D VOF simulations
- Interface reconstruction with least-square fit and split Eulerian-Lagrangian advection
- A front-tracking method for the computations of multiphase flow.
This page was built for publication: On the properties and limitations of the height function method in two-dimensional Cartesian geometry
