Interface reconstruction with least-square t and split Eulerian–Lagrangian advection
نویسندگان
چکیده
Two new volume-ofuid (VOF) reconstruction algorithms, which are based on a least-square t technique, are presented. Their performance is tested for several standard shapes and is compared to a few other VOF=PLIC reconstruction techniques, showing in general a better convergence rate. The geometric nature of Lagrangian and Eulerian split advection algorithms is investigated in detail and a new mixed split Eulerian implicit–Lagrangian explicit (EI–LE) scheme is presented. This method conserves the mass to machine error, performs better than split Eulerian and Lagrangian algorithms, and it is only slightly worse than unsplit schemes. However, the combination of the interface reconstruction with the least-square t and its advection with the EI–LE scheme appears superior to other existing approaches. Copyright ? 2003 John Wiley & Sons, Ltd.
منابع مشابه
A 3D unsplit-advection volume tracking algorithm with planarity-preserving interface reconstruction
A new volume tracking method is introduced for tracking interfaces in three-dimensional (3D) geometries partitioned with orthogonal hexahedra. The method approximates interface geometries as piecewise planar, and advects volumes in a single unsplit step using fully multidimensional fluxes that have their definition based in backward-trajectory remapping. By using multidimensional unsplit advect...
متن کاملA Case Study on Hardware-Accelerated Lagrangian-Eulerian Texture Advection for Flow Visualization
A hardware-based approach for visualizing unsteady flow fields by means of Lagrangian-Eulerian advection is presented. The implementation allows texture advection to be performed completely on the graphics hardware in a single-pass rendering. We discuss experiences with the interactive visualization of unsteady flow fields that become possible due to the high visualization speed of the hardware...
متن کاملA geometrical predictor-corrector advection scheme and its application to the volume fraction function
We present a multidimensional Eulerian advection method for interfacial and incompressible flows in two-dimensional Cartesian geometry. In the scheme we advect the grid nodes backwards along the streamlines to compute the pre-images of the grid lines. These preimages are approximated by continuous, piecewise-linear lines. The enforcement of the discrete version of the incompressibility constrai...
متن کاملHardware-Accelerated Lagrangian-Eulerian Texture Advection for 2D Flow Visualization
A hardware-based approach for visualizing unsteady flow fields by means of Lagrangian-Eulerian advection is presented. Both noise-based and dyebased texture advection is supported. The implementation allows the advection of each texture to be performed completely on the graphics hardware in a single-pass rendering. We discuss experiences with the interactive visualization of unsteady flow field...
متن کاملInterface reconstruction with least-squares fit and split advection in three-dimensional Cartesian geometry
We present and analyse two new Volume-of-Fluid (VOF) reconstruction algorithms that approximate the interface separating two immiscible fluids as a linear function in each grid cell (PLIC Piecewise Linear Interface Calculation). The first one is based on two simple geometrical criteria for the reconstruction of a linear interface, the second one minimizes a distance functional to find the plane...
متن کامل