SPH-ALE Scheme for Weakly Compressible Viscous Flow with a Posteriori Stabilization

Abstract: A highly accurate SPH method with a new stabilization paradigm has been introduced by the authors in a recent paper aimed to solve Euler equations for ideal gases. We present here the extension of the method to viscous incompressible flow. Incompressibility is tackled assuming a weakly compressible approach. The method adopts the SPH-ALE framework and improves accuracy by taking high-order variable reconstruction of the Riemann states at the midpoints between interacting particles. The moving least squares tec… Show more

“…A Lagrangian approach and homogeneous boundary conditions are used for the proposed test cases, unless indicated in the text. The boundary conditions in this work were implemented using the mirroring ghost particles procedure, as in [47,48].…”

A Well-Balanced SPH-ALE Scheme for Shallow Water Applications

“…A Lagrangian approach and homogeneous boundary conditions are used for the proposed test cases, unless indicated in the text. The boundary conditions in this work were implemented using the mirroring ghost particles procedure, as in [47,48].…”

A Well-Balanced SPH-ALE Scheme for Shallow Water Applications

“…This Special Issue includes eleven original contributions, including nine research articles [1][2][3][4][5][6][7][8][9] and three review papers [10,11]. In terms of the modeling techniques, these papers develop and apply a variety of methods such as mesh-based Eulerian [1][2][3], meshfree Lagrangian [4,5,7,8], and data-driven [6] techniques.…”

“…This Special Issue includes eleven original contributions, including nine research articles [1][2][3][4][5][6][7][8][9] and three review papers [10,11]. In terms of the modeling techniques, these papers develop and apply a variety of methods such as mesh-based Eulerian [1][2][3], meshfree Lagrangian [4,5,7,8], and data-driven [6] techniques. These models are applied to study Water 2022, 14, 3985. https://doi.org/10.3390/w14243985 https://www.mdpi.com/journal/water different hydraulics problems, including curved channels [1,2,11], channel confluences [10], air-core vortices [5], and submerged granular slides [3].…”

“…The aim of the article by Eiris et al [7] is to extend the prior work of its authors in introducing an SPH stabilization technique for ideal gasses to the case of incompressible viscous flows. It is based on SPH and an Arbitrary Lagrangian-Eulerian (ALE) framework.…”

Computational Fluid Mechanics and Hydraulics

“…Contrary to the polynomial WENO above-mentioned, both Vergnaud et al [33] and Zhang et al [34] use 1D stencils along each interacting particle pair. Moreover, alternative methods to stabilize mesh-based schemes have been extended to SPH such as the a posteriori Multi-dimensional Optimal Order Detection (MOOD) technique [35].…”

Towards a High Order Convergent ALE-SPH Scheme with Efficient WENO Spatial Reconstruction