English

Adaptive interface-Mesh un-Refinement (AiMuR) based Sharp-Interface Level-Set-Method for Two-Phase Flow

Fluid Dynamics 2021-11-09 v2 Computational Physics

Abstract

Adaptive interface-Mesh un-Refinement (AiMuR) based Sharp-Interface Level-Set-Method (SI-LSM) is proposed for both uniform and non-uniform Cartesian-Grid. The AiMuR involves interface location based dynamic un-refinement (with merging of the four control volumes) of the Cartesian grid away from the interface. The un-refinement is proposed for the interface solver only. A detailed numerical methodology is presented for the AiMuR and ghost-fluid method based SI-LSM. Advantage of the novel as compared to the traditional SI-LSM is demonstrated with a detailed qualitative as well as quantitative performance study, involving the SI-LSMs on both coarse grid and fine grid, for three sufficiently different two-phase flow problems: dam break, breakup of a liquid jet and drop coalescence. A superior performance of AiMuR based SI-LSM is demonstrated - the AiMuR on a coarser non-uniform grid (NUcAiMuRNU_{c}^{AiMuR}) is almost as accurate as the traditional SI-LSM on a uniform fine grid (UfU_{f}) and takes a computational time almost same as that by the traditional SI-LSM on a uniform coarse grid (UcU_{c}). The AMuR is different from the existing Adaptive Mesh Refinement (AMR) as the former involves only mesh un-refinement while the later involves both refinement and un-refinement of the mesh. Moreover, the proposed computational development is significant since the present adaptive un-refinement strategy is much simpler to implement as compared to that for the commonly used adaptive refinement strategies. The proposed numerical development can be extended to various other multi-physics, multi-disciplinary and multi-scale problems involving interfaces.

Keywords

Cite

@article{arxiv.2108.00313,
  title  = {Adaptive interface-Mesh un-Refinement (AiMuR) based Sharp-Interface Level-Set-Method for Two-Phase Flow},
  author = {Kuntal Patel and Javed Shaikh and Absar Lakdawala and Atul Sharma},
  journal= {arXiv preprint arXiv:2108.00313},
  year   = {2021}
}
R2 v1 2026-06-24T04:43:09.461Z