Sharp interface simulations with Local Mesh Refinement for multi-material dynamics in strongly shocked flows

Shiv Kumar Sambasivan; H. S UDAYKUMAR

doi:10.1016/j.compfluid.2010.04.014

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Sharp interface simulations with Local Mesh Refinement for multi-material dynamics in strongly shocked flows

Journal article

Peer reviewed

Sharp interface simulations with Local Mesh Refinement for multi-material dynamics in strongly shocked flows

Shiv Kumar Sambasivan and H. S UDAYKUMAR

Computers & fluids, Vol.39(9), pp.1456-1479

2010

DOI: 10.1016/j.compfluid.2010.04.014

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Abstract

Shock waves interacting with multi-material interfaces in compressible flows result in complex shock diffraction patterns involving total or partial reflection, refraction and transmission of the impinging shock wave. To simulate such complicated interfacial dynamics problems, a fixed Cartesian grid approach in conjunction with levelset interface tracking is attractive. In this regard, a unified Riemann solver based Ghost Fluid Method (GFM) is developed to accurately resolve and represent the embedded solid and fluid object(s) in high speed compressible multiphase flows. In addition, the Riemann solver based GFM approach is augmented with a quadtree (octree in three-dimensions) based Local Mesh Refinement (LMR) technique for efficient and high fidelity computations involving strong shock interactions. The paper reports on a conservative formulation for accurate calculation of ENO-based numerical fluxes at the fine-coarse mesh boundaries. The numerical examples presented in this paper clearly demonstrate that the methodology produces accurate benchmark solutions and effectively captures fine structures in the flow field.

Fluid Dynamics

Physics

Computational methods in fluid dynamics

Fundamental areas of phenomenology (including applications)

Exact sciences and technology

Shock-wave interactions and shock effects

Compressible flows; shock and detonation phenomena

Details

Title: Subtitle: Sharp interface simulations with Local Mesh Refinement for multi-material dynamics in strongly shocked flows
Creators: Shiv Kumar Sambasivan - Department of Mechanical and Industrial Engineering, 3131 Seamans Center, University of Iowa, Iowa City, IA 52242, United States
H. S UDAYKUMAR - Department of Mechanical and Industrial Engineering, 3131 Seamans Center, University of Iowa, Iowa City, IA 52242, United States
Resource Type: Journal article
Publication Details: Computers & fluids, Vol.39(9), pp.1456-1479
DOI: 10.1016/j.compfluid.2010.04.014
ISSN: 0045-7930
eISSN: 1879-0747
Publisher: Elsevier; Kidlington
Language: English
Date published: 2010
Academic Unit: Injury Prevention Research Center; Mechanical Engineering
Record Identifier: 9984064587502771

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