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Volume 32, Issue 4
A Review on Contact and Collision Methods for Multi-Body Hydrodynamic Problems in Complex Flows

S. Karimnejad, A. Amiri Delouei, H. Başağaoğlu, M. Nazari, M. Shahmardan, G. Falcucci, M. Lauricella & S. Succi

Commun. Comput. Phys., 32 (2022), pp. 899-950.

Published online: 2022-10

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  • Abstract

Modeling and direct numerical simulation of particle-laden flows have a tremendous variety of applications in science and engineering across a vast spectrum of scales from pollution dispersion in the atmosphere, to fluidization in the combustion process, to aerosol deposition in spray medication, along with many others. Due to their strongly nonlinear and multiscale nature, the above complex phenomena still raise a very steep challenge to the most computational methods. In this review, we provide comprehensive coverage of multibody hydrodynamic (MBH) problems focusing on particulate suspensions in complex fluidic systems that have been simulated using hybrid Eulerian-Lagrangian particulate flow models. Among these hybrid models, the Immersed Boundary-Lattice Boltzmann Method (IB-LBM) provides mathematically simple and computationally-efficient algorithms for solid-fluid hydrodynamic interactions in MBH simulations. This paper elaborates on the mathematical framework, applicability, and limitations of various 'simple to complex' representations of close-contact interparticle interactions and collision methods, including short-range interparticle and particle-wall steric interactions, spring and lubrication forces, normal and oblique collisions, and mesoscale molecular models for deformable particle collisions based on hard-sphere and soft-sphere models in MBH models to simulate settling or flow of nonuniform particles of different geometric shapes and sizes in diverse fluidic systems.

  • AMS Subject Headings

70F35, 76M28

  • Copyright

COPYRIGHT: © Global Science Press

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@Article{CiCP-32-899, author = {Karimnejad , S.Delouei , A. AmiriBaşağaoğlu , H.Nazari , M.Shahmardan , M.Falcucci , G.Lauricella , M. and Succi , S.}, title = {A Review on Contact and Collision Methods for Multi-Body Hydrodynamic Problems in Complex Flows}, journal = {Communications in Computational Physics}, year = {2022}, volume = {32}, number = {4}, pages = {899--950}, abstract = {

Modeling and direct numerical simulation of particle-laden flows have a tremendous variety of applications in science and engineering across a vast spectrum of scales from pollution dispersion in the atmosphere, to fluidization in the combustion process, to aerosol deposition in spray medication, along with many others. Due to their strongly nonlinear and multiscale nature, the above complex phenomena still raise a very steep challenge to the most computational methods. In this review, we provide comprehensive coverage of multibody hydrodynamic (MBH) problems focusing on particulate suspensions in complex fluidic systems that have been simulated using hybrid Eulerian-Lagrangian particulate flow models. Among these hybrid models, the Immersed Boundary-Lattice Boltzmann Method (IB-LBM) provides mathematically simple and computationally-efficient algorithms for solid-fluid hydrodynamic interactions in MBH simulations. This paper elaborates on the mathematical framework, applicability, and limitations of various 'simple to complex' representations of close-contact interparticle interactions and collision methods, including short-range interparticle and particle-wall steric interactions, spring and lubrication forces, normal and oblique collisions, and mesoscale molecular models for deformable particle collisions based on hard-sphere and soft-sphere models in MBH models to simulate settling or flow of nonuniform particles of different geometric shapes and sizes in diverse fluidic systems.

}, issn = {1991-7120}, doi = {https://doi.org/10.4208/cicp.RE-2022-0041}, url = {http://global-sci.org/intro/article_detail/cicp/21134.html} }
TY - JOUR T1 - A Review on Contact and Collision Methods for Multi-Body Hydrodynamic Problems in Complex Flows AU - Karimnejad , S. AU - Delouei , A. Amiri AU - Başağaoğlu , H. AU - Nazari , M. AU - Shahmardan , M. AU - Falcucci , G. AU - Lauricella , M. AU - Succi , S. JO - Communications in Computational Physics VL - 4 SP - 899 EP - 950 PY - 2022 DA - 2022/10 SN - 32 DO - http://doi.org/10.4208/cicp.RE-2022-0041 UR - https://global-sci.org/intro/article_detail/cicp/21134.html KW - Particulate flow, collision, close-contact interaction, immersed boundary method, lattice Boltzmann method. AB -

Modeling and direct numerical simulation of particle-laden flows have a tremendous variety of applications in science and engineering across a vast spectrum of scales from pollution dispersion in the atmosphere, to fluidization in the combustion process, to aerosol deposition in spray medication, along with many others. Due to their strongly nonlinear and multiscale nature, the above complex phenomena still raise a very steep challenge to the most computational methods. In this review, we provide comprehensive coverage of multibody hydrodynamic (MBH) problems focusing on particulate suspensions in complex fluidic systems that have been simulated using hybrid Eulerian-Lagrangian particulate flow models. Among these hybrid models, the Immersed Boundary-Lattice Boltzmann Method (IB-LBM) provides mathematically simple and computationally-efficient algorithms for solid-fluid hydrodynamic interactions in MBH simulations. This paper elaborates on the mathematical framework, applicability, and limitations of various 'simple to complex' representations of close-contact interparticle interactions and collision methods, including short-range interparticle and particle-wall steric interactions, spring and lubrication forces, normal and oblique collisions, and mesoscale molecular models for deformable particle collisions based on hard-sphere and soft-sphere models in MBH models to simulate settling or flow of nonuniform particles of different geometric shapes and sizes in diverse fluidic systems.

Karimnejad , S.Delouei , A. AmiriBaşağaoğlu , H.Nazari , M.Shahmardan , M.Falcucci , G.Lauricella , M. and Succi , S.. (2022). A Review on Contact and Collision Methods for Multi-Body Hydrodynamic Problems in Complex Flows. Communications in Computational Physics. 32 (4). 899-950. doi:10.4208/cicp.RE-2022-0041
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