Modeling Approaches and Computational Methods for Particle-laden Turbulent Flows

Modeling Approaches and Computational Methods for Particle-laden Turbulent Flows

Subramaniam, Shankar; Balachandar, S.

Elsevier Science & Technology

10/2022

586

Mole

Inglês

9780323901338

15 a 20 dias

910

Descrição não disponível.
1. Introduction Shankar Subramaniam and S. Balachandar 2. Particle dispersion and preferential concentration in particle-laden turbulence Andrew J. Banko and John K. Eaton 3. Physics of two-way coupling in particle-laden homogeneous isotropic turbulence Antonino Ferrante and Said Elghobashi 4. Coagulation in turbulent particle-laden flows Lian-Ping Wang 5. Efficient methods for particle-resolved direct numerical simulation Markus Uhlmann, Jos Derksen, Anthony Wachsy, Lian-Ping Wangz and Manuel Moriche 6. Results from particle-resolved simulations Agathe Chouippe, Aman G. Kidanemariam, Jos Derksen, Anthony Wachs and Markus Uhlmann 7. Modeling of short-range interactions between both spherical and non-spherical rigid particles Anthony Wachs, Markus Uhlmann, Jos Derksen and Damien P. Huet 8. Improved force models for Euler - Lagrange computations Jeremy A. K. Horwitz 9. Deterministic extended point - particle models S. Balachandar and Martin R. Maxey 10. Stochastic models Aaron M. Lattanzi and Shankar Subramaniam 11. Volume-filtered Euler - Lagrange method for strongly coupled fluid particle flows Jesse Capecelatro and Oliver Desjardins 12. Quadrature-based moment methods for particle-laden flows Alberto Passalacqua and Rodney O. Fox 13. Eulerian-Eulerian modeling approach for turbulent particle-laden flows Berend van Wachem 14. Multiscale modeling of gas-fluidized beds Yali Tang and J.A.M. (Hans) Kuipers 15. Future directions Shankar Subramaniam and S. Balachandar
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discrete element; finite difference method; numerical study; fluidized bed; granular material; charged particle; flow simulation; digital elevation model; two-fluid model; flow characteristic; microfluidic