Collective dynamics of particles : from viscous to turbulent flows
Author(s)
Bibliographic Information
Collective dynamics of particles : from viscous to turbulent flows
[Amazon], c2017
- : softcover
Available at 1 libraries
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Institute of Materials and Systems for Sustainability, Nagoya University未来材料研
: softcover423.8||M41678463
Note
Reprint. Originally published: Cham : Springer, c2017
"Softcover reprint of the hardcover 1st edition 2017"--T.p. verso
"Contains selected printouts based on the lectures given during the advanced course entitled 'Collective Dynamics of Particles: From Viscous to Turbulent Flows'. The course was held at the International Center of Mechanical Sciences in Udine (Italy)"--Pref
Original issued in series: CISM courses and lectures
Includes bibliographical references
Description and Table of Contents
Description
The book surveys the state-of-the-art methods that are currently available to model and simulate the presence of rigid particles in a fluid flow. For particles that are very small relative to the characteristic flow scales and move without interaction with other particles, effective equations of motion for particle tracking are formulated and applied (e.g. in gas-solid flows). For larger particles, for particles in liquid-solid flows and for particles that interact with each other or possibly modify the overall flow detailed model are presented. Special attention is given to the description of the approximate force coupling method (FCM) as a more general treatment for small particles, and derivations in the context of low Reynolds numbers for the particle motion as well as application at finite Reynolds numbers are provided. Other topics discussed in the book are the relation to higher resolution immersed boundary methods, possible extensions to non-spherical particles and examples of applications of such methods to dispersed multiphase flows.
Table of Contents
Low-Reynolds number particles in highly viscous fluid.- Collective Stokesian dynamics of viscous suspensions.- Transition in solid-fluid systems.- Modeling and simulation of discrete particles in fluid flow.- Collective effects of inertial particles in turbulent flows.- Modeling and simulation of finite-size particles in turbulence.
by "Nielsen BookData"