The role of particle collisions in pneumatic transport-Reference-Cited by-同舟云学术

The role of particle collisions in pneumatic transport

Published:1991-10 Issue: Volume:231 Page:345-359
ISSN:0022-1120
Container-title:Journal of Fluid Mechanics
language:en
Short-container-title:J. Fluid Mech.

Author:

Louge M. Y.,Mastorakos E.,Jenkins J. T.

Abstract

We analyse the dilute, steady, fully developed flow of relatively massive particles in a turbulent gas in the context of a vertical pipe. The idea is that the exchange of momentum in collisions between the grains and between the grains and the wall plays a significant role in the balance of forces in the particle phase. Consequently, the particle phase is considered to be a dilute system of colliding grains, in which the velocity fluctuations are produced by collisions rather than by the gas turbulence. The balance equations for rapid granular flow are modified to incorporate the drag force from the gas, and boundary conditions, based on collisional exchanges of momentum and energy at the wall, are employed. The turbulence of the gas is treated using a one-equation closure. A numerical solution of the resulting governing equations provides velocity and turbulent energy profiles in agreement with the measurements of Tsuji et al. (1984).

Publisher

Cambridge University Press (CUP)

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics

Reference22 articles.

1. Koch, D. L. 1990 Kinetic theory for a monodisperse gas-solid suspension.Phys. Fluids A2,1711–1723.

2. Lourenco, L. , Riethmuller, M. L. & Essers, J.-A. 1983 The kinetic model for gas-particle flow and its numerical implementation. In Proc. Intl Conf. on the Physical Modelling of Multiphase Flow , pp.501–525. BHRA Fluid Engineering, Cranfield, UK.

3. Sinclair, J. L. & Jackson, R ,1989 Gas-particle flow in a vertical pipe with particle-particle interactions.AIChE J. 35,1473–1486.

4. Lee, S. L. & Durst, F. 1982 On the motion of particles in turbulent duct flows.Intl J. Multiphase Flow 8,125–146.

5. Jenkins, J. T. 1991 Boundary conditions for rapid granular flows: flat frictional walls. Trans. ASME E: J. Appl. Mech., in press.

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