Journal ArticleDOI
Kinetic theories for granular flow: inelastic particles in Couette flow and slightly inelastic particles in a general flowfield
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In this paper, the authors studied the flow of an idealized granular material consisting of uniform smooth, but nelastic, spherical particles using statistical methods analogous to those used in the kinetic theory of gases.Abstract:
The flow of an idealized granular material consisting of uniform smooth, but nelastic, spherical particles is studied using statistical methods analogous to those used in the kinetic theory of gases. Two theories are developed: one for the Couette flow of particles having arbitrary coefficients of restitution (inelastic particles) and a second for the general flow of particles with coefficients of restitution near 1 (slightly inelastic particles). The study of inelastic particles in Couette flow follows the method of Savage & Jeffrey (1981) and uses an ad hoc distribution function to describe the collisions between particles. The results of this first analysis are compared with other theories of granular flow, with the Chapman-Enskog dense-gas theory, and with experiments. The theory agrees moderately well with experimental data and it is found that the asymptotic analysis of Jenkins & Savage (1983), which was developed for slightly inelastic particles, surprisingly gives results similar to the first theory even for highly inelastic particles. Therefore the ‘nearly elastic’ approximation is pursued as a second theory using an approach that is closer to the established methods of Chapman-Enskog gas theory. The new approach which determines the collisional distribution functions by a rational approximation scheme, is applicable to general flowfields, not just simple shear. It incorporates kinetic as well as collisional contributions to the constitutive equations for stress and energy flux and is thus appropriate for dilute as well as dense concentrations of solids. When the collisional contributions are dominant, it predicts stresses similar to the first analysis for the simple shear case.read more
Citations
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Journal ArticleDOI
Hydrodynamic simulation of multi-sized high concentration slurry transport in pipelines
TL;DR: In this article, a steady-state three-dimensional multiphase hydrodynamic model based on the kinetic theory of granular flow is developed to investigate the distributions of solid concentration, flow velocity, granular pressure, and wall shear stress in multi-sized slurry (two particle sizes, dp = 0.125mm and 0.44mm, equal fraction by mass) transport by pipelines.
Journal ArticleDOI
CFD simulation of gas-solid bubbling fluidized bed containing FCC particles
TL;DR: In this paper, the hydrodynamics of a bubbling gas-solid fluidized bed of 57.4 μm FCC particles were simulated by using a two-fluid model integrating the kinetic theory of granular flow for particulate phase stresses.
Journal ArticleDOI
Rheology of particle suspensions with low to moderate fluid inertia at finite particle inertia
Rolf Verberg,Donald L. Koch +1 more
TL;DR: In this article, the lattice Boltzmann method is applied to simulate the rheology of particle suspensions with low-to-moderate fluid inertia and a wide range of particle inertia, and the viscous dissipation in a suspension of particles with a Maxwellian velocity distribution is shown to have a linear dependence on the Reynolds number similar to the Ergun correlation for the drag in a fixed bed of particles.
Journal ArticleDOI
CFD-PBM modeling polydisperse polymerization FBRs with simultaneous particle growth and aggregation: The effect of the method of moments
Ya Yao,Junwei Su,Zheng-Hong Luo +2 more
TL;DR: In this paper, three representatively numerical moment-based methods, namely the quadrature method of moments (QMOM), the direct QMOM, and the fixed pivot quadratures method of moment, were used to solve the population balance equation (PBE) for evaluating the effect of numerical method.
Journal ArticleDOI
Numerical simulation of single and multiple gas jets in bubbling fluidized beds
TL;DR: In this paper, the behavior of single and multiple horizontal gas jet injections into a rectangular bubbling fluidized bed is studied with three-dimensional numerical simulations, and the effect of the secondary gas injection on the flow hydrodynamics in the bed is examined for multiple jet injections with different jetting velocities and arrangements.
References
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Journal ArticleDOI
Equation of State for Nonattracting Rigid Spheres
TL;DR: In this paper, a new equation of state for rigid spheres has been developed from an analysis of the reduced virial series, which possesses superior ability to describe rigid-sphere behavior compared with existing equations.
Journal ArticleDOI
Experiments on a Gravity-Free Dispersion of Large Solid Spheres in a Newtonian Fluid under Shear
TL;DR: In this article, a large number of spherical grains of diameter D = 0.13 cm were sheared in Newtonian fluids of varying viscosity (water and a glycerine-water-alcohol mixture) in the annular space between two concentric drums.
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