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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Effect of electrostatic charges on single bubble in gas–solid fluidized beds
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Journal ArticleDOI
Three-dimensional, rapid shear flow of particles with continuous size distributions
TL;DR: In this paper, an extension of previous work for two-dimensional simulations of rapid shear flows with Gaussian and lognormal particle-size distributions is presented, where event-driven, discrete-particle (molecular dynamic) simulations are employed for the three-dimensional simple shear flow of smooth, spherical particles.
Journal ArticleDOI
Lubrication With Granular Flow: Continuum Theory, Particle Simulations, Comparison With Experiment
W. Gregory Sawyer,John A. Tichy +1 more
TL;DR: In this article, the authors compare the performance of the particle simulations and the continuum model over-predict the experimental normal load and shear force, however, the trends and orders-of-magnitude are in agreement.
Journal ArticleDOI
An experimental and numerical study on the Miscanthus gasification by using a pilot scale gasifier
TL;DR: In this article, the authors compared several mixtures of air with O 2, CO 2 and steam in a pilot scale gasification plant and evaluated the most suitable application for each mixture based on the results.
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Study of the hydraulic transport of non-spherical particles in a pipeline based on the CFD-DEM
TL;DR: In this article, the internal structure information of flows with different shaped particles is analyzed. But the authors focus on the slurry pipeline transport, which is widely used in dredging and is an important method of solid material transportation.
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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