Journal ArticleDOI
Volume-weighted mixture theory for granular materials
Kuo-Ching Chen,Yih-Chin Tai +1 more
TLDR
In this paper, a continuum thermodynamic theory for the analysis of reversible and irreversible compaction of cohesionless granular particles when a vertical oscillation is exerted on the system is proposed.Abstract:
In the present work we treat granular materials as mixtures composed of a solid and a surrounding void continuum, proposing then a continuum thermodynamic theory for it. In contrast to the common mass-weighted balance equations of mass, momentum, energy and entropy for mixtures, the volume-weighted balance equations and the associated jump conditions of the corresponding physical quantities are derived in terms of volume-weighted field quantities here. The evolution equations of volume fractions, volume-weighted velocity, energy, and entropy are presented and explained in detail. By virtue of the second law of thermodynamics, three dissipative mechanisms are considered which are specialized for a simple set of linear constitutive equations. The derived theory is applied to the analysis of reversible and irreversible compaction of cohesionless granular particles when a vertical oscillation is exerted on the system. In this analysis, a hypothesis for the existence of a characteristic depth within the granular material in its closely compacted state is proposed to model the reversible compaction.read more
Citations
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Nonhydrostatic granular flow over 3‐D terrain: New Boussinesq‐type gravity waves?
TL;DR: In this paper, the authors proposed a new framework for the physical and mathematical modeling of granular mass flow in geophysics, whereby the effect of vertical motion is mathematically included without the need of ad hoc assumptions.
Journal ArticleDOI
A Mixture Theory formulation for hydraulic or pneumatic transport of solid particles
TL;DR: In this paper, the authors discuss the importance of constitutive modeling of the stress tensors in certain engineering issues, related to the pressure drop and skin friction, encountered in solids transport.
Journal ArticleDOI
A Guide through Available Mixture Theories for Applications
TL;DR: In this paper, the authors discuss the approaches used in the theory of mixtures and provide a critical review from a fresh perspective with the aim to identify limitations and open questions inherent to various versions of the theory such a discussion could serve as a guide to the formulation of a model for the problem at hand.
Journal ArticleDOI
Indirect measurements of streamwise solid fraction variations of granular flows accelerating down a smooth rectangular chute
TL;DR: In this paper, a method for estimating the flux-averaged solid fraction of a steady granular flows moving down an inclined rectangular chute using velocity measurements from along the perimeter cross section, combined with knowledge of the mass flow rate through the cross section is presented.
Journal ArticleDOI
Important aspects in the formulation of solid–fluid debris-flow models. Part II. Constitutive modelling
Kolumban Hutter,Lukas Schneider +1 more
TL;DR: In this paper, Schneider and Hutter showed that the assumption of pressure equilibrium precludes the application of frictional stresses in equilibrium and replaced this unphysical assumption with a thermodynamic closure condition that is more flexible and less restrictive.
References
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Journal ArticleDOI
Method of Lagrange multipliers for exploitation of the entropy principle
TL;DR: In this article, the Lagrange multipliers are used to derive restrictions from the entropy principle for all kinds of different materials, and the method proposed here is intended to facilitate the solution of this problem.
Journal ArticleDOI
Mixing and Segregation of Granular Materials
TL;DR: In this article, the authors present a body of knowledge that forms the beginnings of an expandable continuum framework for the description of mixing and segregation of granular materials, focusing primarily on noncohesive particles, possibly differing in size, density, shape, etc.