Add to ORKGWe consider systems of hyperbolic balance laws governing flows of an arbitrary number of components equipped with general equations of state. The components are assumed to be immiscible. We compare two such models: one in which thermal equilibrium is attained through a relaxation procedure, and a fully relaxed model in which equal temperatures are instantaneously imposed. We describe how the relaxation procedure may be made consistent with the second law of thermodynamics. Exact wave velocities for both models are obtained and compared. In particular, our formulation directly proves a general subcharacteristic condition: For an arbitrary number of components and thermodynamically stable equations of state, the mixture sonic velocity of the ...
We discuss a model for the flow of an inviscid fluid admitting liquid and vapor phases, as well as a...
Hyperbolic relaxation systems is an active field of research, with a largenumber of applications in ...
Hyperbolic systems of conservation laws often have diffusive relaxation terms that lead to a small r...
Abstract. We consider systems of hyperbolic balance laws governing flows of an arbitrary number of c...
We consider a system of hyperbolic balance laws governing relativistic fluid flow of an arbitrary nu...
two-fluid model, hyperbolic equations, relaxation terms Influence of the stiff inter-phase exchange ...
We study a two-phase pipe flow model with relaxation terms in the momentum and energy equations, dri...
We consider an equilibrium version of a common two-fluid model for pipe flow, containing o...
We consider different hyperbolic systems of balance laws governing relativistic two-species flows in...
Relaxation systems are widely studied and much used to describe nonequilibrium phenomena, occurring ...
This paper is concerned with the discretization of an hyperbolic system of conservation laws with st...
We review and extend a hierarchy of relaxation models for two-phase flow. The models are derived fro...
We consider hyperbolic conservation laws with relaxation terms. By studying the dispersion relation ...
We review and extend a hierarchy of relaxation models for two-phase flow. The models are derived fro...
We propose a new model and a solution method for two-phase two-fluid compressible flows. The model i...
We discuss a model for the flow of an inviscid fluid admitting liquid and vapor phases, as well as a...
Hyperbolic relaxation systems is an active field of research, with a largenumber of applications in ...
Hyperbolic systems of conservation laws often have diffusive relaxation terms that lead to a small r...
Abstract. We consider systems of hyperbolic balance laws governing flows of an arbitrary number of c...
We consider a system of hyperbolic balance laws governing relativistic fluid flow of an arbitrary nu...
two-fluid model, hyperbolic equations, relaxation terms Influence of the stiff inter-phase exchange ...
We study a two-phase pipe flow model with relaxation terms in the momentum and energy equations, dri...
We consider an equilibrium version of a common two-fluid model for pipe flow, containing o...
We consider different hyperbolic systems of balance laws governing relativistic two-species flows in...
Relaxation systems are widely studied and much used to describe nonequilibrium phenomena, occurring ...
This paper is concerned with the discretization of an hyperbolic system of conservation laws with st...
We review and extend a hierarchy of relaxation models for two-phase flow. The models are derived fro...
We consider hyperbolic conservation laws with relaxation terms. By studying the dispersion relation ...
We review and extend a hierarchy of relaxation models for two-phase flow. The models are derived fro...
We propose a new model and a solution method for two-phase two-fluid compressible flows. The model i...
We discuss a model for the flow of an inviscid fluid admitting liquid and vapor phases, as well as a...
Hyperbolic relaxation systems is an active field of research, with a largenumber of applications in ...
Hyperbolic systems of conservation laws often have diffusive relaxation terms that lead to a small r...