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Dissipative Solutions and Semiflow Selection for the Complete Euler System

Dominic Breit, Eduard Feireisl, Martina Hofmanová

2020Communications in Mathematical Physics26 citationsDOIOpen Access PDF

Abstract

Abstract To circumvent the ill-posedness issues present in various models of continuum fluid mechanics, we present a dynamical systems approach aiming at the selection of physically relevant solutions. Even under the presence of infinitely many solutions to the full Euler system describing the motion of a compressible inviscid fluid, our approach permits to select a system of solutions (one trajectory for every initial condition) satisfying the classical semiflow property. Moreover, the selection respects the well accepted admissibility criteria for physical solutions, namely, maximization of the entropy production rate and the weak–strong uniqueness principle. Consequently, strong solutions are always selected whenever they exist and stationary states are stable and included in the selection as well. To this end, we introduce a notion of dissipative solution , which is given by a triple of density, momentum and total entropy defined as expectations of a suitable measure-valued solution.

Topics & Concepts

Inviscid flowEuler systemDissipative systemMathematicsDynamical systems theoryEntropy (arrow of time)UniquenessEuler equationsCompressibilityEntropy productionEuler's formulaComplex systemClassical mechanicsSelection (genetic algorithm)Mathematical analysisApplied mathematicsTrajectoryDynamical system (definition)Statistical physicsDissipationMaximizationPhysical systemHamiltonian systemEquations of motionInitial value problemAngular momentumGravitational singularityPhysicsNavier-Stokes equation solutionsStability and Controllability of Differential EquationsElasticity and Material Modeling
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