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On the nonlinear thermal stress, thermal creep, and thermal edge flows in triangular cavities

Mostafa Mousivand, Ehsan Roohi

2022Physics of Fluids16 citationsDOI

Abstract

Here, rarefied thermally driven flow is investigated in two-dimensional equilateral triangular cavities with different uniform wall temperatures. We used three different solvers, i.e., the direct simulation Monte Carlo solver, discrete unified gas kinetic scheme solver, and continuum set of equations of a slow non-isothermal flow solver. Two main cases were considered; in the first case, the cavity's base is considered hot, and the other sides were set cold. In the second case, the right half of the bottom wall was regarded as a diffuse reflector with high temperature, while the left half of the bottom border was set as a specular reflector. The adjacent side walls were set cold with diffuse reflector boundary conditions. The imposed temperature difference/wall boundary condition induces various vortices in the geometry. In case 1, we observe that principal vortices appearing in the triangle are due to nonlinear thermal stress effects, and the thermal creep effects cause other smaller, confined ones. In case 2, a thermal edge flow is set up from the specular wall on the way to the diffusive hot wall, creating a large vortex in the geometry. As the Knudsen number decreases, another small vortex appears near the left cold border.

Topics & Concepts

PhysicsMechanicsVortexThermalGeometryBoundary value problemNonlinear systemClassical mechanicsThermodynamicsQuantum mechanicsMathematicsGas Dynamics and Kinetic TheoryFluid Dynamics and Turbulent FlowsAdvanced Thermodynamics and Statistical Mechanics
On the nonlinear thermal stress, thermal creep, and thermal edge flows in triangular cavities | Litcius