.. _overview: Overview ============ Meshing ------- - :ref:`Engineering Sketch Pad (ESP) to Surface Mesh ` - :ref:`Surface Mesh to Volume Mesh ` - :ref:`Refinement Zones: box and cylinder ` - :ref:`Rotor Disk meshing ` - :ref:`Sliding Interfaces ` Modeling Options ---------------- - :ref:`Steady and unsteady viscous flows ` - :ref:`Coupled stationary and rotating domains ` - :ref:`Reynolds-Averaged Navier-Stokes ` - :ref:`Detached Eddy Simulation ` - :ref:`Actuator Disk ` - :ref:`Blade Element Theory ` - :ref:`Porous Media ` - :ref:`User Defined Dynamics ` - :ref:`Conjugate Heat Transfer ` - :ref:`Aeroacoustics Simulation ` Turbulence Models ----------------- - Spalart-Allmaras (SA-neg) - Spalart-Allmaras with Rotation-Curvature correction (SA-RC) - Spalart-Allmaras with Quadratic Constitutive Relation (SA-QCR) - k-:math:`{\omega}` SST - k-:math:`{\omega}` SST with Quadratic Constitutive Relation (SST-QCR) - Amplification Factor Transport (AFT), laminar-turbulent transition model See :ref:`turbulenceModelSolver knowledge base ` and :ref:`transitionModelSolver knowledge base ` for details Boundary Conditions ------------------- - Freestream (with optional location dependent velocity) - Slip Wall - Symmetry Plane - No-slip Wall (with optional tangential wall velocity) - Isothermal Wall - Heat Flux Wall - Wall Model - Subsonic Inflow (total pressure, total temperature) - Subsonic Outflow (back pressure) - Subsonic Outflow (Mach) - Mass Flow In - Mass Flow Out - Translationally Periodic Boundaries - Rotationally Periodic Boundaries