2.1. Overview

2.1.1. Equations

  • Steady and unsteady viscous flows.

  • Coupled stationary and rotating domains.

  • Reynolds-Averaged Navier-Stokes.

  • Detached Eddy Simulation.

  • Laminar-Turbulent Transition model.

  • Blade Element Theory model.

  • Actuator Disk model.

2.1.2. Turbulence Models

  • Spalart-Allmaras (sa-neg).

  • Spalart-Allmaras with Rotation-Curvature correction.

  • k-ω SST.

2.1.3. Boundary Conditions

  • Freestream (with optional location dependent velocity).

  • Slip Wall.

  • No-slip Wall (with optional tangential wall velocity).

  • Isothermal Wall.

  • Subsonic Inflow (total pressure, total temperature).

  • Subsonic Outflow (back pressure).

  • Subsonic Outflow (Mach).

  • Mass Flow In.

  • Mass Flow Out.