Theory for the Single-Phase Flow Interfaces
Also see Theory for the Turbulent Flow Interfaces and Theory for the Rotating Machinery Interfaces.
The theory for the Single-Phase Flow, Laminar Flow interface is described in this section:
General Single-Phase Flow Theory
Compressible Flow
Weakly Compressible Flow
The Mach Number Limit
Incompressible Flow
The Reynolds Number
Non-Newtonian Flow
Gravity
The Boussinesq Approximation
Theory for the Wall Boundary Condition
Prescribing Inlet and Outlet Conditions
Mass Flow
Fully Developed Flow (Inlet)
Fully Developed Flow (Outlet)
No Viscous Stress
Normal Stress Boundary Condition
Vacuum Pump Boundary Condition
Fan Defined on an Interior Boundary
Fan and Grille Boundary Conditions
Screen Boundary Condition
Porous Interface
Mass Sources for Fluid Flow
Numerical Stability — Stabilization Techniques for Fluid Flow
Solvers for Laminar Flow
Pseudo Time Stepping for Laminar Flow Models
Nitsche Constraints
Particle Tracing in Fluid Flow
References for the Single-Phase Flow, Laminar Flow Interfaces
The theory about most boundary conditions is found in Ref. 2.