Turbulence: Numerical Flow SimulationExplores turbulence characteristics, simulation methods, and modeling challenges, providing guidelines for choosing and validating turbulence models.
The Finite Volume MethodCovers the Finite Volume Method for numerical flow simulation, including conservation equations, discretization methods, and boundary conditions.
Example: 1D steady diffusionExplores the numerical simulation of steady convection-diffusion problems, discretization, boundary conditions, and algebraic system assembly.
Diffusion: Macroscopic ViewExplores diffusion from a macroscopic perspective, emphasizing the derivation of the diffusion equation through mass conservation and fixed flux law.
Internal Heat Transfer EffectsCovers internal heat transfer effects in heterogeneous reactions, emphasizing dimensionless numbers and transport effects.
