00:33

Falling Droplets (Multiphase) ∇ OpenFOAM®

00:41

Gin Tonic and the Heat Transfer Problem (conjugated heat transfer) ∇ OpenFOAM®

00:49

Water Pump using Cyclic Boundary Conditions (Multiphase) ∇ OpenFOAM®

00:38

Fan Cooling Simulation (ACMI, Dynamic Mesh) ∇ OpenFOAM®

00:23

Kaplan Turbine Simulation #2 (6DoF, AMI, Dynamic Mesh) ∇ OpenFOAM®

00:14

Highly Advanced ACMI Set-up (Dynamic Mesh) ∇ OpenFOAM®

00:09

Kaplan Turbine Simulation #1 (6DoF, AMI, Dynamic Mesh) ∇ OpenFOAM®

00:30

6DoF combined with AMI ∇ OpenFOAM®

00:51

Dynamic Mesh Motion and AMI ∇ OpenFOAM®

00:15

Newly Developed LASER Boundary Condition ∇ OpenFOAM®

01:20

Geometrical Variation (OpenFOAM®) ∇ OpenFOAM® & DAKOTA®

01:07

Bifluidic Oscillator Simulation #2 (InterFoam, VoF, Exciting Phenomena) ∇ OpenFOAM®

00:17

Complex Combustion Chamber Modeling (cold flow) ∇ OpenFOAM®

00:34

A Rotating Rotor (AMI, Dynamic Mesh, Passive Scalar) ∇ OpenFOAM®

01:07

ACMI and a Double Rotating FvDynamicMesh Library ∇ OpenFOAM®

00:34

The Gray Scott Model (Pattern 4) ∇ OpenFOAM®

00:34

The Gray Scott Model (Pattern 3) ∇ OpenFOAM®

00:34

The Gray Scott Model (Pattern 2) ∇ OpenFOAM®

00:44

The Gray Scott Model (Pattern 1) ∇ OpenFOAM®

01:07

Bifluidic Oscillator Simulation #3 (interFoam, VOF, physics) ∇ OpenFOAM®

01:07

Complex Mesh Motion (ACMI, Dynamic Mesh) ∇ OpenFOAM®

36:40

Derivation of the Mass Conservation Equation ∇ OpenFOAM®

01:07

(Bi)-Fluidic Oscillator Simulation #1 (Single Phase) ∇ OpenFOAM®

00:35

Nicolas Tesla's One-Way-Valve (Exciting Physical Phenomena) ∇ OpenFOAM®

00:34

The Magnus Effect Simulation (Rotating Wall) ∇ OpenFOAM®

00:34

A Multiphase Simulation Rendering (InterFoam, VoF, Advanced Techniques) ∇ OpenFOAM® | Blender®

00:41

HVAC Simulation of Städele (Buoyancy Effect) ∇ OpenFOAM®

00:09

Centrifugal Fan Simulation (AMI, Dynamic Mesh) ∇ Holzmann CFD

00:41

The Tesla Turbine Simulation (2D) ∇ OpenFOAM®

00:57

The Filled Bottles Simulation (Multiphase, Angular Velocity) ∇ OpenFOAM®

01:07

The Surface Tension (Multiphase) ∇ OpenFOAM®

01:07

A Flooding a Floor Simulation (Boundary Condition Analysis) ∇ OpenFOAM®

00:42

Boundary Condition Analysis for Fixed Water Height (interFoam, Multiphase) ∇ OpenFOAM®

01:28

The Rayleigh-Taylor Instability ∇ OpenFOAM®

01:28

Kelvin-Helmholtz Instability, CFD Analysis ∇ OpenFOAM®

00:51

Multiphase Flow and Dynamic Mesh (River) ∇ OpenFOAM®

00:49

Adaptive Mesh Refinement - Kármán Vortex Street ∇ OpenFOAM®

00:16

Holzmann CFD ∇ Multiphase Flow of a River (Project at Augsburg/Germany)

01:01

Numerical Instability of the 2. Order Gauss Linear Scheme ∇ OpenFOAM®

00:17

A Shrinkage Model and Mesh Motion ∇ OpenFOAM®

00:49

A Buoyancy Driven CFD Simulation ∇ OpenFOAM®

00:40

Hydraulic Jump Analysis based on a Publication ∇ OpenFOAM®

00:33

Analysis of the Hydraulic Jump Phenomenon (including dynamic boundaries) ∇ OpenFOAM®

00:49

Complex Geometry and Multiphase Flow (Filling a Carburetor) ∇ OpenFOAM®

00:09

Multi Region Simulation and Heat Transfer (Cup of Tee) ∇ OpenFOAM®

00:17

Dynamic Mesh Motion in a Mixer ∇ OpenFOAM®

00:59

Dynamic Mesh Motion using AMI (Fan) ∇ OpenFOAM®

00:40

Von Kármán Steet at Low Reynolds Numbers ∇ OpenFOAM®

00:21

Kármán Vortex Street at High Reynolds Number ∇ OpenFOAM®

00:04

High Viscose Multiphase Flow (Chocolate) ∇ OpenFOAM®

00:10

The Hydaulic Jump Phenomenon (Multiphase, InterFoam) ∇ OpenFOAM®

02:17

Multiphase Flow and Phenomenon Analysis ∇ OpenFOAM®

00:29

Multiphase filling Simulation (interFoam) ∇ OpenFOAM®

00:29

A basic multiphase flow case (interFoam) ∇ OpenFOAM®

00:21

Multiphase Fountain Simulation (Fun Simulation) ∇ OpenFOAM®

00:25

Multiphase flow simulation with obstacles ∇ OpenFOAM®

01:00

Kármán Vortex Street (Kármánsche Wirbelstraße) ∇ OpenFOAM®

00:29

Multiphase flow Simulation (River Simulation, interfoam) ∇ OpenFOAM®

00:36

Holzmann CFD & OpenFOAM® - Multiphase, fun simulation