[CFD] H/A (HbyA) in OpenFOAM - Part 2
Fluid Mechanics 101
[CFD] H/A (HbyA) in OpenFOAM - Part 2
40:46
[CFD] H/A (HbyA) in OpenFOAM - Part 1
Fluid Mechanics 101
[CFD] H/A (HbyA) in OpenFOAM - Part 1
38:34
[CFD] Inflation Layers - Part 2 (Corners, Orthogonality, Smoothing)
Fluid Mechanics 101
[CFD] Inflation Layers - Part 2 (Corners, Orthogonality, Smoothing)
35:18
[CFD] Conservative, Advective & Material Derivative forms of the Navier-Stokes Equations
Fluid Mechanics 101
[CFD] Conservative, Advective & Material Derivative forms of the Navier-Stokes Equations
32:20
[CFD] Turbulence Intensity for RANS
Fluid Mechanics 101
[CFD] Turbulence Intensity for RANS
28:38
[CFD] Pressure-based Coupled Solver (Part 2)
Fluid Mechanics 101
[CFD] Pressure-based Coupled Solver (Part 2)
38:12
[CFD] Pressure-based Coupled Solver (Part 1)
Fluid Mechanics 101
[CFD] Pressure-based Coupled Solver (Part 1)
35:10
[CFD] Conjugate Gradient for CFD (Part 2): Optimum Distance and Directions
Fluid Mechanics 101
[CFD] Conjugate Gradient for CFD (Part 2): Optimum Distance and Directions
34:26
[CFD] Conjugate Gradient for CFD (Part 1): Background and Steepest Descent
Fluid Mechanics 101
[CFD] Conjugate Gradient for CFD (Part 1): Background and Steepest Descent
45:01
[CFD] Pipe Mesh Transitions (Unstructured, Hexcore, Block Structured)
Fluid Mechanics 101
[CFD] Pipe Mesh Transitions (Unstructured, Hexcore, Block Structured)
36:24
Course Updates | SIMPLEC and PISO Algorithms
Fluid Mechanics 101
Course Updates | SIMPLEC and PISO Algorithms
8:16
[CFD] Multi-Grid for CFD (Part 2): Restriction and Prolongation
Fluid Mechanics 101
[CFD] Multi-Grid for CFD (Part 2): Restriction and Prolongation
38:26
[CFD] Multi-Grid for CFD (Part 1): Smoothing, Aliasing and the Correction Equation
Fluid Mechanics 101
[CFD] Multi-Grid for CFD (Part 1): Smoothing, Aliasing and the Correction Equation
32:40
[CFD] Meshing Guide for Pipes and Ducts (O-grid, hexcore, polyhedra)
Fluid Mechanics 101
[CFD] Meshing Guide for Pipes and Ducts (O-grid, hexcore, polyhedra)
53:40
A Look Inside My New Course | The SIMPLE Algorithm
Fluid Mechanics 101
A Look Inside My New Course | The SIMPLE Algorithm
13:31
Lecture Preview | SIMPLE Algorithm Course
Fluid Mechanics 101
Lecture Preview | SIMPLE Algorithm Course
21:04
SIMPLE Algorithm Course | NEW Course Announcement
Fluid Mechanics 101
SIMPLE Algorithm Course | NEW Course Announcement
13:17
[CFD] Hexcore Meshes for CFD
Fluid Mechanics 101
[CFD] Hexcore Meshes for CFD
30:55
[CFD] Pyramids, Prisms & Stair-Stepping
Fluid Mechanics 101
[CFD] Pyramids, Prisms & Stair-Stepping
32:31
[CFD] Gauss-Seidel Method in CFD
Fluid Mechanics 101
[CFD] Gauss-Seidel Method in CFD
28:31
[CFD] Aspect Ratio Warnings in CFD
Fluid Mechanics 101
[CFD] Aspect Ratio Warnings in CFD
34:32
[CFD] Pseudo-Transients for Steady State CFD (Part 3) - Fluid Timescale
Fluid Mechanics 101
[CFD] Pseudo-Transients for Steady State CFD (Part 3) - Fluid Timescale
29:53
[CFD] Pseudo-Transients for Steady State CFD (Part 2) - Length and Velocity Scales
Fluid Mechanics 101
[CFD] Pseudo-Transients for Steady State CFD (Part 2) - Length and Velocity Scales
37:54
[CFD] Pseudo Transients for Steady-State CFD (Part 1) - Pseudo vs True Transients
Fluid Mechanics 101
[CFD] Pseudo Transients for Steady-State CFD (Part 1) - Pseudo vs True Transients
36:56
[CFD] Relaxation in CFD (Part 3) - Pseudo Transients
Fluid Mechanics 101
[CFD] Relaxation in CFD (Part 3) - Pseudo Transients
30:49
[CFD] Relaxation in CFD (Part 2) - Implicit Relaxation, Diagonal Dominance
Fluid Mechanics 101
[CFD] Relaxation in CFD (Part 2) - Implicit Relaxation, Diagonal Dominance
30:43
[CFD] Relaxation in CFD (Part 1) - Explicit Relaxation, Under-Relaxation Factor
Fluid Mechanics 101
[CFD] Relaxation in CFD (Part 1) - Explicit Relaxation, Under-Relaxation Factor
33:51
CFD Analysis of a Lead-Cooled Nuclear Reactor
Fluid Mechanics 101
CFD Analysis of a Lead-Cooled Nuclear Reactor
1:07:04
[CFD] Residuals in CFD (Part 4) - Global Imbalance
Fluid Mechanics 101
[CFD] Residuals in CFD (Part 4) - Global Imbalance
38:18
[CFD] Residuals in CFD (Part 3) - Normalisation
Fluid Mechanics 101
[CFD] Residuals in CFD (Part 3) - Normalisation
34:19
Fluid Mechanics 101 Podcast - Tidal Stream Energy with Wouter Remmerie (Episode 4)
Fluid Mechanics 101
Fluid Mechanics 101 Podcast - Tidal Stream Energy with Wouter Remmerie (Episode 4)
51:07
[CFD] Residuals in CFD (Part 2) - Scaling
Fluid Mechanics 101
[CFD] Residuals in CFD (Part 2) - Scaling
32:00
[CFD] Residuals in CFD (Part 1) - Understanding Residuals
Fluid Mechanics 101
[CFD] Residuals in CFD (Part 1) - Understanding Residuals
42:32
[CFD] Rhie & Chow Interpolation (Part 3): Deriving the Correction!
Fluid Mechanics 101
[CFD] Rhie & Chow Interpolation (Part 3): Deriving the Correction!
39:57
[CFD] Rhie & Chow Interpolation (Part 2): Staggered Grids
Fluid Mechanics 101
[CFD] Rhie & Chow Interpolation (Part 2): Staggered Grids
39:47
[CFD] Rhie & Chow Interpolation (Part 1): Chequerboard Oscillations
Fluid Mechanics 101
[CFD] Rhie & Chow Interpolation (Part 1): Chequerboard Oscillations
45:54
My Interview on the Engineered Mind Podcast
Fluid Mechanics 101
My Interview on the Engineered Mind Podcast
3:02
[CFD] Inflation Layers / Prism Layers in CFD
Fluid Mechanics 101
[CFD] Inflation Layers / Prism Layers in CFD
47:14
[CFD] Convection (Heat Transfer Coefficient) Boundary Conditions
Fluid Mechanics 101
[CFD] Convection (Heat Transfer Coefficient) Boundary Conditions
34:02
[CFD] The Smagorinsky Turbulence Model (Part 2)
Fluid Mechanics 101
[CFD] The Smagorinsky Turbulence Model (Part 2)
41:10
[CFD] The Smagorinsky Turbulence Model (Part 1)
Fluid Mechanics 101
[CFD] The Smagorinsky Turbulence Model (Part 1)
40:09
Fluid Mechanics Podcast - Dr Giovanni Giustini on on Nuclear Reactor Cooling and Thermal Hydraulics
Fluid Mechanics 101
Fluid Mechanics Podcast - Dr Giovanni Giustini on on Nuclear Reactor Cooling and Thermal Hydraulics
57:28
[CFD] Eddy Viscosity Models for RANS and LES
Fluid Mechanics 101
[CFD] Eddy Viscosity Models for RANS and LES
41:44
Fluid Mechanics 101 Podcast - Dr Chris Vogel on Challenges and Opportunities in Tidal Stream Energy
Fluid Mechanics 101
Fluid Mechanics 101 Podcast - Dr Chris Vogel on Challenges and Opportunities in Tidal Stream Energy
1:01:42
[CFD] Large Eddy Simulation (LES) 3: Sub-Grid Modelling
Fluid Mechanics 101
[CFD] Large Eddy Simulation (LES) 3: Sub-Grid Modelling
36:41
[CFD] Heat Transfer Coefficient (htc) in ANSYS Fluent, OpenFOAM and CFX
Fluid Mechanics 101
[CFD] Heat Transfer Coefficient (htc) in ANSYS Fluent, OpenFOAM and CFX
28:20
[CFD] Large Eddy Simulation (LES) 2: Turbulent Kinetic Energy
Fluid Mechanics 101
[CFD] Large Eddy Simulation (LES) 2: Turbulent Kinetic Energy
37:53
[CFD] Enhanced Wall Functions in ANSYS Fluent
Fluid Mechanics 101
[CFD] Enhanced Wall Functions in ANSYS Fluent
30:21
[CFD] Large Eddy Simulation (LES): An Introduction
Fluid Mechanics 101
[CFD] Large Eddy Simulation (LES): An Introduction
27:23
[CFD] The Courant (CFL) Number
Fluid Mechanics 101
[CFD] The Courant (CFL) Number
27:31
[CFD] Pressure-Inlet Boundary Conditions
Fluid Mechanics 101
[CFD] Pressure-Inlet Boundary Conditions
30:01
[CFD] The k-omega Turbulence Model
Fluid Mechanics 101
[CFD] The k-omega Turbulence Model
25:28
[CFD] Multiple Reference Frame (MRF) Approach for Turbomachinery
Fluid Mechanics 101
[CFD] Multiple Reference Frame (MRF) Approach for Turbomachinery
27:20
[CFD] Lagrangian Particle Tracking
Fluid Mechanics 101
[CFD] Lagrangian Particle Tracking
29:44
[CFD] The Discrete Ordinates (DO) Radiation Model
Fluid Mechanics 101
[CFD] The Discrete Ordinates (DO) Radiation Model
31:35
[CFD] The Spalart-Allmaras Turbulence Model
Fluid Mechanics 101
[CFD] The Spalart-Allmaras Turbulence Model
23:22
[CFD] Mesh Non-Orthogonality 2: The Over-Relaxed Approach
Fluid Mechanics 101
[CFD] Mesh Non-Orthogonality 2: The Over-Relaxed Approach
39:01
[CFD] Calculating the Cell Volume
Fluid Mechanics 101
[CFD] Calculating the Cell Volume
28:31
[CFD] The PISO Algorithm
Fluid Mechanics 101
[CFD] The PISO Algorithm
39:35
[CFD] Green-Gauss Node-Based Gradient Schemes
Fluid Mechanics 101
[CFD] Green-Gauss Node-Based Gradient Schemes
26:34
[CFD] Least-Squares Gradient Scheme
Fluid Mechanics 101
[CFD] Least-Squares Gradient Scheme
30:12
[CFD] Green-Gauss Cell-Based and Node-Based Gradient Schemes
Fluid Mechanics 101
[CFD] Green-Gauss Cell-Based and Node-Based Gradient Schemes
30:21
[CFD] Porous Zones in CFD
Fluid Mechanics 101
[CFD] Porous Zones in CFD
28:16
[CFD] Shell Conduction in CFD
Fluid Mechanics 101
[CFD] Shell Conduction in CFD
27:45
[CFD] The Transition SST (gamma - Re_theta) model
Fluid Mechanics 101
[CFD] The Transition SST (gamma - Re_theta) model
32:38
[CFD] Non-Newtonian Flows in CFD
Fluid Mechanics 101
[CFD] Non-Newtonian Flows in CFD
21:53
[CFD] y+ for Laminar Flow
Fluid Mechanics 101
[CFD] y+ for Laminar Flow
23:57
[CFD] The k - epsilon Turbulence Model
Fluid Mechanics 101
[CFD] The k - epsilon Turbulence Model
25:49
[CFD] Eulerian Multi-Phase Modelling
Fluid Mechanics 101
[CFD] Eulerian Multi-Phase Modelling
24:48
[CFD] What is Mesh Non-Orthogonality?
Fluid Mechanics 101
[CFD] What is Mesh Non-Orthogonality?
32:27
[CFD] How Fine should my CFD mesh be?
Fluid Mechanics 101
[CFD] How Fine should my CFD mesh be?
20:57
[CFD] What is the difference between y+ and y*?
Fluid Mechanics 101
[CFD] What is the difference between y+ and y*?
22:02
[CFD] The Finite Volume Method in CFD
Fluid Mechanics 101
[CFD] The Finite Volume Method in CFD
24:17
[CFD] The k - omega SST Turbulence Model
Fluid Mechanics 101
[CFD] The k - omega SST Turbulence Model
20:08
[CFD] How are Wall Functions Modified for Roughness?
Fluid Mechanics 101
[CFD] How are Wall Functions Modified for Roughness?
29:34
[CFD] What Wall Functions Do I Need for Turbulent Kinetic Energy?
Fluid Mechanics 101
[CFD] What Wall Functions Do I Need for Turbulent Kinetic Energy?
27:14
[CFD] What Wall Functions Do I Need for Epsilon?
Fluid Mechanics 101
[CFD] What Wall Functions Do I Need for Epsilon?
24:01
[CFD] How does the Surface-to-Surface (S2S) Radiation Model Work?
Fluid Mechanics 101
[CFD] How does the Surface-to-Surface (S2S) Radiation Model Work?
34:29
[CFD] When and Why do I need Operating Pressure, Temperature and Density?
Fluid Mechanics 101
[CFD] When and Why do I need Operating Pressure, Temperature and Density?
22:37
[CFD] What is the difference between Upwind, Linear Upwind and Central Differencing?
Fluid Mechanics 101
[CFD] What is the difference between Upwind, Linear Upwind and Central Differencing?
34:45
[CFD] The Energy Equation for Solids and Fluids in CFD
Fluid Mechanics 101
[CFD] The Energy Equation for Solids and Fluids in CFD
31:13
[CFD] The Boussinesq Approximation for Bouyancy Driven (Natural Convection) Flow
Fluid Mechanics 101
[CFD] The Boussinesq Approximation for Bouyancy Driven (Natural Convection) Flow
18:16
[CFD] What are Thermal (Temperature) Wall Functions?
Fluid Mechanics 101
[CFD] What are Thermal (Temperature) Wall Functions?
23:35
[CFD] The SIMPLE Algorithm (to solve incompressible Navier-Stokes)
Fluid Mechanics 101
[CFD] The SIMPLE Algorithm (to solve incompressible Navier-Stokes)
14:22
[CFD] What are Wall Functions and How do they work?
Fluid Mechanics 101
[CFD] What are Wall Functions and How do they work?
21:33