00:04 Introduction to CFD and attendee background 03:22 Understanding background is important for CFD simulation 08:28 Ansys is a software used for simulating computational fluid dynamics. 11:32 ANSYS focuses on solving multiphysics problems by applying multiple physics 16:41 Simulation is integral to product development across all industries. 18:58 Ansys provides a framework for software to do computational fluid dynamics. 23:46 Connecting different softwares and physics for system level simulations 26:19 Importance of combining data analytics with simulations 30:55 Introduction to Ansys Workbench and its capabilities 33:08 Introduction to parameter study and optimization in Ansys training 38:28 Analytical fluid dynamics (AFD) for quick answers in simple cases. 40:54 Importance of mathematical models in solving industrial problems 45:39 Difference between Lagrangian and Eulerian forms 47:50 Understanding different frames of reference in CFD 52:28 CFD process overview 54:51 CFD can solve various transport phenomena 59:40 Simulations are essential in every stage of product development life cycle. 1:02:32 Importance of conserving mass and momentum in CFD simulations 1:07:33 Understanding the importance of geometry in CFD simulation 1:09:50 Ansys SpaceClaim is a direct modeling tool for creating and preparing geometry for CFD analysis. 1:14:12 Introduction to Direct Modeling in SpaceClaim 1:16:11 Spaceclaim is used to create and clean geometry for simulation purposes. 1:20:23 Geometry repair and preparation for simulation 1:22:26 Sketching and creating 3D bodies using pull in Ansys 1:26:55 Selection operations and mouse controls in SpaceClaim 1:29:20 Using STEP or Solidworks files can minimize data errors in simulation preparation. 1:33:47 Creating and modifying points in Ansys using pull tool 1:36:48 Using the pull tool in Ansys for various operations 1:41:22 Demonstration of using multiple functions in Ansys for CFD simulation. 1:45:01 Creating and using planes for cutting and splitting bodies in Ansys training 1:49:07 Splitting faces using Ansys Split tool 1:51:16 Geometry repair is crucial for successful CFD and FEA calculations. 1:55:33 Identifying and addressing gaps and disconnected edges in the CFD model 1:58:11 Visual inspection of gaps before performing operations is crucial 2:02:37 Space claim has three important modes and four main tools for performing operations. 2:04:49 The pull tool in Ansys works for all three kinds of geometries: surface, line, and point. 2:09:30 Moving and copying objects within Ansys training 2:11:32 Demonstration of precise body movement in Ansys training 2:16:11 Parameters in Ansys can be used to parameterize geometry, mesh, solver, and physics. 2:19:25 Introduction to creating a mixing tree in Ansys workshop 2:24:05 Split body is best for removing material from pipe in Ansys training 2:26:13 Introduction to using Section Mode in Ansys workshop 2:31:32 Extraction of fluid volume for CFD analysis in a pipe 2:33:50 The extraction of the fluid is not part of the workshop. 2:54:48 Utilizing split body feature to remove excess material 2:57:05 Removing material using volume extraction technique 3:04:41 Utilize sketch mode to create geometry in ANSYS 3:06:52 Selecting faces to enclose fluid volume 3:11:41 Learn to use selection tools and modify geometry efficiently 3:14:11 Consider the impact of fillets on fluid flow analysis. 3:19:46 Understanding the geometry for CFD analysis 3:22:08 Analyzing geometry using section mode and 3D mode 3:27:55 Analyzing external heat transfer and boundary conditions 3:30:20 Selection and enclosure in Ansys training 3:35:03 Understanding heat generation and convection in Ansys training 3:37:24 The boundary outlet should be far away from the obstacle. 3:47:01 Overview of Ansys CFD workflow 3:50:10 Introduction to starting Fluent in standalone mode 3:54:52 Understanding the licensing and parallel processing in Ansys CFD 3:57:11 Ansys CFD tutorial: Import geometry and generate mesh easily 4:02:34 Understanding shared topology in ANSYS for fluid flow simulations 4:05:31 Understanding share topology in CFD modeling 4:10:34 The need for a boundary layer in CFD. 4:13:27 Overview of setting up a CFD solution 4:18:24 Monitoring solution convergence criteria in CFD 4:20:45 Explanation of mass conservation equation and visualization of temperature in Ansys CFD 4:25:55 Using high performance computing for faster CFD simulations 4:28:24 Introduction to Fluent Missing Workflow 4:35:05 Boundary layer concept and preference for hex mesh in CFD analysis 4:37:25 Connecting tetrahedral and hexahedral elements in CFD 4:42:34 Understanding how to make geometry watertight 4:45:16 Import and export workflows for Fluent simulations 4:50:54 Selecting between shared memory and distributed memory for running Ansys. 4:54:14 Importance of clean geometry for effective CFD analysis 4:59:33 Learning about the functions within the ANSYS interface 5:02:36 Introduction to creating and saving workflows in Ansys
00:04 Introduction to CFD and attendee background
03:22 Understanding background is important for CFD simulation
08:28 Ansys is a software used for simulating computational fluid dynamics.
11:32 ANSYS focuses on solving multiphysics problems by applying multiple physics
16:41 Simulation is integral to product development across all industries.
18:58 Ansys provides a framework for software to do computational fluid dynamics.
23:46 Connecting different softwares and physics for system level simulations
26:19 Importance of combining data analytics with simulations
30:55 Introduction to Ansys Workbench and its capabilities
33:08 Introduction to parameter study and optimization in Ansys training
38:28 Analytical fluid dynamics (AFD) for quick answers in simple cases.
40:54 Importance of mathematical models in solving industrial problems
45:39 Difference between Lagrangian and Eulerian forms
47:50 Understanding different frames of reference in CFD
52:28 CFD process overview
54:51 CFD can solve various transport phenomena
59:40 Simulations are essential in every stage of product development life cycle.
1:02:32 Importance of conserving mass and momentum in CFD simulations
1:07:33 Understanding the importance of geometry in CFD simulation
1:09:50 Ansys SpaceClaim is a direct modeling tool for creating and preparing geometry for CFD analysis.
1:14:12 Introduction to Direct Modeling in SpaceClaim
1:16:11 Spaceclaim is used to create and clean geometry for simulation purposes.
1:20:23 Geometry repair and preparation for simulation
1:22:26 Sketching and creating 3D bodies using pull in Ansys
1:26:55 Selection operations and mouse controls in SpaceClaim
1:29:20 Using STEP or Solidworks files can minimize data errors in simulation preparation.
1:33:47 Creating and modifying points in Ansys using pull tool
1:36:48 Using the pull tool in Ansys for various operations
1:41:22 Demonstration of using multiple functions in Ansys for CFD simulation.
1:45:01 Creating and using planes for cutting and splitting bodies in Ansys training
1:49:07 Splitting faces using Ansys Split tool
1:51:16 Geometry repair is crucial for successful CFD and FEA calculations.
1:55:33 Identifying and addressing gaps and disconnected edges in the CFD model
1:58:11 Visual inspection of gaps before performing operations is crucial
2:02:37 Space claim has three important modes and four main tools for performing operations.
2:04:49 The pull tool in Ansys works for all three kinds of geometries: surface, line, and point.
2:09:30 Moving and copying objects within Ansys training
2:11:32 Demonstration of precise body movement in Ansys training
2:16:11 Parameters in Ansys can be used to parameterize geometry, mesh, solver, and physics.
2:19:25 Introduction to creating a mixing tree in Ansys workshop
2:24:05 Split body is best for removing material from pipe in Ansys training
2:26:13 Introduction to using Section Mode in Ansys workshop
2:31:32 Extraction of fluid volume for CFD analysis in a pipe
2:33:50 The extraction of the fluid is not part of the workshop.
2:54:48 Utilizing split body feature to remove excess material
2:57:05 Removing material using volume extraction technique
3:04:41 Utilize sketch mode to create geometry in ANSYS
3:06:52 Selecting faces to enclose fluid volume
3:11:41 Learn to use selection tools and modify geometry efficiently
3:14:11 Consider the impact of fillets on fluid flow analysis.
3:19:46 Understanding the geometry for CFD analysis
3:22:08 Analyzing geometry using section mode and 3D mode
3:27:55 Analyzing external heat transfer and boundary conditions
3:30:20 Selection and enclosure in Ansys training
3:35:03 Understanding heat generation and convection in Ansys training
3:37:24 The boundary outlet should be far away from the obstacle.
3:47:01 Overview of Ansys CFD workflow
3:50:10 Introduction to starting Fluent in standalone mode
3:54:52 Understanding the licensing and parallel processing in Ansys CFD
3:57:11 Ansys CFD tutorial: Import geometry and generate mesh easily
4:02:34 Understanding shared topology in ANSYS for fluid flow simulations
4:05:31 Understanding share topology in CFD modeling
4:10:34 The need for a boundary layer in CFD.
4:13:27 Overview of setting up a CFD solution
4:18:24 Monitoring solution convergence criteria in CFD
4:20:45 Explanation of mass conservation equation and visualization of temperature in Ansys CFD
4:25:55 Using high performance computing for faster CFD simulations
4:28:24 Introduction to Fluent Missing Workflow
4:35:05 Boundary layer concept and preference for hex mesh in CFD analysis
4:37:25 Connecting tetrahedral and hexahedral elements in CFD
4:42:34 Understanding how to make geometry watertight
4:45:16 Import and export workflows for Fluent simulations
4:50:54 Selecting between shared memory and distributed memory for running Ansys.
4:54:14 Importance of clean geometry for effective CFD analysis
4:59:33 Learning about the functions within the ANSYS interface
5:02:36 Introduction to creating and saving workflows in Ansys
Where is the gen in conservation?
Awesome
Rodriguez Steven Lewis Donna Clark Joseph