كورس محاكاة الانسياب باستخدام برنامج سوليدوركس – Flow Simulation Using Solidworks
كورس محاكاة الانسياب باستخدام برنامج سوليدوركس
Flow Simulation Using Solidworks
1.Course Introduction – 1.Introduction to SolidWorks Flow Simulation
1.Course Introduction – 2.Theoretical Background
1.Course Introduction – 3.Terminology
1.Course Introduction – 4.Basics of CFD
2.Model Preparation – 1.Model Prparation Introduction
2.Model Preparation – 2.Create Lids
2.Model Preparation – 3.Manually Creating Lids – Part
2.Model Preparation – 4.Manually Creating Lids – Assembly
2.Model Preparation – 5.Check Geometry
2.Model Preparation – 6.The Engineering Database
3.Creating a Simple Flow Study – Fluid in a Pipe – 1.Create a Flow Study Using the Wizard
3.Creating a Simple Flow Study – Fluid in a Pipe – 2.Applying Boundary Conditions
3.Creating a Simple Flow Study – Fluid in a Pipe – 3.Engineering Goals
3.Creating a Simple Flow Study – Fluid in a Pipe – 4.Equation Goals
3.Creating a Simple Flow Study – Fluid in a Pipe – 5.Running the Analysis and Viewing Goal Plots
3.Creating a Simple Flow Study – Fluid in a Pipe – 6.Analyzing Results – Cut Plot
3.Creating a Simple Flow Study – Fluid in a Pipe – 7.Analyzing Results – Flow Trajectories and XY Plots
3.Creating a Simple Flow Study – Fluid in a Pipe – 8.Analyzing Results – Surface Parameters
4.Meshing and Thin Wall Optimization – 1.Meshing Overview
4.Meshing and Thin Wall Optimization – 2.What is an Initial Mesh
4.Meshing and Thin Wall Optimization – 3.Thin Walls and Minimum Gap Size
4.Meshing and Thin Wall Optimization – 4.Optimize Thin Walls Resolution
4.Meshing and Thin Wall Optimization – 5.Advanced Meshing Techniques
5.Particle Trajectory – 1.Particle Trajectories Introduction
5.Particle Trajectory – 2.Setting Up a Uniform Flow Study
5.Particle Trajectory – 3.Applying Boundary Conditions
5.Particle Trajectory – 4.Examining the Uniform Flow
5.Particle Trajectory – 5.Creating a Particle Study
5.Particle Trajectory – 6.Examining Results and Editing the Study
6.Fans and Rotating Reference Frames – 1.Fans and Rotating Reference Frames Introduction
6.Fans and Rotating Reference Frames – 2.Creating an Enclosure
6.Fans and Rotating Reference Frames – 3.Creating the Study
6.Fans and Rotating Reference Frames – 4.Adjusting the Mesh
6.Fans and Rotating Reference Frames – 5.Defining a Rotating Region
6.Fans and Rotating Reference Frames – 6.Creating a Local Mesh
6.Fans and Rotating Reference Frames – 7.Boundary Conditions and Goals
6.Fans and Rotating Reference Frames – 8.Calculation Control Options and Running the Analysis
6.Fans and Rotating Reference Frames – 9.Analyzing Results
7.Relative Humidity – 1.Relative Humidity Introduction
7.Relative Humidity – 2.Setting Up the Analysis
7.Relative Humidity – 3.Default Boundary Conditions
7.Relative Humidity – 4.Adding the Heat Source
7.Relative Humidity – 5.Inserting Goals and Running the Study
7.Relative Humidity – 6.Analyzing Results – Cut Plot
7.Relative Humidity – 7.Analyzing Results – Flow Trajectories
8.Porous Media – 1.Porous Media Introduction
8.Porous Media – 2.Setting Up the Study
8.Porous Media – 3.Applying Boundary Conditions
8.Porous Media – 4.Inserting the Porous Region and Running the Analysis
8.Porous Media – 5.Examining Results
9.External Flow Around a Sphere – 1.External Analysis Introduction
9.External Flow Around a Sphere – 2.Create the Study
9.External Flow Around a Sphere – 3.Initial and Ambient Conditions
9.External Flow Around a Sphere – 4.Computational Domain
9.External Flow Around a Sphere – 5.Engineering Goals
9.External Flow Around a Sphere – 6.Analyzing Results – Re = 1
9.External Flow Around a Sphere – 7.Expanding the Computational Domain
9.External Flow Around a Sphere – 8.2D Analysis – Re = .01
9.External Flow Around a Sphere – 9.2D Analysis – Re = 1000
9.External Flow Around a Sphere – 10.Animating the Cut Plot
10.Supersonic Flow – 1.Supersonic Flow Introduction
10.Supersonic Flow – 2.Problem Description
10.Supersonic Flow – 3.Setting Up Automatic Mesh Refinement
10.Supersonic Flow – 4.Engineering Goals
10.Supersonic Flow – 5.Running the Study
10.Supersonic Flow – 6.Analyzing Results
11.FEA Load Transfer – 1.FEA Load Transfer Problem
11.FEA Load Transfer – 2.Setting Up the Study
11.FEA Load Transfer – 3.Computational Domain and Goals
11.FEA Load Transfer – 4.Viewing Results
11.FEA Load Transfer – 5.Tranferring Results to Simulation
11.FEA Load Transfer – 6.Applying Fixtures in Simulation and Analyzing Results
12.Parametric Optimization – 1.Parametric Optimization Introduction
12.Parametric Optimization – 2.Analyzing Results
13.Transient Heat Transfer – 1.Transient Heat Transfer Introduction
13.Transient Heat Transfer – 2.Setting Up the Study
13.Transient Heat Transfer – 3.Applying Boundary Conditions
13.Transient Heat Transfer – 4.Defining Heat Sources
13.Transient Heat Transfer – 5.Defining Materials and Running the Study
13.Transient Heat Transfer – 6.Examining Results
14.Conjugate Heat Exchange – 1.Heat Exchange Introduction
14.Conjugate Heat Exchange – 2.Setting Up the Study
14.Conjugate Heat Exchange – 3.Applying Boundary Conditions
14.Conjugate Heat Exchange – 4.Defining Multiple Fluids
14.Conjugate Heat Exchange – 5.Adding Engineering Goals
14.Conjugate Heat Exchange – 6.Running the Study
14.Conjugate Heat Exchange – 7.Analyzing Results
كلمة سر فك الضغط : books-world.net
The Unzip Password : books-world.net
تعليقات