# SOLIDWORKS Flow Simulation

2 Days

\$1500.00

## Recommended Experience Level

• SOLIDWORKS Essentials

## Description

The SOLIDWORKS Flow Simulation course covers a wide variety of Computation Fluid Dynamics (CFD) studies. Study pressure drop, velocity profiles, and thermal conduction and convection through systems. Learn to optimize your design using design studies or design of experiments (DOE) alghorithms.

## Recommended For

• Engineers and Designers that need to analyze fluid flow, heat transfer, or pressure drop through their systems

## Course Outline

Introduction

• More SOLIDWORKS Training Resources

Lesson 1: Creating a SOLIDWORKS Flow Simulation Project

• Objectives
• Case Study: Manifold Assembly
• Problem Description
• Model Preparation
• Post-processing
• Discussion
• Summary

Lesson 2: Meshing

• Objectives
• Case Study: Chemistry Hood
• Project Description
• Computational Mesh
• Basic Mesh
• Initial Mesh
• Geometry Resolution
• Result Resolution/Level of Initial Mesh
• Control Planes
• Summary

Lesson 3: Thermal Analysis

• Objectives
• Case Study: Electronics Enclosure
• Project Description
• Fans
• Perforated Plates
• Discussion
• Summary

Lesson 4: External Transient Analysis

• Objective
• Case Study: Flow Around a Cylinder
• Problem Description
• Reynolds Number
• External Flow
• Transient Analysis
• Turbulence Intensity
• Two Dimensional Flow
• Computational Domain
• Calculation Control Options
• Time Animation
• Discussion
• Summary

Lesson 5: Conjugate Heat Transfer

• Objectives
• Case Study: Heated Cold Plate
• Project Description
• Conjugate Heat Transfer
• Real Gases
• Summary

Lesson 6: EFD Zooming

• Objectives
• Case Study: Electronics Enclosure
• Project Description
• EFD Zooming
• Summary

Lesson 7: Porous Media

• Objectives
• Case Study: Catalytic Converter
• Problem Statement
• Porous Media
• Design Modification
• Discussion
• Summary

Lesson 8: Rotating Reference Frames

• Objectives
• Rotating Reference Frame
• Part 1: Averaging
• Case Study: Table Fan
• Problem Description
• Noise Prediction
• Part 2: Sliding Mesh
• Case Study: Blower Fan
• Problem Description
• Tangential Faces of Rotors
• Time Step
• Summary

Lesson 9: Parametric Study

• Objectives
• Case Study: Piston Valve
• Problem Description
• Parametric Analysis
• Part 1: Goal Optimization
• Part 2: Design Scenario
• Part 3: Multi parameter Optimization
• Summary

Lesson 10: Free Surface

• Objectives
• Case Study: Dam-Break Flow
• Problem Description
• Free Surface
• Experimental Data
• Summary
• References
• Theoretical Results

Lesson 11: Cavitation

• Objectives
• Case Study: Cone Valve
• Problem Description Cavitation
• Discussion
• Summary

Lesson 12: Relative Humidity

• Objectives
• Relative Humidity
• Case Study: Cook House
• Problem Description
• Summary

Lesson 13: Particle Trajectory

• Objective
• Case Study: Hurricane Generator
• Problem Description
• Particle Trajectories – Overview
• Summary

Lesson 14: Supersonic Flow

• Objectives
• Supersonic Flow
• Case Study: Conical Body
• Problem Statement
• Discussion
• Summary