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Home > Solidworks Flow Simulation

SOLIDWORKS Flow Simulation

Overview

SOLIDWORKS Essentials teaches you how to use the SOLIDWORKS mechanical design automation software to build parametric models of parts and assemblies, and how to make drawings of those parts and assemblies.

 

Admission Requirements:

It is recommended that delegates have a working knowledge of one or more of the following:

  • Attended a Introduction to Technical Drawing OR have experience with draughting, design, or engineering principles.
  • Comper Literacy Skills
  • Understanding and Reading of Technical Drawings

Price

In-Class

  • R7,600.00 Excl Vat (Includes Training Certified Manual, Dataset CD)

 

Assisted Distance Learning

  • R6,080.00 Incl Vat (Includes study kit)

 

We provide flexible and affordable payment options to ensure the course is always within your reach.

 

 

 

Duration

Full Time

  • 2 Days (08:30 - 16:00) 

Correspondence

  • 2 Days (08:30 - 16:00) 

Skill Level

  • Beginners

Our Learning Methods

At The Draughting Academy we understand that that each person prefers different learning styles and techniques influenced by circumstances, location, field of study and learning preference. We have therefore developed learning methods to suit all learners to ensure everyone has all the opportunity to achieve learning success. We deliver our qualifications via three modern and flexible methods.

Full Time

Reach your full potential through our instructor led classes combined with interactive lessons, practical assignments and in field experience. Our full time offering consist of a full working day, 8 hours per day divided into multiple periods.

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Part Time

Part Time class times are from 18:00 – 21:00 during weekdays, twice a week. This is done via our myWay learning method.

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Correspondence

Correspondence studies is based on self-study combined with Video Tutorials, student support and a dedicated tutor. Everything is managed online via the student portal.

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SOLIDWORKS FLOW SIMULATION

Watch this video for an introduction.

 

Important Notes

  • Students are to be at the training venue by 08h00 in preparation for a 08h30 start time.
  • Innova3D retains the right to change this calendar without any notification.
  • Bookings are only confirmed upon receipt of the proof of payment or an official company purchase order for the full amount of the training.
  • For full day courses Innova3D will supply you with the relevant training material. A desktop computer to use for the training (where applicable), tea/coffee and a full lunch for full day InClass training hosted at Innova3D only. Catering is not included for OnSite training and laptop is available for hire at an additional cost if required.
  • Cancellation or rescheduling requests must be in writing and reach us via fax or email at least 5 (five) working days prior to the course commencement date. Full course fees may be retained for no shows or requests within 5 working days prior to commencement.
  • Although we go to great lengths to ensure that all training proceeds as scheduled, Innova3D reserves the right to cancel or postpone dates if we require to do so and undertake to inform clients in writing and telephonically of these changes.
  • Innova3D suggests clients wait until a week prior to course commencement that a course has been confirmed to go ahead as scheduled before booking flight and accommodation. Innova3D is NOT responsible for cost associated with cancellation of classes such as flight and accommodation for clients.

Creating a SOLIDWORKS Flow Simulation Project

  • Objectives
  • Problem Description
  • Model Preparation
  • Post-processing

Meshing

  • Objectives
  • Computational Mesh
  • Basic Mesh
  • Initial Mesh
  • Geometry Resolution
  • Result Resolution/Level of Initial Mesh
  • Control Planes

Thermal Analysis

  • Objectives
  • Fans
  • Preforated Plates

External Transient Analysis

  • Objectives
  • Reynolds Number
  • External Flow
  • Transient Analysis
  • Turbulence Intensity
  • Solution Adaptive Mesh Refinement
  • Two Dimensional Flow
  • Computational Domain
  • Calculation Control Options
  • Time Animation

Conjugate Heat Transfer

  • Objectives
  • Project Description
  • Conjugate Heat Transfer
  • Real Gases

EFD Zooming

  • Objectives
  • Project Description
  • EFD Zooming

Porous Media

  • Objectives
  • Problem Description
  • Porous Media
  • Design Modification

Rotating Reference Frames

  • Objectives
  • Rotating Reference Frame
  • Part 1: Averaging
  • Problem Description
  • Part 2: Sliding Mesh
  • Problem Descirption
  • Tangential Faces of Rotors
  • Time Step

Parametric Study

  • Objectives
  • Case Study: Piston Valve
  • Problem Description
  • Parametric Analysis
  • Steady State Analysis
  • Part 1: Goal Optimization
  • Part 2: Design Scenario

Cavitation

  • Objectives
  • Problem Desciption
  • Cavitation

Relative Humidity

  • Objectives
  • Relative Humidity
  • Problem Description

Particle Trajectory

  • Objectives
  • Problem Description
  • Particle Trajectories - Overview

Supersonic Flow

  • Objectives
  • Supersonic Flow
  • Problem Description

FEA Load Transfer

  • Onjectives
  • Problem Description
    No dates have been specified for this course.
    Please contact The CAD Corporation for more information and dates on this course.
Delivery Method:
  • Math Result: