CFD

Virtual validation CFD

Wissen Baum Engineering Solutions

Join our Virtual Validation CFD Course for comprehensive training in computational fluid dynamics (CFD) and computer-aided engineering (CAE). This specialized course focuses on virtual validation techniques for durability simulation. You'll learn crucial concepts and hands-on applications tailored to various engineering products' durability behaviors. Develop your proficiency from ideation to finalizing designs, with an emphasis on CFD and CAE methodologies. Whether you're a novice or a seasoned professional, our project-based evaluations will prepare you for success in virtual validation and durability analysis.

Join us on this transformative journey to become an expert in virtual validation CFD!

Location

B 113, Bwing, G.O Square,
Wakad, Pune 411057, India

Start Date

1-Aug-2024

Key areas of training

Fundamentals of CFD

Introduction to Computational Fluid Dynamics (CFD)
Governing Equations and Numerical Methods
Mesh Generation and Preprocessing
Introduction to CFD Software
Simulation Setup and Solver Configuration
Postprocessing and Visualization
Advanced Topic in Virtual Validation CFD
Geometry Files, Mesh Files and all type of file

Geometry types, cleanup and quality checks

Introduction to Geometry Types
CAD Geometry Formats
Solid and Surface Geometries
Geometry Simplification
Geometry Cleanup
Defeaturing
Topology Optimization
Quality Checks
Preparing Geometry for Meshing

Mesh Generation and Analysis Workflow

Introduction to Discretization
Mesh Types and Elements
2D vs. 3D Meshes
Mesh Generation Techniques
Mesh Refinement and Adaptation
Mesh Quality Checks
Domain Creation
Boundary Layer Meshing
Grid Independence Study

General
Setup

Introduction to Simulation Types
Choosing the Appropriate Simulation Type
Setting Up Steady-State Simulations
Setting Up Transient Simulations
Initial Conditions
Boundary Conditions
Operating Conditions
Convergence Criteria and Monitoring
Time-Step Selection for Transient Simulations

Energy and Viscous
Models

Introduction to Energy and Viscous Models
k-ε Turbulence Model
k-ω Turbulence Model
Choosing the Appropriate Turbulence Model
Radiation Models
Coupling Energy and Viscous Models
Boundary Conditions for Energy and Viscous Models
Numerical Stability and Convergence
Validation and Calibration

Material setup and Cell zone condition

Introduction to Material Setup
Defining Fluid Properties
Defining Solid Properties
Cell Zone Conditions
Multiple Reference Frame
Porous Zone Setup
Radiation Wall Setup
Handling Complex Material Interactions

Boundary Conditions and Solution Schemes

Introduction to Boundary Conditions
Inlet Boundary Conditions
Outlet Boundary Conditions
Wall Boundary Conditions
Symmetry and Periodic Boundary Conditions
Special Boundary Conditions
SIMPLE Algorithm
Coupled Solver
Selection and Best Practices

Control - Relaxation Factor, Report and Initialization

Introduction to Control Parameters
Relaxation Factors
Setting Up Report Definitions
Residual Monitoring
Field and Surface Monitors
Data Export and Visualization
Initialization Methods
Standard Initialization
Hybrid Initialization
Custom Initialization

Run Calculation, Check Case and Iterations and Results Post-Processing

Preparing for Simulation
Starting the Simulation
Running the Simulation
Case Checking
Convergence Monitoring
Iteration Management
Extracting Simulation Results
Visualization Techniques
Quantitative Analysis
Reporting and Documentation

Career Prospects / Job Roles

The demand for professionals skilled in Virtual Validation CFD (Computational Fluid Dynamics) is on the rise. As industries increasingly rely on these advanced tools to optimize product design and performance, there are numerous career opportunities available across various sectors such as automotive, aerospace, consumer goods, healthcare, and electronics. Mastering Virtual Validation CFD can significantly enhance your career prospects in engineering and product design.

CFD Engineer
Aerospace Engineer
Automotive Engineer
Product Development Engineer
Research Scientist
Thermal Engineer
Consultant
Process Engineer
Environmental Engineer
Simulation Specialist

Why choose to learn Virtual validation CFD course with Eduni

Certification

Course Completion Certificate

Recorded Sessions

Recorded sessions available for review to catch up or revisit material.

Good Trainer

Years of industry experience

Mentorship

Students receive career development guidance from industry-certified mentors

Projects

Continuous project assessments aid students, enhancing job interview opportunities post-course

Doubt Resolution

Dout Clearing Session and Peer Support Groups

Placement Assistance

Eduni's initiative provides placement support to eligible students upon successful course completion.

Career Support

Access extensive career coaching and upgrade yourself.

Crack Interviews

Master interview skills confidently with our course, designed to help you crack interviews effectively.

Did you know?

Key Skills for Virtual validation CFD course professional in India

Virtual Validation CFD specialists must master technical skills in CFD software, fluid dynamics, heat transfer, simulation techniques, and design principles. Equally vital are soft skills like communication, problem-solving, and teamwork. Familiarity with prototyping, industry standards, and project management enhances effectiveness. Mastery of these skills empowers Virtual Validation CFD specialists to make substantial contributions to engineering projects.

Virtual validation CFD Course

Virtual validation CFD

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Key areas of training

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Career Prospects / Job Roles

Why choose to learn Virtual validation CFD course with Eduni

Did you know?

Key Skills for Virtual validation CFD course professional in India