Mastering CFD Analysis and Optimization using SolidWorks V.2
Complete CFD Training Course to Analyze and Optimize Complex Industrial Problems with SolidWorks 2020
Description
Are you ready to take your Computational Fluid Dynamics (CFD) skills to the next level? Look no further! Our comprehensive course, "Mastering CFD Analysis and Optimization using SolidWorks, is designed to empower engineers, researchers, and students with the knowledge and techniques necessary to excel in CFD modeling.
Whether you're an intermediate learner looking to enhance your expertise or an advanced student seeking to stay ahead of the curve, this course has got you covered. We understand the importance of providing quality content that caters to your needs, so you can confidently tackle complex industrial problems using CFD.
Throughout the course, we will guide you through a step-by-step journey, starting with the fundamentals and gradually progressing to more advanced topics. With a focus on practical applications, you'll gain hands-on experience in modeling, simulating, and optimizing various industrial scenarios using SolidWorks V.2.0 software.
Our course begins by introducing you to the world of CFD and its diverse applications in industries. You'll learn how to leverage the power of SolidWorks V.2.0 to create accurate 3D models and simulate fluid flow, heat transfer, and multiphase phenomena. We'll dive into topics such as turbulence modeling, numerical methods, and simulation techniques, equipping you with a strong foundation in CFD principles.
To ensure your learning is both engaging and effective, we've crafted 26 in-depth videos totaling approximately 11 hours of content. Each video is thoughtfully designed to cover specific CFD analysis and optimization techniques using SolidWorks. You'll witness how industry-specific problems are broken down into simpler examples, making complex concepts more accessible.
Throughout the course, you'll work on practical exercises and projects that mirror real-world scenarios. From analyzing the flow over an airfoil to studying heat transfer in a heat exchanger, you'll tackle a range of challenges that professionals encounter daily. By actively engaging in these hands-on activities, you'll develop the skills and confidence to tackle complex industrial problems head-on.
Moreover, we understand that practice is key to mastery. That's why we've provided essential CAD models as resources, allowing you to practice and experiment at your own pace. These models serve as valuable assets to reinforce your understanding and enhance your problem-solving capabilities.
Here's an overview of the course units and their respective topics:
Unit 1: HVAC System Analysis
CFD Analysis of an HVAC Condenser using SolidWorks 2021
CFD Analysis of HVAC Evaporator using SolidWorks 2021
CFD Flow Simulation through an HVAC Drier using SolidWorks 2021
CFD Flow Simulation through an HVAC Expander using SolidWorks 2021
Unit 2: Heat Pipe Applications
CFD Analysis of an Evacuated Tube Solar Collector
CFD Analysis of Laptops with Heat Pipes using SolidWorks 2021
CFD Conjugate Heat Transfer Analysis with Heat Pipes using SolidWorks 2021
CFD Parametric Study and Optimization of Exhaust Gas with Heat Pipe, -SolidWorks 2021
Unit 3: Heat Exchanger Analysis
CFD Analysis of a Cross Flow Heat Exchanger using SolidWorks 2021
CFD Analysis of a Plate Heat Exchanger with SolidWorks 2021
CFD Analysis of a Shell Tube Heat Exchanger using SolidWorks 2021
CFD Analysis of a Surface Condenser using SolidWorks 2021
CFD Analysis of a Counter Flow Heat Exchanger using SolidWorks 2021
Unit 4: Fluid Mixing Analysis
CFD Flow Simulation and Particle Study of a Cyclone Separator with SolidWorks 2021
CFD Flow Simulation through a Duct of Varying cross-section using SolidWorks 2021
CFD Forced Convective Heat Transfer with Perforated Plates using SolidWorks 2021
CFD Parametric Study and Optimization of Multiple Fluid Mixing Using SolidWorks
CFD Transient Analysis of Fluid Mixing using SolidWorks 2021
Fluid Mixing using SolidWorks Flow Simulation
Heterogeneous Fluid Mixing with CFD-Free Surface Technique using SolidWorks 2021
Unit 5: Exhaust Gas Analyzer Analysis
CFD Analysis and Optimization of a Catalytic Converter with SolidWorks 2021
CFD Analysis of the Exhaust Gas System of a Petrol Engine using SolidWorks 2021
CFD Parametric Study and Optimization through a multiple-port Exhaust Manifold
Unit 6: Convection and Radiation Analysis
CFD Analysis and Optimization of an Electrical Kettle, SolidWorks 2021
CFD Flow Simulation through an Electrical Bulb using SolidWorks 2021
Convection using SolidWorks Free Surface Technique
Throughout this course, you'll not only gain proficiency in CFD analysis and optimization but also develop a deep understanding of the underlying principles and methodologies. You'll learn how to leverage the capabilities of SolidWorks V.2.0 to tackle real-world challenges effectively.
We believe in your success, which is why our course emphasizes practical learning. By providing you with numerous examples, exercises, and projects, we ensure that you grasp the concepts and techniques required to excel in the field of CFD. Whether you're aiming to enhance your career prospects or broaden your knowledge, this course is designed to empower you.
Join us on this exciting journey towards mastering CFD Analysis and Optimization using SolidWorks. Unlock new possibilities, expand your skillset, and become a sought-after professional in the field of computational fluid dynamics. Enroll now and take a step towards a brighter future!
What You Will Learn!
- Gain a solid understanding of Computational Fluid Dynamics (CFD) principles and theories.
- Become proficient in using SolidWorks software for CFD analysis and optimization.
- Master various modeling techniques and simulation methods in CFD.
- Acquire the skills to analyze and optimize complex industrial problems, including HVAC systems, heat exchangers, fluid mixing, and more.
- Develop the ability to interpret and analyze CFD simulation results, such as flow behavior, heat transfer, and turbulence.
- Enhance your problem-solving skills through systematic analysis and informed design decisions using CFD techniques.
- Utilize CAD models provided in the course for practice and experimentation.
- Communicate CFD analysis results effectively through visualizations, reports, and presentations.
Who Should Attend!
- Engineering students and CAD/CAM/CAE Professionals