Applied Aerodynamics & CFD for F1 , Motorsport & Automotives

What you'll learn:
Gain insight into the role of CFD in driving innovation and performance optimization in racing car design.
Familiarize with the structure and functions of an Aero and CFD department in a Formula 1 team.
Learn the key considerations in geometric modeling of race cars and its influence on aerodynamic performance
Explore the setup of a virtual wind tunnel environment and its importance in aerodynamic analysis.
Understand the mechanical setup of a racing car and its implications on aerodynamics.
Learn about the preprocessing steps specific to motorsports applications, such as tire modeling and track behavior simulation.
Apply pre-processing techniques to prepare geometry and set up simulations for a detailed case study.
Explore different turbulence modeling techniques and their applications in motorsports CFD simulations.
Understand the significance of surface pressure distribution and other flow field variables in aerodynamic analysis.
Explore advanced concepts such as front tire squirt control and wing loading.
Learn how the 3 Pillar of CFD i.e. Pre-Processing , Solver and Post-Processing are applied in the Motorsports Industry

Requirements:
Basic Proficiency in Computational Fluid Dynamics and Aerodynamics
Understanding for the variables in Motorsports , i.e a Motorsport Fan

Description:
Course Introduction:This course is designed such that , students will explore and apply the fundamental principles of CFD  in motorsports, gaining practical insights into its application in aerodynamic simulation and analysis, vehicle performance optimization, and design validation. Each section of the course is crafted to provide a balance of theoretical knowledge and hands-on experience, ensuring that students are exposed to the hidden realities of CFD application in the world of motorsports. Key Topics Covered:Fundamentals of Computational Fluid Dynamics (CFD): Understand the core principles and equations governing fluid flow simulations, including discretization methods and numerical techniques used in CFD.Application of CFD in Motorsports: Explore how CFD is applied specifically in the context of motorsports engineering, including aerodynamic analysis, vehicle performance optimization, and design validation.Geometry Preparation and Mesh Generation: Learn how to prepare geometry for simulation, generate high-quality meshes, and optimize mesh resolution for accurate and efficient CFD simulations.Aerodynamic Modeling and Analysis: Dive into advanced aerodynamic modeling techniques, such as boundary layer modeling, turbulence modeling, and vortex analysis, to gain insights into flow behavior around racing vehicles.Solver Methods and Boundary Conditions: Understand different solver methods used in CFD simulations, set up appropriate boundary conditions, and validate simulation setups to ensure reliable results.Post-Processing and Data Analysis: Master post-processing techniques to analyze simulation results, including visualization of flow fields, calculation of aerodynamic forces and moments, and interpretation of key performance metrics.Case Studies and Practical Applications: Apply theoretical knowledge to real-world case studies, such as analyzing the aerodynamics of specific vehicle components, optimizing designs for performance improvements, and troubleshooting simulation issues.Professional Skills and Career Development: Develop critical thinking, problem-solving, and communication skills essential for success in motorsports engineering careers, and gain insights into industry best practices and trends.Once you complete the course , at the end you can bookAccess to OpenFOAM Files for your own simulationsAccess to Post Processing of multiple CFD Case StudiesAccess to  2023 F1 CAD model for you to design your own parts. Access to Recommended readings and articles for an Aerodynamics Interview at an F1 Team.Course Completion Certificate from an Aerodynamicist.

Who this course is for:
Motorsports Engineers: Professionals working in the motorsports industry who want to deepen their understanding of Computational Fluid Dynamics (CFD) and enhance their skills in aerodynamic analysis, vehicle performance optimization, and design validation.
Automotive Engineers: Engineers working in the automotive sector who are interested in applying CFD techniques to improve the aerodynamic performance of vehicles, including race cars, high-performance road cars, and electric vehicles.
Students and Researchers: Undergraduate and graduate students studying mechanical engineering, aerospace engineering, or related fields who want to specialize in motorsports engineering or pursue research in CFD applications.
Enthusiasts and Hobbyists: Individuals passionate about motorsports and aerodynamics who want to gain a deeper understanding of the technical aspects behind racing car design and performance optimization.
Professionals in Related Industries: Professionals in industries such as aerospace, defense, and renewable energy who can benefit from learning CFD techniques and applying them to their specific engineering challenges.
Engineering Educators: Educators teaching courses in fluid dynamics, aerodynamics, or motorsports engineering who want to enhance their curriculum with practical insights and hands-on experience in CFD simulation and analysis.

Welcome to My Blog - Check it Every Days
If you have any troubles with downloading, PM me
Please Buy Premium Account from my links to get high download speed and support me
Happy Learning!!