n the highly competitive world of the F1 in Schools challenge, designing an aerodynamically efficient car is a crucial factor when it comes down to winning races. Since every car uses the same specification canister as a power unit, all cars must have the same power deployed off the starting line. Teams must work to design a car that minimizes the force of drag, thereby allowing the car to have a higher top speed down the track. It is important for students to understand the force of drag and what features can be manipulated to achieve greater car performance.
In this course, students will learn the basics of Computational Fluid Dynamics (CFD) analysis through running CFD simulations, optimization studies, and model comparisons. These simulations can be used to explore initial design concepts, analyse current models, and understand aerodynamic characteristics unique to their model. The course starts with explaining the importance of drag and lift in aerodynamic performance of a vehicle by using the rear wing of an F1 car as an example and shifts focus towards the CFD analysis of an F1 in Schools car. This course will give students the knowledge required to run CFD studies that will help guide aerodynamic design choices as they design and build their model cars for the competition.
Ansys Student can be downloaded for free here.
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Cost: FREE
- Course Duration: 1-2 HOURS
- Skill Level: Intermediate
- Skills Gained: Aerodynamic design, CFD Simulation, Ansys Discovery
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