AeroPulse — F1 Wake Simulation Meets CFD Precision

🏎️ AeroPulse — F1 Wake Simulation Meets CFD Precision

What happens when a Formula 1 car punches through air at 200mph?

A turbulent wake trail, drag zones, and aerodynamic secrets—all unlocked through CFD.

🧠 About AeroPulse

This project uses real-world 3D models and ANSYS Fluent to simulate the airflow over an F1 car chassis. It reveals vortex formations, downforce zones, and pressure differentials at race speeds—visualized in full-color CFD plots and animation.

💡 Key Highlights

• 🛞 Simulation Tool: ANSYS Fluent
• 🚗 Model: Simplified F1 car (rear wing + diffuser emphasized)
• 🌬️ Goal: Understand drag, wake behavior, and downforce
• 📊 Output: Velocity contours, streamlines, and pressure maps
• 📽️ Bonus: Animation of wake turbulence behind car

🏁 Why This Matters

In motorsport, every millisecond counts. Understanding how air flows around a car helps engineers reduce drag and boost speed without sacrificing stability. Whether you’re designing F1 parts or just learning CFD, AeroPulse shows how simulation meets speed.

🔓 Want the Full Setup, Mesh, and Simulation Files?

Sign up to get:

• ✔️ F1 model file (STL or STEP)
• ✔️ ANSYS mesh and boundary setup
• ✔️ Simulation steps (solver settings, refinement)
• ✔️ Bonus: Turbulence model comparison (k-ε vs. SST)

👉 [Sign up here] (embed link)