Improving F1 Aerodynamics using AirShaper CFD simulations

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Air Shaper

AirShaper is an online pay-per-simulation tool to analyze & improve the aerodynamics of (race) cars, airplanes, athletes and more. Users can simply upload their 3D model, set up the simulation and obtain results within hours to reduce drag, increase downforce, boost cooler performance and more.

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Improving F1 Aerodynamics using AirShaper CFD simulations - The Voyager-AirShaper F1 challenge

09 January 2023

Links

General: https://www.airshaper.com /// https://www.voyager.be/

F1 Challenge: https://airshaper.com/f1-aerodynamics-challenge

Reddit: https://www.reddit.com/r/airshaper/

Contact: [email protected]

UPDATE:

we found a mistake in the simulation - the increase in downforce was 44% and not 64% - check the next video (on aero update 2) to learn more!

Simulations:

Original car: https://app.airshaper.com/projects/voyager-airshaper-adcc85

Aero Package 1: https://app.airshaper.com/projects/voyager-airshaper-20adc9

In this video, we present the first set of aero updates to the Voyager-AirShaper F1 car.

The redesign has been based on:

Input from the talented people who contributed to the AirShaper Reddit channel
Input from AirShaper (supported by aerodynamic shape optimization)

We've focused on a number of areas:

FRONT WING

We implemented the design of Busor to have a more updated design
The spacing between the wing elements was increased to avoid mesh bridging
The sideplates were pushed inward at the front to reduce flow separation

The downforce on the front wing improved dramatically, with low pressure zones on the suction side being much more pronounced, now extending to the second and partially the third wing element.

STRAKES

The thickness of the straks was reduced to avoind local flow separation
The "inlet angle" of the strakes was increased, to point more inward.
The "outlet angle" of the straks was increased as well, to be outward instead of parallel to the driving direction of the car.

The result is less flow separation at the inleg and stronger vortices further downstream, resulting in a lower pressure and thus more pronounced suction effect across the majority of the underfloor.

BIB

The bib (sort of a scoop around the central part of the underfloor) was added, grabbing some extra downforce (as the pressure on top of it pushes it downward - even though some of this is cancelled out as this higher pressure also acts on the surface above the BIB).

OTHER

Other small changes include updated barge boards and a different nose angle.