My Classic Car (HD) • 9:00am
  • Media
  • Photos
  • Videos
  • Check out the latest SPEED podcasts on iTunes
  • Mobile
This could be your avatar!
Username
Password
Register
marshall_pruett's avatar
Author:
Marshall Pruett
Login For More
Rate this article:
  • 0/5 Stars
SPEEDtv.com Store
Greenlight Andretti Green Danica Patrick 1st Win 2008
This is a replica of the racecar used during the 2008 Japan race in which she won her first race ever!
Our Price: 1/18th Scale - $45.95 ($41.36 Member)
Visit Button
Buy Button
Ducati Red Team Logo Hat
100% cotton. Embroidered. Adjustable strap.
Our Price: $36.00 ($32.40 Member)
Visit Button
Buy Button
Formula 1 2009 Calendar
Every month is accompanied by a superb action shot from the 2008 season, with essential information about the sport.
Our Price: $16.95 ($15.26 Member)
Visit Button
Buy Button
Footer Bg
  • Zoom More Photos Button
  • Camera Icon
F1: Inside Toyota’s Formula 1 Aerodynamics
Written by: Marshall Pruett   
08/19/2007 - 07:00 PM
Cologne, Germany
 
Toyota will spend as many as 9,000 hours a year on physical and CFD aerodynamic testing. That's 24 hours a day, every day. (Photo: SPEED) » More Photos


The Panasonic Toyota Formula One team is back with their latest educational video, a look inside the world of F1 aerodynamics. With aero being the greatest differentiator of performance between F1 cars, Toyota has invested a fortune to build the necessary wind tunnel facilities and to raise themselves to match their rival teams.

While they still have a ways to go to find parity in expertise or results, their resources and determination to succeed are a match, if not superior to the storied teams waging battle for the 2007 drivers and constructors championship. Below, from Toyota, is a brief bit of insight into what's offered in THIS VIDEO.

~Marshall

Aerodynamics in Formula 1 is often described as a black art, the real secret to success on the track. In the second part of Panasonic Toyota Racing's 'Inside a Formula 1 Car' series, Head of Aerodynamics Mark Gillan explains that the answer is blowing in the wind.
Like most top team, Toyota builds1/2 scale wind tunnel models. (Photo: SPEED) » More Photos

First and foremost, aerodynamics is the science of manipulating and making use of air flow. In Formula 1, high speeds mean the air is a formidable force and it can be used to the car's advantage, as well as presenting an obstacle to speed.

Put simply, the bigger the frontal area of an object, the more wind resistance it will encounter, so a bigger object will travel slower than a smaller object with the same amount of power to propel it.

As always in Formula 1, things are not that simple. Downforce complicates matters, because wind resistance can be used to improve a car's performance, if the forces are transferred in the right way to provide extra grip around corners.

Mark explains: "Downforce is simply the force acting down on the ground. If you think of an aircraft, it has lift - a force acting upwards. On our car we have wings which work in the opposite direction to those on an aeroplane. On our car we have a force which acts down on the ground to keep the car fixed to the track as it is going around corners."

Maximising the positive effects of the air and minimising the negative effects is the aerodynamicist's challenge. The first attempts to harness aerodynamics in Formula 1 were relatively crude and dangerous, but the technology and knowledge has evolved into a fine art, which literally dictates who succeeds and who doesn't in Formula 1.

"Aerodynamics in Formula 1 has been around a long time," Mark says. "Way back in the late 1960s the first aerodynamic wings were sprouted and then, in the 1970s, understanding of aerodynamics on racing cars became more apparent. But it's really in the last 10 years that Formula 1 aerodynamics has progressed beyond all recognition. It is really very impressive.

"Aerodynamics is now the most important item on the car which a team can actually change, because if you look at the tyres, everyone has the same
tyres and the engine is homologated. So aerodynamics is the single biggest item we can change - the biggest performance item on the car."

Although every part on the outside of Panasonic Toyota Racing's TF107 car is designed with aerodynamics in mind, the most obvious aerodynamic elements are at the very front and rear of the car.

As the first part of the car to encounter air resistance, the front wing is a key to the aerodynamic puzzle. It channels the air around and over the car, ensuring it reaches the right areas to generate downforce but avoids places where it has a negative effect.
Maximizing rear wing efficiency is key to reducing drag and an open wake for trailing cars to utilize. (Photo: SPEED) » More Photos

Mark explains: "The front wing is one of the more efficient areas on the car. It basically provides the downforce at the front of the car, to provide stability and increase grip. But it is also a mechanism for directing the air away from the tyres. The tyres are one of the main items which generate drag. From a legality point of view, we cannot cover the tyres so we have to find a way to move the air around and over them.

"To get the perfect set-up, we typically start at the front and work our way back because each item at the front, for example the front suspension, will have a knock on effect on the rest of the car."

But that does not diminish the importance of aerodynamics at the other end of the TF107, as Mark adds: "The rear wing, like the front, generates downforce. It is the balance between downforce at the front and the downforce at the rear which provides stability."

Because Formula 1 cars are incredibly sensitive to small changes in set-up, the TF107s are built to allow fine-tuning to maximise the useful effect of the wings. "If you look at the rear wing, you can see various hole positions," Mark says. "What we can do is change the angle of the wing elements which generates less or more downforce as required."

Of course, with aerodynamics being such a pivotal factor in determining performance on the track, Panasonic Toyota Racing leaves no stone unturned as it searches for the small improvements which combine to deliver success.

At its headquarters in Cologne, Germany, the team uses the latest technology to put designs to the test before they even make it on to a race track with a two-pronged approach. Powerful computers are able to simulate the effect of air flow over the car without it even needing to be built, while in the wind tunnel, an exact scale model of the TF107 is subjected to a wind flow which replicates driving at speed.

"Basically we spend roughly 8,000-9,000hours a year just to develop the car in the wind tunnel," says Mark. "That is in addition to a similar amount of time in CFD, computational fluid dynamics, which is a computer programme which models the air flow over the car."

The comprehensive data from these tests shows the team how the car behaves at racing speed, giving Mark and his colleagues the information they need to constantly improve the aerodynamics.