2006 Bugatti Veyron


At the moment, the Bugatti Veyron appears to have it all:

* A W-16 engine that can produce 1,001 horsepower
* A top speed of 250+ mph (400+ kph)
* A zero-to-60 time of three seconds
* A zero-to-180 time of 14 seconds
* A price tag somewhere in the $1.2 million range.

In this article, we will take an in-depth look at this amazing automobile and see how it is possible to fit so much performance into a single machine. It all starts with the engine…

The Bugatti Veyron is a car built around an engine. Essentially, Bugatti made the decision to blow the doors off the supercar world by creating a 1,000-horsepower engine. Everything else follows from that resolution.


So let’s start with the engine. How would you begin the design process for an engine this powerful? If you have read How Car Engines Work, you know that if you want to create a 1,000-horsepower engine, it has to be able to burn enough gasoline to generate 1,000 horsepower. That works out to about 1.33 gallons (5 liters) of gasoline per minute.
We need a 16-liter engine to burn 1.33 gallons of gas per minute. That actually makes sense — the engine in the Dodge Viper is 8.0 liters in displacement and produces 500 hp.

But there’s a problem: A 16-liter V-8 engine would be very large. And the pistons would be massive, so there would be no way it could turn at 6,000 rotations per minute (rpm). It might turn at a maximum of 2,000 rpm, meaning that you would need an immense 48-liter engine to generate 1,000 hp. Clearly an engine that big is impossible in a passenger car.
Bugatti did two things to create a compact engine capable of producing 1,000 hp. The first and most obvious thing is turbocharging.


If you have read How Turbochargers Work, you know that one easy way to make an engine more powerful without making the engine bigger is to stuff more air into the cylinders on each intake stroke. Turbochargers do that. A turbo pressurizes the air coming into the cylinder so the cylinder can hold more air.

If you stuff twice as much air in each cylinder, you can burn twice as much gasoline. In reality, it’s not quite a perfect ratio like that, but you get the idea. The Bugatti uses a maximum turbo boost of 18 PSI to double the output power of its engine.

Therefore, turbocharging allows Bugatti to cut the size of the engine from 16 liters back down to a more manageable 8 liters.


To generate that much air pressure, the Bugatti requires four separate turbochargers arranged around the engine.

The second thing Bugatti engineers did, both to keep the RPM redline high and to lower lag time when you press the accelerator, was to double the number of cylinders. The Bugatti has a very rare 16-cylinder engine.

There are two easy ways to create a 16-cylinder engine.

* One way would be to put two V-8 engines in-line with each other. You connect the output shaft of the two V-8s together.
* Another would be to put two in-line 8-cylinder engines beside one another.

The latter technique is, in fact, the way Bugatti created its first 16-cylinder cars in the early 20th century.

For the Veyron, Bugatti chose a much more challenging path. Essentially, Bugatti merged two V-8 engines onto one another, and then let both of them share the same crankshaft. This configuration creates the W-16 engine found in the Veyron.
The special features of the Bugatti W-16 engine are amazing. For example:

* The engine has four valves per cylinder, for a total of 64 valves.
* It has a dry sump lubrication system borrowed from Formula 1 race cars, along with an intricate internal oil path to ensure proper lubrication and cooling within the 16 cylinders.
* It has electronically controlled, continuously variable cam timing to create optimal performance at different engine rpm settings.
* It has a massive radiator to deal with all of the waste heat that burning 1.33 gallons of gasoline per minute can generate.

Everything about the engine is superlative.

And it is remarkably compact. It measures just 710 mm (27 inches) long, 889 mm (35 inches) wide and 730 mm (28.7 inches) high. This is the beauty of Bugatti’s W-16 approach — the engineers managed to fit 1,000 hp into a reasonably sized package.


The Transmission
The transmission is unique, in particular because it has to harness about twice as much torque as any previous sports-car transmission. It has:

* Seven gears
* A dual clutch system
* Sequential shifting
* A paddle-driven, computer-controlled shifting system

This computer-controlled system is identical to the sort of system found in a Formula 1 car or a Champ car. There is no clutch pedal or shift lever for the driver to operate — the computer controls the clutch disks as well as the actual shifting. The computer is able to shift gears in 0.2 seconds.

It would be almost impossible for all of the torque available from the W-16 engine to flow out to just two wheels without constant wheel-spin. Therefore, the Veyron has full-time all-wheel drive. By applying the engine’s power to all four wheels through a computer-controlled traction-control system, the car is able to harness all of the engine’s horsepower, even at full acceleration.
According to one of the Veyron’s designers, the biggest challenge in creating the Veyron was the aerodynamics. How do you keep a 250-mph passenger car on the road?


An F-1 car or a Champ car can travel at 250 mph or more, but they have a uniquely designed body, a single driver lying in a reclining position, just an inch or so of ground clearance and an aero-package made up of large wings to generate massive downforce. The Bugatti, on the other hand, is trying to look like a normal car and seat two passengers.

The Veyron’s dimensions help to some extent. The car is 79 inches (200 cm) wide, 176 inches (447 cm) long and only 48 inches (122 cm) high. Keep in mind that a Hummer 2 is 81.2 inches wide. The Bugatti is extremely wide for its height.


The underside of the Veyron, like an F-1 car, is streamlined and venturi-shaped to increase downforce. There is also a wing in the back of the Veyron (see below) that extends automatically at high speed to increase downforce and keep the car glued to the road. According to Popular Science: Hypercar, “With the moving tail spoiler we’ve got enough downforce now, about 100 kg (221 pounds) at the rear and 80 kg (177 pounds) at the front at top speed.”


If you look at the above photo, you’ll notice two snorkel-like devices, one on either side of the engine, on the roof of the car. The Veyron uses these to manage airflow. The Veyron has three reasons for managing airflow:

* At maximum power, the engine is consuming 45,000 liters of air per minute.
* At maximum power, the engine is burning 1.33 gallons of gasoline per minute and needs to dissipate all of that heat through its radiators.
* When stopping, the brakes need to dissipate heat ?- especially important when rapidly accelerating and braking on twisty road courses.


You can see how the Veyron handles these requirements in the photo below. The engine of the Veryon sits behind the driver, so roof-mounted snorkels, the rear-deck vents and side-mounted scoops bring air to the engine and rear brakes.

The size of the engine and transmission, along with the four-wheel-drive system and the four drive shafts, along with the opulence of the passenger compartment (discussed in the next section) and the car’s oversized dimensions, all add weight. Even though the body is sculpted in carbon fiber to minimize its mass, the car weighs in at about 4,300 pounds (1,950 kg). For comparison, a Dodge Viper weighs about 1,000 pounds (454 kg) less.


Even the tires for the Veyron are unique. They’re specially designed by Michelin to handle the stress of driving at 250 mph. The tires need to be sticky like a race car’s and able to handle 1.3 G’s on the skidpad. However, they also need to last longer than the 70 or so miles of a typical race tire.

Michelin therefore created completely new tires to handle the Veyron’s unique requirements. In the rear, the tires are 14.4 inches (36.6 cm) wide. Specifically, the tires measure 245/690 R 520 A front and 365/710 R 540 A rear, where 245 and 365 are the width in millimeters (9.5 and 14.4 inches respectively). The rims are 520 mm and 540 mm in diameter (approximately 20 inches). These tires, in other words, are massive — the rears are the widest ever produced for a passenger car.


The tires use the Michelin PAX system. Their pressure is monitored automatically, and they can run flat for approximately 125 miles (201 km) at 50 mph (80 kph). According to Michelin, the run-flat detection system “plays an integral role in active safety in PAX System. Its role is to inform you of a loss of pressure, either gradual or sudden.” Once warned of an air leak by the PAX system, you can reduce your speed and head toward a tire repair center.

One advantage of the PAX system and its run-flat ability is that it eliminates the need for a spare tire.

The Veyron seats two in lavish style. The interior is swathed almost completely in leather — the dash, seats, floor and sides are all leather. Only the instruments and a few metal trim pieces interrupt the leather experience.


The car also surrounds its occupants with every sort of electronic nicety, including a remarkable stereo system, navigation system, etc.

Is all of this worth a million bucks? Who knows. But regardless, the Veyron represents a remarkable technological achievement.

The Veyron is also likely to represent the far end of the automotive performance spectrum for some time to come. To create a car much faster will require adding even more weight, and delivering even more power to the wheels. The added weight means diminishing returns in the power-to-weight domain. Additional power means more wheelspin.

Look at a Champ car and consider how radical its appearance is compared to a passenger car. Consider also that a Champ car does not go much faster than the Veyron. The Veyron probably approaches the outer limits of the passenger car envelope, and we are unlikely to see much beyond the Veyron in terms of performance.

Scribbled on January 31st 2009 in Bugatti, Bugatti Veyron
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