Zoom Moving from one era to the next

Despite the racing season having come to a close, Formula One teams are still running flat out in order to prepare for next year.

In fact, to cite one example, work on the Williams team's 2009 challenger started as early as April this year when the FW30 was only just entering the European rounds of the Championship. With so many new rules coming online for next year, the pressure in the Design Office and Aero department is greater than ever.

Ed Wood, the Chief Designer at Williams, took time out to explain the transition process between seasons and give some insight into what happens behind the scenes during the winter months.

When does the design process on one car end and another start?

"It's dependent on whether there are significant regulation changes from one season to the next and, to a lesser extent, your position in the championship. In the latter half of the season, the teams are always reviewing how much resource to put into developing the existing car as opposed to moving ahead with the new design.

In the last couple of years, in which regulation change was minimal, we tended to start work in earnest on the following year's car in either April or May and we brought our last developments to the existing car late August/early September for the flyaways at the end of the year. "

What are the main areas of change for next season's cars?

"There are three significant changes, which include heavily revised aerodynamic regulations to bring about a reduction in downforce and make the wake of the leading car less detrimental to the performance of the chasing car. This is intended to bring about closer racing and encourage more overtaking. The most significant visual changes will be a lower and wider front wing, a reduction in many of the small aerodynamic devices at the front of the car and covering the rear bodywork, a smaller rear wing and a lower and shorter diffuser profile.

Secondly, there will be a return to slick tyres next year which will recover some of the performance lost from the reduction in aerodynamic loads. Finally, the introduction of Kinetic Energy Recovery Systems (KERS) will allow a modest amount of braking energy to be recovered and used to give an 80hp power boost, controlled by the driver by means of a push button on the steering wheel."

What impact are the new regulations having on the design process?