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Autosport
Autosport
Sport
Matt Somerfield

How F1’s new rules era has impacted front wing philosophy

The FIA insisted on a more stringent layout, in order to prevent any elaborate concepts that might erode the foundations for good racing upon which the regulations had been framed.

Steps had already been taken in recent years to rid the front wing of outwash generating devices, such as cascade elements, while the number of flap elements, which had once reached nine in total, is now limited to four.

Care was also taken to reduce the influence posed by the flap and endplate juncture. This was in order to limit vortices that might be spooled up, with an upwardly curved transition required, complete with the flap slots reaching up into that region.

A diveplane is still permitted on the outer surface, but its dimensions and geometry are heavily constrained.

Since the wing flaps are now attached directly to the nose, the Y250 vortex, a well-known and potent aerodynamic structure produced by the formerly exposed tips of the front wing elements, was eradicated too.

This, along with the aforementioned restrictions, has lessened the front wing’s role as a flow conditioning device, and revived its primary role as a means to balance the car front-to-rear.

That’s not to say that teams have given up on using the front wing to help reduce the wake generated by the front wheel assembly and/or facilitate gains downstream to other aerodynamic surfaces. A look back at their initial designs and in-season development certainly skewed in that direction, giving us a hint about how things could develop in 2023.

Red Bull RB18 front wing endplate comparison (Photo by: Giorgio Piola)

Red Bull began its campaign with a more simplistic diveplane arrangement before making the switch to an ‘S’-shaped variant at the Australian Grand Prix.


Red Bull Racing RB18 front wing comparison

Flap distribution, depending on the level of rear downforce being used, was also factored into Red Bull’s set=up.


Ferrari F1-75 front wing (Photo by: Giorgio Piola)

As can be seen here in Ferrari’s front wing arrangement, teams had to find the sweet spot when it came to the span of the adjustable section of the upper flaps, with the distribution between them and the static outer sections also having a bearing on the flow conditioning potential of the wing too.


Mercedes W13 endplate comparison (Photo by: Giorgio Piola)

Mercedes introduced a novel solution at the Miami Grand Prix, whereby the flap and endplate connections were mounted much further forward than you’d see elsewhere on the grid.


Mercedes W13 endplate inside, Miami GP (Photo by: Giorgio Piola)

In order to facilitate its design, the flaps were angled back steeply in order to leave the lower, rearmost section of the endplate exposed to the airflow.

This appeared to offer more outwash potential than some of the other solutions seen on the grid and thus the FIA banned the design going into 2023 and beyond.


Mercedes W13 front wing comparison (Photo by: Giorgio Piola)

As part of the team's extensive aerodynamic overhaul at the British Grand Prix, the designers also changed the height at which the diveplane was set.


Mercedes front wing detail, Mexican GP (Photo by: Giorgio Piola)

Mercedes looked to introduce a new slot gap support bracket arrangement at the Mexican Grand Prix but, with other teams and the FIA concerned about the aerodynamic implications it posed when it was first seen at the US Grand Prix, it was quickly outlawed.


Alpine A522 front wing detail (Photo by: Giorgio Piola)

Alpine’s front wing perhaps had the smallest footprint on the grid, with the Anglo-French outfit opting for less real estate from front-to-back on its assembly, but with a more consistent chord length across the span of each section.

It also tuned its wing level by trimming the size of the Gurney flap on the trailing edge of the flap, seen in this image with a full-length example.


Alpine A522 front wing endplate (Photo by: Giorgio Piola)

The team made changes to its front wing endplate at the Spanish Grand Prix, as the leading edge was treated to the wave-like finish already seen over at Haas (yellow highlight), whilst the shape of the lower section of the endplate was also curved more (red arrow).


Alfa Romeo C42 front wing comparison

Alfa Romeo made extensive changes to its front wing at the Japanese Grand Prix as the team altered the distribution of the adjustable and non-adjustable section of the flaps.

The new design (left) had a much narrower inboard section, allowing for more of the flap to be adjustable and thus helping to provide more balance when making set-up changes. The design of the endplate was also overhauled (insets), with the rearward cutout (blue arrow) discarded, as the ratio between each flap also changed (yellow highlight).


The nose and front wing of an Aston Martin AMR22 in the pit lane (Photo by: Lionel Ng / Motorsport Images)

Aston Martin had one of the most transformative development cycles in 2022, as it switched aerodynamic concepts during the early part of the season. However, the front wing was relatively untouched throughout, with the team more or less resorting to different upper flap geometries as a means to trim the car front-to-rear.


Haas VF-22 front wing detail (Photo by: Giorgio Piola)

Haas had some interesting ideas when it came to the design of its front wing endplate, as it adopted not only a wave-like finish to the leading edge but also added a wishbone-style diveplane.


Haas VF-22 front wing detail (Photo by: Giorgio Piola)

While the wave-like finish to the leading edge of the endplate was retained on the VF-22 and found its way into the Alpine design DNA, the wishbone-style diveplane was abandoned for a more simplistic, curved, diveplane at the French Grand Prix.


AlphaTauri AT03 nose detail (Photo by: Giorgio Piola)

AlphaTauri made a significant change to its nose design at the Singapore Grand Prix, which worked hand-in-hand with the design of the inboard elements of the front wing too.

Its original design had the elements expose the underside of the nose to oncoming airflow, a design feature unique to it. However, the new design followed in the footsteps of its fellow competitors and saw the mainplane brought down the nose level.


AlphaTauri AT03 front wing comparison (Photo by: Giorgio Piola)

This shot of the two solutions from the underside shows how it will have a very different effect on the airflow, as the mainplane is lower and forms a tip in the central section.


Williams FW44 front wing comparison (Photo by: Uncredited)

Williams made wholesale changes to the FW44 at the British Grand Prix, along with the front wing. The changes revolved around the adjuster and flap pivot, as they exchanged places to help free up development of the surfaces around them to improve flow management.

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