Rear Wing Kit - Porsche 991.1/991.2 GT3RS and GT2RS

https://www.verus-engineering.com/web/image/product.template/1358/image_1920?unique=082725c

6,295.00 6295.0 USD 6,295.00 ​ 

6,295.00 ​ 

Not Available For Sale

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    OVERVIEW

    Dramatically improve rear-end grip at speed with our 300mm chord, swan neck wing. The wing and full aero kit were designed in CFD to greatly improve the vehicle's performance on and off the track.

    The wing is a large driving force behind the improvement in downforce, coupled with the front splitter it transforms the GT3RS into a track weapon.

    The rear wing was designed, iterated, and tested in CFD and a wind tunnel. All component mounting was designed off OEM scans and requires no permanent modification to the rear hatch of the vehicle.

    The uprights are CNC machined from 6061-T6 aluminum and were FEA analyzed to ensure strength was kept high while weight was minimized.

    WHAT IS INCLUDED

    • Carbon Rear Wing, 300mm Swan Neck
    • Carbon Vented Endplate (2)
    • Machined 6061 Swan Neck Upright (2)
    • Machined 6061 Chassis Mount Bracket (2)
    • Machined Delrin Chassis Stop (2)
    • Gurney Flap
    • 3m VHB Double-Sided Tape, Gurney Flap
    • Hardware Kit, Includes All Hardware Necessary for Install
    Part Number

    A0230A

    INSTALL AND DATA


    INFORMATIVE PACKET


    INSTALL MANUAL


    INSTALL VIDEO


    Features:

     

    Rear Wing

    2x2 Twill, 3k, Pre-Preg Carbon Fiber

    Cured in an AutoClave

    Carbon Inner Rib for Strength

    Carbon Endplates

    The Wing Itself Weighs in at Under 9 lbs


    Mounting

    Machined 6061-T6 Aluminum Mounts and Uprights

    Military Spec (NAS) Hardware On Wing

    Bolts on like OEM

    Zero Permanent Modifications to the Chassis

    Chassis Brace to Ensure Hatch will not Fail


    Features:

     

    Rear Wing

    2x2 Twill, 3k, Pre-Preg Carbon Fiber

    Cured in an AutoClave

    Carbon Inner Rib for Strength

    Carbon Endplates

    The Wing Itself Weighs in at Under 9 lbs


    Mounting

    Machined 6061-T6 Aluminum Mounts and Uprights

    Military Spec (NAS) Hardware On Wing

    Bolts on like OEM

    Zero Permanent Modifications to the Chassis

    Chassis Brace to Ensure Hatch will not Fail


    Specifications:


    - CFD Optimized Airfoil

    - Highly Efficient (Great L/D)

    - 15 Total Adjustment Angles (-1 to 14 degrees)

    - Lightweight and High Strength

    - Capable of Generating and Handling Over 700lbs of Downforce at 120MPH

    - Swan Neck Design for Improved Efficiency from the Wing Element

    - OEM Bolt-On Install


    Specifications:


    - CFD Optimized Airfoil

    - Highly Efficient (Great L/D)

    - 15 Total Adjustment Angles (-1 to 14 degrees)

    - Lightweight and High Strength

    - Capable of Generating and Handling Over 700lbs of Downforce at 120MPH

    - Swan Neck Design for Improved Efficiency from the Wing Element

    - OEM Bolt-On Install


    Science:

    The Verus Engineering 300mm Rear Wing kit was specifically designed for the Porsche enthusiast who wants more rear-end downforce for track days. The airfoil profile was run through ANSYS Adjoint solver to improve its efficiency. Through this iterative improvement process, we were able to improve the wing profile's performance. The wing was specifically placed to improve performance and create a good aero balance with the rest of the Verus Engineering Ventus 2 kit. The Ventus 2 kit produces a significant increase in downforce generated vs. the factory car and will reduce lap times substantially.

    Our CFD data and our real-world experimental data matched well with the rear wing. The wing hit all the major goals we set forth to achieve first in our CFD simulations and then with our real-world testing. The strong correlation between CFD data and real-world testing validates both our CFD analysis approach and the wing’s performance.


    Science:

    The Verus Engineering 300mm Rear Wing kit was specifically designed for the Porsche enthusiast who wants more rear-end downforce for track days. The airfoil profile was run through ANSYS Adjoint solver to improve its efficiency. Through this iterative improvement process, we were able to improve the wing profile's performance. The wing was specifically placed to improve performance and create a good aero balance with the rest of the Verus Engineering Ventus 2 kit. The Ventus 2 kit produces a significant increase in downforce generated vs. the factory car and will reduce lap times substantially.

    Our CFD data and our real-world experimental data matched well with the rear wing. The wing hit all the major goals we set forth to achieve first in our CFD simulations and then with our real-world testing. The strong correlation between CFD data and real-world testing validates both our CFD analysis approach and the wing’s performance.


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