UCW Rear Wing Kit - Subaru STI (GV)

https://www.verus-engineering.com/web/image/product.template/1692/image_1920?unique=95e56c3

1,999.95 1999.95 USD 1,999.95 ​ 

1,879.95 ​ 

Not Available For Sale

  • Carbon Endplates

This combination does not exist.

OVERVIEW

The UCW rear wing is a great addition to your GV STI to increase downforce significantly in the rear, increase confidence on track, and reduce lap times.

Verus Engineering developed the UCW rear wing to bridge the gap between our swan neck high-efficiency rear wing and our 300mm V1X airfoil.  With the 250mm curved chord, the UCW makes more downforce than the high-efficiency rear wing and significantly more downforce than similarly sized competitor wings.

Utilizing state-of-the-art analysis software during the R&D process, we optimized the airfoil for performance for the given build volume which is derived from the V1X.  Further utilizing CFD, we ensured the rear wing sees adequate airflow while installed and performs well.

During the design process; we utilized in-house scan data.  This results in a product that features a near OEM fit and finish.

The UCW wing is the perfect addition to the track goer who requires a large bump in rear downforce to balance out a significant front aero package.

* Requires factory STI trunk for compatibility. *

UCW Wings are assembled per order and will ship within 5 business days from receipt of order unless otherwise specified.

WHAT IS INCLUDED

  • Rear Wing Element Assembly
  • Rear Wing Uprights, Machined Aluminum (2)
  • Rear Wing Trunk Mount, Machined Aluminum (2)
  • Rear Wing Endplate (2)
  • Hardware Kit, Includes All Parts Necessary for a Seamless Install
    • Includes Trunk Double-Sided Tape
    • Includes Endplate Washers and Orings
PART NUMBER

A0229A

A0229A-CRB

INSTALL AND DATA


INFORMATIVE PACKET


INSTALL VIDEO

Features:

 

- Optimized Airfoil Using ANSYS Adjoint Solver

- Improved Efficiency (L/D)

- Increased Downforce

-Bolts to OEM Trunk

- Capable of Generating and Withstanding 500+lbs of Downforce

- Capable of Balancing Out Significant Front Aerodynamic Systems


Features:

 

- Optimized Airfoil Using ANSYS Adjoint Solver

- Improved Efficiency (L/D)

- Increased Downforce

-Bolts to OEM Trunk

- Capable of Generating and Withstanding 500+lbs of Downforce

- Capable of Balancing Out Significant Front Aerodynamic Systems


Specifications:

Carbon Fiber Rear Wing - 2x2 Twill Pre-preg carbon, Autoclave Cured, Automotive High-Gloss Clear

- Machined Billet Aluminum Uprights

- Machined Billet Aluminum Trunk Mounts

- Stainless Hardware Throughout


Specifications:

Carbon Fiber Rear Wing - 2x2 Twill Pre-preg carbon, Autoclave Cured, Automotive High-Gloss Clear

- Machined Billet Aluminum Uprights

- Machined Billet Aluminum Trunk Mounts

- Stainless Hardware Throughout


Science:


The Verus Engineering UCW Rear Wing was specifically designed for the GV STI enthusiast who wants more rear-end downforce.  The wing has the capability of operating and generating downforce from 0 to 15 degrees angle of attack.  As part of our Ventus 3 aerodynamic kit, the rear wing, and aero kit adds a significant amount of downforce to the car to help reduce lap times and increase corner speed.

Our CFD data and our real-world experimental data match up quite well. 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 UCW Rear Wing was specifically designed for the GV STI enthusiast who wants more rear-end downforce.  The wing has the capability of operating and generating downforce from 0 to 15 degrees angle of attack.  As part of our Ventus 3 aerodynamic kit, the rear wing, and aero kit adds a significant amount of downforce to the car to help reduce lap times and increase corner speed.

Our CFD data and our real-world experimental data match up quite well. 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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