Description
Elevate your vehicle’s performance with the aFe POWER Momentum GT Pro DRY S Cold Air Intake System, engineered to deliver superior airflow and power gains while ensuring easy maintenance and installation.
Key Features:
- Performance Gains: Experience up to +6 HP and +7 Lbs. x Ft. TQ with this intake system. It outflows the factory intake by up to 9%, with a measured flow rate of 310 CFM @ 7" H2O.
- Durable XLPE Construction: The heat-resistant cross-linked polyethylene (XLPE) housing offers robust protection against impact, extreme temperatures, and other environmental factors, ensuring long-lasting performance.
- Pro DRY S Filter Media: This 360-degree radial flow air filter features three layers of oil-free synthetic media for maximum convenience. The progressive layering enhances filtration efficiency and dust holding capacity, ideal for street and light off-road use. The inverted top design increases filter surface area, extending service intervals.
- Unique One-Piece Housing: The system’s smooth, one-piece XLPE housing includes a patented filter-to-housing interface that simplifies installation by reducing the number of parts. A large, clear sight window allows for easy filter inspection without disassembly.
- Dyno-Tuned Intake Tube: Designed for optimal performance, the high-quality, computer-designed intake tube is dyno-tuned to achieve maximum power gains while ensuring a precise fit. The XLPE material resists heat soak and provides exceptional durability.
- Premium Components: Stainless steel clamps and a silicone coupling ensure a secure and flexible seal. The design of the Momentum GT intake system uses fewer parts for a quick and straightforward installation process.
Emissions Disclaimer:
- This product is not CARB exempt and is not available for purchase or use in California or on vehicles registered with the California Department of Motor Vehicles.
Vehicle Applications:
- 2018-2023 Volkswagen Atlas - Gas, L4-2.0L (t)
- 2020-2023 Volkswagen Atlas Cross Sport - Gas, L4-2.0L (t)
Prop 65 Warning:
Cancer and Reproductive Harm
