Upgrade your Audi's performance with the APR Carbon Fiber Intake System designed specifically for the 2020-2024 Audi A6 Allroad, 2019-2024 Audi A6 Quattro, and A7 Sportback 3.0T (C8). This comprehensive system replaces all factory intake components from the inlet scoop to the turbo inlets, ensuring optimal airflow and reduced pressure drop. With a flow increase of 45% over stock, this upgrade delivers an impressive +19 AWHP and +17 AWFT-LBS of torque, providing noticeable power gains that enhance your driving experience. The system's full design addresses the main restrictions in the factory setup, unlike typical airbox upgrades that only focus on the filter or airbox. The larger, streamlined inlet piping from the 4-inch filter outlet to the turbocharger minimizes pressure loss and improves turbo efficiency, resulting in quicker spool times and more responsive acceleration. Crafted from lightweight, high-quality carbon fiber, the intake system features complex organic shapes that fit seamlessly within the tight engine bay while maintaining a sleek, aggressive appearance. The open design of the airbox allows for a larger filter and better airflow, aiding in cooling air temperatures and producing a refined engine sound without being overbearing. The included high-flow, washable pleated cotton gauze filter enhances filtration efficiency and durability, ensuring consistent performance over time. Additional features include billet turbo adapter rings that accommodate larger turbos, and a massive 7-inch by 7-inch filter with a 4-inch outlet and 5.5-inch frontal inlet, providing significant airflow capacity. This system is emissions-friendly and a direct bolt-on upgrade that improves turbo operation and overall engine response. Enhance your vehicle’s performance, aesthetic appeal, and sound with the APR Carbon Fiber Intake System, a high-quality upgrade that combines form and function to unlock your Audi’s full potential. Please note that this product requires CARB acknowledgment and is not CARB approved, and it is compatible with the specified models for optimal performance.
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