True 3.5″ mandrel bent aluminum piping with black powder coating.Only for B8 and B8.5 Audi S4/S5/Q5/SQ5 with 3.0T or 3.2L V6 engine! ![]() All of the components included in the CTS air intake system work flawlessly together to provide increased horsepower and torque throughout the entire power band and an aggressive race inspired sound.ĭon’t waste money on intakes with silicon pipes – they collapse under vacuum and end up choking out the air flow! Keep your supercharger happy with our TRUE 3.5″ intake. Our single piece CNC mandrel-bent aluminum intake pipe allows for smooth entry of cold air into the engine providing peak power gains ranging from 8-11HP. Air then flows through our high flow cone air filter, which utilizes an inverted cone design for maximum engine breathing. The OEM air scoop works in conjunction with our sealed airbox to seamlessly force cold air into our air intake system. Huge 6″ velocity stack air filter.Īt CTS Turbo we are proud to announce our TRUE 3.5″ velocity stack air intake system for the Audi 3.0T and 3.2L FSI engines. So, if you're looking to unleash your vehicle's full potential, don't overlook the importance of incorporating a velocity stack into your cold air intake system.NEW UPDATED DESIGN! True 3.5″ intake for maximum airflow. Their ability to optimize airflow, reduce turbulence, and fine-tune the air-fuel mixture makes them indispensable in the world of high-performance engines. To sum it up, velocity stacks play a vital role in maximizing the performance of modern cold air intakes. Optimized Air-Fuel Mixture: By improving the quality and consistency of the incoming air, velocity stacks enable the engine control unit (ECU) to fine-tune the air-fuel mixture for maximum power and efficiency.Įnhanced Throttle Response: With a smoother, more consistent air supply, engines equipped with velocity stacks and cold air intakes benefit from improved throttle response and increased horsepower. Reduced Turbulence: Velocity stacks help eliminate turbulence in the incoming air, ensuring a consistent, powerful air supply for the engine. Increased Airflow: The smooth, funnel-shaped design of a velocity stack accelerates the air entering the intake manifold, leading to more efficient combustion and improved engine performance. The use of velocity stacks in cold air intakes offers several key benefits: In the world of high-performance engines, every detail matters. The Case for Velocity Stacks: Why They're Essential in Today's High-Performance Engines The velocity stack smooths out the incoming air, reducing turbulence and ensuring a consistent, powerful air supply. By incorporating a velocity stack into the design of a cold air intake, it's possible to achieve even better performance gains. This results in increased horsepower and improved throttle response.īut what role do velocity stacks play in modern cold air intakes? The answer lies in their ability to fine-tune the airflow. Cold air intakes draw cooler, denser air from outside the engine bay, providing a richer oxygen supply for combustion. In today's high-performance vehicles, cold air intakes play a pivotal role in enhancing engine power. The Modern Marvel: Velocity Stacks and Cold Air Intakes ![]() The use of velocity stacks helps achieve this goal by optimizing the air-fuel mixture, enabling the engine to produce more horsepower and torque. In high-performance engines, the precise tuning of air intakes is crucial for extracting maximum power. The smooth, curved shape of a velocity stack helps reduce turbulence and increase the air velocity, which translates into more efficient combustion and improved engine performance. These funnel-shaped devices, also known as intake trumpets, are designed to accelerate the air entering the intake manifold. The Science of Speed: How Velocity Stacks WorkĪt their core, velocity stacks are all about improving airflow into the engine. Over time, as automotive technology advanced, velocity stacks found their way into fuel-injected engines, offering even more impressive performance gains. ![]() Velocity stacks were designed to enhance the airflow entering the carburetor, ensuring a smooth, consistent, and powerful air supply for the engine. These ingenious devices were first used in carbureted engines, where they played a crucial role in optimizing the air-fuel mixture. The origin of velocity stacks can be traced back to the early days of internal combustion engines. So, buckle up and let's get started! A Trip Down Memory Lane: The History of Velocity Stacks Get ready to dive into the world of velocity stacks! This journey will take you through their fascinating history, their crucial role in internal combustion engines, and why every modern cold air intake should be equipped with a velocity stack.
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