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Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System
Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System

EVE-8VRS3-CF-LHD-INT

Eventuri® (15-20) Audi RS3 8V Carbon Fiber Cold Air Intake System

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    Compatible: (2.5L)

    2015 - 2020 Audi RS3 

     

     



    The Audi 8V RS3 Eventuri intake sets a new benchmark in aftermarket intake design for this platform. It was developed to achieve two objectives – 1) De-restrict the turbo inlet path. 2) Maintain low inlet temperatures. The first objective was met by using 88mm internal diameter tubing all the way to the turbo as well as using our unique Venturi housing to maintain laminar flow. The second objective was met by designing a sealed system to the stock cold air feed therefore ensuring the turbo does not draw heated air from the engine bay. The intake duct draws air from the stock feed and has been maximised in volume to allow the highest flow rate through the filter. The resulting performance gains and aesthetics are industry leading for the 8V RS3.

    The Eventuri Difference

    The 8V RS3 Eventuri system uses our Patent Pending Carbon fibre Housings which provide an aerodynamically efficient airflow path from the filter to the turbo tubing. Not just another cone filter with a heat shield but a unique design which invokes the Venturi affect. 

    With so many aftermarket intakes available, the natural question arises:

    “So what’s so special about the Eventuri Intakes?”

    There are two main elements in explaining the answer to what sets us apart from the rest:

    1. The Patented Eventuri filter housing design
    2. Our Bespoke Filters
    3. Our emphasis on creating a “Complete Solution”

     

    The Patented Eventuri Filter Housing

    Even at first glance the Eventuri intake looks very different to many other aftermarket intakes. Unlike the majority of intakes, which use the same cone filter/tube/heat shield configuration, the Eventuri design is fundamentally different and has been Patented.

     

    AFTERMARKET INTAKE SYSTEMS

    Most aftermarket intakes use a cone filter mated to an inlet tube with some type of heat shielding. In this configuration airflow must negotiate a path from the large diameter at the base of the filter through to the smaller diameter of the inlet tube in a relatively short distance. There is usually a velocity stack at the base of the filter to help with the transition, however the stack is usually small. This sudden transition in geometry is detrimental for flow. The result is a loss of throttle response and performance gains are usually limited over the OEM intake system. The diagram below shows a typical aftermarket intake using a cone filter secured to an engine inlet tube. The filter uses a standard velocity stack, which has been highlighted in yellow.

     

    Airflow-Cone

     

     

    THE EVENTURI INTAKE SYSTEM

    The Eventuri is a new type of intake design, which has been granted a patent. We use a cone filter – but here it is inverted and decoupled from the inlet tube. By removing the direct connection between the filter and the inlet tube, the filter is no longer dictating the shape of the airflow. This is now being done by the carbon housing, which is designed to smoothly guide the air into the inlet tube without a sudden change in geometry. This means that we keep laminar conditions throughout the intake, which is a lot more efficient. Furthermore, the funnel-shaped housing invokes the Venturi effect where the smooth reduction in cross-sectional area along the length of the housing causes the airflow to increase in velocity. Essentially the entire housing acts as a large velocity stack. On the road this translates to more power with a smoother delivery as well as sharper throttle response since the airflow is not inhibited by abrupt geometry changes andso is more likely to remain laminar. The diagram below shows an Eventuri intake system using a reverse mounted filter inside an Eventuri housing. The large velocity stack area is highlighted in yellow.

    Airflow-Eventuri


    Eventuri Bespoke Filters

    To compliment our unique filter housings we designed our filters specifically for this reverse mounted configuration in order to provide the optimum airflow through the system. Detailed descriptions of the filters can be seen in the FILTER section.


    The Complete Solution

    The final element to our design – which is as important, is our emphasis on creating a complete solution. We dedicate a lot of design effort on ensuring the filter housings are provided with ambient air in the most efficient way possible. Allowing the filters to draw in heated air from the engine bay defeats the objective and in many cases is the cause of an actual loss in power over the stock system once the engine bay is heat soaked. Simply using heat shields is not enough – there must also be a method of channeling cold air into the intake. This is where we have seen some companies use “scoops” but on closer inspection are usually very flat and almost perpendicular to the oncoming air. Not the ideal solution for trying to redirect air at high speeds! Our scoop designs have, where possible a curved face for as much of the exposed area as possible in order to smoothly redirect incoming air to the filters. In doing so we ensure that engine bay heat is displaced and so intake air temperatures are kept as low as possible.

    From scoop to duct to housing to inlet tubing – by utilizing organic shapes, we invest a great deal of time and effort in providing a smooth path for the airflow to follow. Hence ensuring maximum efficiency of the system.

    Extensive testing was carried out on this system both on the Dyno and road. Firstly the dyno tests were carried out showing an impressive gain of approximately 17hp and 25ft-lb of torque. The gain is not just at the peak but throughout the RPM range. This translates on the road to increased part throttle and full throttle response with the car pulling much more eagerly to the redline. The testing was done on the same day back-to-back and temperatures were monitored to ensure consistency. The car was tested firstly with the stock intake - hood closed. We then left the car on the dyno and installed the Eventuri. The car was then run again - hood closed. Several runs were carried out with both configurations to get a consistent result.



    We then took the car for some road testing using a Vbox unit to record the acceleration from 60-130mph (also 100-200Km/h). Testing was carried out on the same stretch of road - again on the same day to keep variables minimum. Results show that with just the intake added, the acceleration times from 60-130mph and also 100-200Km/h reduced by approximately 0.3 seconds which is a significant change at such speeds.

    Acceleration results summary:

    • 60-130mph with Stock intake = 12.013 seconds
    • 60-130mph with Eventuri intake = 11.753 seconds
    • 100-200Km/h with Stock intake = 10.271 seconds
    • 100-200Km/h with Eventuri intake = 10.046 seconds

     



    The Eventuri 8V RS3 intake system consists of a number of components engineered to perform a specific purpose and fabricated to the highest of standards. Here are the details for each component and the design ethos behind them:

    Each intake system consists of:
    • Carbon Fibre Venturi Filter Housing
    • High Flow Urethane Cone Filters
    • Carbon Fibre inlet Duct
    • Carbon Fibre
    • Carbon Fibre Connecting Tube
    • Laser Cut Stainless Steel Brackets
    • Silicon Couplers and Reducer
    Carbon Intake Housing Assembly



    The filter housing comprises of a high flow filter, aluminium cowl, laser cut brackets and the carbon pod itself. The carbon pods shroud the reverse mounted filter and smoothly shape the airflow down to the intake tubes. This smooth reduction in cross sectional area invokes the Venturi effect where the airflow accelerates whilst maintaining laminar conditions. It can be thought of as a large velocity stack - below is a diagram to show the comparison between our patent pending design and a regular intake system. Further details can be read in the Technology page.







    Carbon Fibre Intake Duct



    The duct channels ambient air from the slam panel area to the filter housing. It fits inside the OEM ducting system and smoothly transitions to the circular filter housing shape. In order to ensure a good seal against engine bay heat - it also has a flexible rubber edging around the opening which presses against the filter housings creating the desired seal yet allowing the housing to move with the engine. The duct was designed to have the maximum internal volume possible within the given geometry of the engine bay. This ensures that the filter housing is able to draw with minimum restriction.



    Carbon Fibre Intake Tubes





    Our intake tubes are again crafted from 100% prepreg carbon fibre. Each tube has an internal diameter of 88mm - the stock tubing is just 77mm in diameter. This enlarged diameter allows the turbo to operate with less restriction and also allows larger/hybrid turbos to run even better. The tubes smoothly carry the airflow to the turbo by ensuring there are no sharp or sudden bends. The smooth bend geometry ensures laminar flow is maintained from the filters to the exits.

    The combined system ensures that airflow remains full and consistent to the turbo - minimising the occurrence of turbulence. The following flow simulation shows how smooth and full the flow is within the inlet tubes before the turbo. There is some circulation in the duct as is expected but once the flow enters the tubing, this is smoothed out and allows the turbo to operate more efficiently.











    The gains are from a combination of reasons:

    1) The sealed system keeps IATs low - the RS3 engine bay can get heat soaked very quickly so an open cone filter will cause an increase in IAT values resulting in a loss of performance.

    2) The Venturi housing provides a smooth transition from the filter to the intake tubes which are both matched to an internal diameter of 88mm. This helps the turbo to run more efficiently.

    3) The entire system is constructed from pure pre-preg carbon fibre which is great at insulating from heat.

     

    Install Guide:

     

     

    Warranty:

     

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