Eventuri Intake Mini Cooper S / JCW (plastic) with hood scoop (Carbon)

Intake F5X MINI COOPER S JCW

Cooper S Performance Increase: 8-15 HP, 15-25 Nm
Cooper JCW Performance Increase: 15-27 HP, 20-26 Nm*

0-200 km/h Acceleration: Reduced by 0.6 seconds (V-Box)

Fitment: LCI and Pre-LCI F5X Mini Cooper S, JCW, Clubman S, Clubman JCW

Available in full carbon fiber and plastic with carbon fiber air duct

The F56 MINI Eventuri intake system is another example of our "Total System" principle. It is a sealed system that ensures the turbocharger does not draw hot air from the engine bay but is enriched with a functional hood scoop that draws atmospheric air into the intake duct. This duct has a larger internal volume than the standard version and also draws air from the factory location above the radiator. Combining the sealed system with the air scoop leads to lower intake temperatures than the standard airbox and prevents heat soak, which is a common issue especially with more powerful MINIs. To ensure the smoothest flow, we use our patented filter housing in conjunction with a CNC machined MAF tube to provide the smoothest flow to the turbocharger.

Eventuri Difference

The F56 MINI Eventuri system utilizes our patented carbon fiber housing, which provides an aerodynamically efficient airflow path from the filter to the turbocharger. It is not just another cone filter with a heat shield, but a unique design that induces the Venturi effect and maintains laminar conditions to reduce resistance on the turbocharger. More information on the housing design and its operation can be found HERE.

*Tested JCW model had stage 2 map and intake pipe. Performance gains were measured with these modifications installed both in the standard intake system and in the Eventuri intake system.

Performance Test

Power Increase: Stage 1 Cooper S on Dyno: 8-15 HP, 15-25 Nm

Power Increase: Stage 2 Cooper JCW on Dyno: 15-27 HP, 20-26 Nm

Dyno tests were conducted on both the Cooper S and JCW models. The Cooper S had stage 1 modification for both standard intake and Eventuri system. The JCW model was equipped with stage 2 modification and downpipe, both for standard airbox and Eventuri system. The Cooper S model showed a maximum power increase of around 8 HP and 11 Nm of torque but achieved larger increases in the mid-range, reaching 15 HP and 25 Nm of torque, with good gains across the entire rpm range. Similarly, the JCW stage 2 model achieved a maximum power increase of 15 HP but much larger increases in the mid-range, reaching 27 HP and 26 Nm of torque, with very good performance gains across the entire rpm range. These performance gains were measured simply by changing the standard intake to the Eventuri intake system - all other modifications were present for both standard and Eventuri systems.

The gains measured on the dyno translate to the road, where there is increased responsiveness to partial and full throttle driving with a greater eagerness for acceleration up to the redline. Tests were conducted on the same day in succession, and temperatures were monitored to ensure consistency. The car was first tested with the standard intake - hood closed. Then the car was left on the dyno, and Eventuri was installed. The car was then tested again - hood closed. Multiple runs were made with both configurations to obtain consistent results.

VBox Acceleration Tests

Finally, we conducted road tests of Stage 1 MINI Cooper S using a VBox device to record acceleration from 60 to 130 mph (also 100-200 km/h). During VBox tests, our test car was equipped with stage 1 modification for all test runs. The tests were conducted on the same stretch of road - again on the same day to minimize variable factors. The results show that adding just the intake resulted in a reduction in acceleration times from 60 to 130 mph and also from 100 to 200 km/h by about 0.6 seconds, which is a significant change at such speeds.

Summary of acceleration results:

60-130 mph with standard intake = 14.01 seconds
60-130 mph with Eventuri intake = 13.41 seconds

100-200 km/h with standard intake = 11.69 seconds
100-200 km/h with Eventuri intake = 11.27 seconds

Eventuri Mini Cooper Kit

The Eventuri intake system for Mini Cooper F5X series consists of several components designed to perform specific functions and crafted with utmost precision.

Each intake system consists of:

• Carbon fiber filter housing with Venturi effect
• Specially designed high-flow cone filter made of non-woven dry material mesh
• Carbon fiber intake duct
• Carbon fiber air scoop
• CNC machined and insulated MAF tube
• Laser-cut stainless steel mounting kit
• High-quality silicone flexi-hose

Cone Filter Housing

The filter housing assembly consists of our specially designed Generation 2 filter, aluminum heat shield, CNC machined MAF tube, and the carbon fiber or plastic housing itself. The housing encases the filter mounted in reverse and smoothly shapes the airflow downward into the intake duct. This smooth cross-sectional reduction induces the Venturi effect, where airflow accelerates while maintaining laminar conditions. This can be compared to a large conical suction tube - below is a diagram comparing our patented design with a typical intake system. Our specially designed filters facilitate airflow through the housings and provide an even velocity profile as the air exits the housings.

MAF Sensor

The MAF tube is CNC machined with precise tolerances to ensure proper sensor operation within OEM parameters and thus avoid triggering an engine warning code. As the MAF tube is located near the exhaust manifold, it is exposed to high temperatures and may suffer heat saturation. To address this, we insulate the tube with a neoprene sleeve, effectively shielding the interior of the tube from high temperatures.

Hood Air Scoop

The OEM intake system draws air from behind the front grille, above the radiator. The openings for atmospheric air intake are relatively small and therefore can lead to heat saturation of the intake, especially in tuned Minis. The factory hood scoop does not directly supply air to the intake, and since the hood already has two cutouts under the scoop, we decided to utilize this feature and redesign the scoop. Our scoop is a direct replacement for the factory part, which attaches using the same mounting system. It features two intake ramps that direct external air through the existing cutouts in the hood and into the intake duct (see below). As the car accelerates, more air is forced to flow through the duct, maintaining intake temperatures at a minimum and avoiding heat saturation. The scoop has a redesigned profile with a longer upper surface, which also gives a more aggressive look. Made from 100% pre-preg carbon fiber, the scoop provides an incredible aesthetic enhancement to the vehicle. To further emphasize the aesthetics, we used a V-shaped carbon fiber weave to give a symmetrical profile that complements well with the scoop, which is centered on the hood.

By utilizing existing openings in the hood - the ramps on the carbon fiber scoop reach and direct airflow into the duct. Here is the underside of the hood with the scoop installed.

Air Intake Channel

The OEM intake duct draws air only from the rear of the front grille and is very shallow above the front panel. We redesigned the duct to allow airflow from both the grille and the scoop. Additionally, our duct has a significantly larger internal volume, allowing for freer breathing of the intake system without restrictions. To protect against heat in the engine bay - the duct is equipped with a flexible rubber edge around the openings on the underside of the hood, which seals against the hood when closed. It also has an expandable rubber edge around the filter housing hole, which provides a good seal for the filter and allows movement with the engine.

Water Drainage

Since we have a direct airflow path to the filter, it is also important to allow water drainage before reaching the filter. To protect against excessive water ingress, we designed several features in the intake components, as follows:

1. The top of the scoop covers the openings, preventing rain from entering the duct when the car is stationary.
2. The scoop has 2 flow-directing ramps that also act as a water barrier, forcing water to fall to the bottom of the duct instead of directly into the filter area.
3. The duct has 2 water drainage holes - above the radiator and also a drainage hole before connecting to the filter housing.
4. The front of the duct, where it connects to the filter housing, has a wall with a rubber gasket attached. This wall prevents water buildup from directly reaching the filter and water is drained through an additional drainage hole.