Forge Motorsport Race Intercooler - EA888 GEN3

Thew new and improved race spec intercooler from Forge motorsport to fit the EA888 Gen 3 cars.
 
Features
 
Gains of 16BHP
Gains of 20NM of torque 
Inlet air temp reduction (IATS) of up to 58%
Made in the UK 
76mm inlet and outlets (OEM 63mm)
83% volume increase over the OEM 
No cutting of the vehicle 100% plug and play 
High flow baffled cast end tanks ensuring optimum air transition for cooling efficiency 
Lifetime warranty 
 
This part will replace the following OEM parts: 5Q0145803H, 5Q0145803K, 5Q0145803L, 5Q0145803P, 5Q0145803S, 5Q0145803N
 
Following on from our previous intercooler solution for the MK7 golf and MQB chassis variants that utilise the EA888 2.0 GEN3 2.0 TSI engine, we have designed our race intercooler to further enhance performance over the original intercooler and our previous iteration of our cooling solution, designed, developed and tested, at our headquarters in Gloucester UK. Throughout the development process we have strived to improve the efficiency and performance of the EA888 GEN3 engine. Our project brief was to develop an intercooler that utilised all of the available space in the original position of the OEM intercooler along with increasing the size again over our hugely successful product FMMK7FMIC. We also had to ensure the inlet air temperature is reduced, without any negative effects on the boost pressure or engine and transmission cooling.
 
In the MQB chassis the intercooler housing is particularly restricted and confined to a small amount of space, due to it not only housing the intercooler, but also the radiator and air conditioning condenser. The front panel in theory is a sandwich pack that houses the auxiliary cooling components. This means in order to increase the size of the intercooler without paying detriment to the performance of the surrounding items, and with also having very little extra space available, that it can be very difficult to execute the perfect blend of a high flow intercooler within such a close proximity. Our research and development engineers went back to the drawing board looking at previous documented dimensions while also taking new scans of the intercooler housing, this enabled the team to squeeze a further 10mm in depth of the core that houses very snugly into the earlier MQBs platform.
 
We also looked at the differences between the Mk7 and Mk8 cooling components and found that the Mk7 Golf GTI and Golf R has a thicker radiator than the MK8 equivalent models thus meaning we also needed to consider any fitment procedures carefully. The design team started to 3d print the intercooler end tanks while creating a test sample dummy core to fit to the Mk7s platform and check for any clearance issues that may occur. The final chosen design has increased inlet and outlet sizes along with increasing the volumetric capacity to increase flow which aids with future proofing the design to work well with highly tuned stage 3 plus EA888 Gen 3 engines as well as offering the best cooling solutions for either a stock or mildly modified powerplant. This gives the best package for the enthusiast as they start their journey in enhancing the vehicles performance.
 
The 3d printed end tanks and dummy core enabled us to ensure the fit was perfect on the vehicle before any prototype castings or machined billet end tanks were produced ready for dyno testing. Several baffle configurations were designed, and flow simulated to ensure the maximum performance was obtained to keep the core working at its optimum, along with ensuring all its cooling capabilities had been upheld, and that the total volume of the core internal is utilised for optimum performance.
 
With an increase in inlet and outlet sizes, we then turned our attention to the design of our silicone hoses. With flow in mind, we have created a step within the hose so where the hose meets the hot and cold side of the inlet and outlet junctions the transition is seamless, this helps to lesson any disturbance to the airflow and prevent unwanted turbulence. To further aid with flow, the inlet and outlets have been increased to 76mm from the OEM size of 63mm which equates to a 45% increase in surface area.
 
The consideration of space and our clever design has led us to produce several intercooler cores with different fin configurations and internal capacities. Depending on the core design, testing results led us to choose a bar and plate design with over 83% more volume than the OEM intercooler, and with a frontal area increase of 10%.
 
Dyno Results
 
esting was completed using Performance Remap in Gloucester with their VTEC 4-wheel drive dynamometer; this was to ensure all our data has been achieved with results as accurately as possible by an independent tuner. Peak power was increased from stock by 16bhp and 20nm of torque at 5500RPM with the Forge Motorsport performance intercooler installed. The best news is that there are significant torque gains throughout the rev range, meaning that the car power will pick up quicker and pull the whole way through to redline, including an impressive gain in BHP increase from 5000 RPM TO 6500 RPM. Gains on vehicles with re calibrated software and further hardware performance parts can be expected to be a lot higher due to the substantial drop in IATS when FMINT32 is installed.
 
During our extensive testing, we let the car heat soak on the dyno until the radiator fans tripped on and off (which gives an inlet temperature of around 40°C), we then did a dyno pull from this point, in doing this it gives a more consistent result and reflects real-world driving conditions more accurately. You can easily see the Forge intercooler cools much quicker and delivers a much greater drop in temperature compared to OEM.
 
After more than six pulls on the dyno we still had super safe IAT’s, and the Forge Motorsport intercooler gave results of 34°C @ 6000 RPM giving a reduction of 58% over the factory’s intercooler intake temps from 58°C just before the rev limiter These tests took place in relatively hot conditions with an ambient dyno cell temperature of 23°C proving how inefficient the stock intercooler is. In the summer months, the stock intercooler along with higher inlet air temperatures will have a hugely negative impact on the engine’s performance. In these conditions, the engine management will retard the ignition, resulting in a lower powered engine as temperatures rise and the ECU then pulls out the timing to stop detonation. On a mapped vehicle, the results will be even more detrimental and can lead to possible premature engine wear. If you use a Golf R for fast road or have a high-performance tune in a hot climate, this product is essential.