Tom Suddard
Tom Suddard GRM+ Memberand Director of Marketing & Digital Assets
9/26/23 8:48 a.m.
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Is it really possible to do it all with one car?

We’ve asked that question in every update about our daily-driven Mk7 VW GTI, and the answer has always been yes… with an asterisk.

What’s the catch? After multiple hot laps on track, the car loses power. It doesn’t enter limp mode, light a CEL or misbehave, but lap …

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Olsenkj06
Olsenkj06 New Reader
9/26/23 4:10 p.m.

I always assumed bigger intercoolers were for more power. It never occurred to me that they would improve heat management. As a matter of a fact, I'd have thought just the opposite. More air means more squish/bang and more heat. This means I can call the bigger intercooler on my supercharged C230 Kompressor a reliability upgrade. This is interesting. Thank you. 

Keith Tanner
Keith Tanner GRM+ Memberand MegaDork
9/26/23 4:17 p.m.

In reply to Olsenkj06 :

It's not the engine coolant temp that goes up and causes problems, it's the intercooler heatsoaking so intake temps go up. This means the ECU pulls timing to prevent detonation.

On the Mazdaspeed Miata, we'd see a considerable drop in power when doing 3 back-to-back dyno runs with the stock IC because the air intake temp kept climbing. Put in a bigger intercooler and it would stay consistent run after run.

mfennell
mfennell HalfDork
9/26/23 4:26 p.m.

There's a trade, though, right?  On another forum, a powertrain engineer said that you lose responsiveness when you go with a big, high-volume intercooler.  

Keith Tanner
Keith Tanner GRM+ Memberand MegaDork
9/26/23 4:29 p.m.

Certainly if it's on a supercharger and the IC is throttled volume. On a turbo...it's harder to make that claim. It WILL make it harder for the engine to cool itself, as it'll do a better job of preheating the air going through the radiator.

flatlander937
flatlander937 GRM+ Memberand HalfDork
9/26/23 4:51 p.m.

On these cars, you can make power in two ways: lots of timing or lots of boost.

Boost will make more power. Most off the shelf tunes are like this (catered to street), with only one company that is pretty well known for having crazy timing with minimal boost. It's also a bit "safer" [adding boost instead of timing] generally speaking if not pushing the knock thresholds.

I personally prefer getting more aggressive (but not on the ragged edge) with timing, and dialing back the boost a bit will run cooler in sustained heat (track) situations. 

The ECU has tables that compensate for higher IATs and reduce timing as necessary. There is no such table for boost based on temps*. Timing will still get pulled to avoid knock based on IATs, but trying to cram 29psi peak tapered to 21psi on an overspun IS20 turbo near redline will continue generating a TON of heat, and retarding the ignition to avoid knock actually makes temps HOTTER because you're delaying the combustion event, and it'll be more inefficient making more heat in the cylinder. I run 25psi tapered to 17 on my GTI, even with a high flow downpipe. It's "weaker" than most stage 1 tunes. I'll see about 6-7 deg of timing on track near redline when it's 70F outside with IATs within 20-25F of ambient.

Y axis is degrees Celsius for IAT, X axis is RPM. Table is degrees of spark timing removed based off temp and RPM. Stock logic actually ADDs more timing in really low temperatures for reference.

Stock for my .bin for reference:

*In the STOCK ECU logic, there are MANY tables for torque reduction. Two of which include turbocharger speed turbocharger outlet temp - both of which are MODELED without real sensors... so as a result when you tune the car for more power, these things need pushed out of the way. Without doing so, you can't make more power (or at least nowhere near what any stage 1 tune makes). There's not anything inherently wrong with that, but when you're pushing these cars to the ragged edge on track with a street tune, you need to help them in any way possible via lowering IATs. Torque reduction is accomplished in the stock ECU by lowering boost in most cases, and in severe cases by closing the throttle body.

Adding an intercooler *might* make more heat in the cooling system, likely due to more restricted airflow or the more efficient removal of heat from the intake charge air (with that hot air going back directly into the radiator, lowering the delta-T), but most people do an IC + tune at the same time so it's hard to get truly good data. 

https://www.datadrivenmqb.com/drivetrain/coolingdata

By and large the GTI has a MUCH easier time dealing with heat than the larger turbo IS38 equipped Golf R. 

 

z31maniac
z31maniac MegaDork
9/26/23 5:48 p.m.

Upgrading the cooling in general is a good idea for a car used on track, radiator, oil cooling, intercooler, brakes. 

 

Pete. (l33t FS)
Pete. (l33t FS) GRM+ Memberand MegaDork
9/26/23 5:58 p.m.

I would never have thought to consider an intercooler anything but a reliability upgrade.  The most powerful forced induction spark ignition engines in the world are not intercooled, after all.

 

Throttle response should not be affected much by I/C volume, unless you have a crazy blowoff valve that throws away all of your boost between shifts.  The larger concern with big intercoolers is pumping loss due to internal drag. 

034 did some tests on intercooler core design and core layout and they are pretty enlightening.  As for layout, generally speaking a long core forces all of the air through a small amount of tubes, for higher pressure drop.  Higher pressure drop means you have to run the turbo harder for the same manifold pressure, so you have more exhaust manifold pressure, which means more hot exhaust residuals in the chamber during the next go-round and more likely to have detonation. 

A wide core forces all of the air through more tubes, for less pressure drop, but the downside is they are more difficult to package for a given core area because the tanks are necessarily larger.  Also more expensive due to core design.

Keith Tanner
Keith Tanner GRM+ Memberand MegaDork
9/26/23 6:03 p.m.

Those airflow rules sound a lot like how you design a water radiator as well :) More shorter tubes and the fin density in between becomes very important. Thickness is less important.

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