I was finally able to get a decent datalog on the new IC.. here are two multigear pulls...one before the intercooler and one after the intercooler. Ambient outside was the same temps for both, notice that the starting temps are the same, so its about as close as you can get to similar environmental variables.
The IC itself it very stout with no plastic parts and is a very solid piece of work. Install is not horrid if you plan for a few hours and take your time. Not gonna go over it as it has been video taped (yea I know... ) and documented...
With the stock intercooler driving in traffic I would normally see 140F at the intake manifold while sitting in stop and go. Once it heatsoaked it would take a long time of constant driving to get the temps to stay down, otherwise it would creep up to 140+F.. nothing new here, we have all experienced this..
With the new intercooler I took my car to work today, and when you live in NoVA, its a hellish commute. I have to say, the highest I saw the intake temps were 131F during my drive to work and home from work. This included sitting in traffic(a lot). When I was able to get up to the speed limit the intercooler was able to keep the air under 100F and I was unable to get it to heat soak as it recovers extremely fast. Additionally I have not noticed any lag in the turbos with the extra volume, and part throttle is just as stout if not more so than before.
On my way home I was able to get a datalog on the highway during a stretch of open road, and it just pulls hard, temps dropped and stayed low. The temps were still dropping when I pulled out of it, which is a huge change! Usually during a pull the temps drop a bit but then start to sky rocket. The datalogs I posted show this. This is also typical at the track as well which kills your times as you pull spark (and boost with GH) when the temperatures climb. Looking at my datalogs from today, due to the temperatures staying below 100F I was hitting full load up to redline which was 1.78! The butt dyno for sure is telling me that there is significant gains with this new addition.
Sunday night after the installation I took the car out and hammered on it for awhile just to see if I can get the IC to heat soak and test recovery. After hammering on it, I parked it for 30-34 minutes, then started it back up. IATs were in the 140+F range as you would expect. Normally with the stock intercooler it takes FOREVER to get those temps to drop, and then you hammer it, and your right back to heat soaked. A slow drive around the block, hit up the highway, blast it, and temps were back under 80F. I proceeded to hammer on it some more but with how well this IC recovers, I was unable to heat soak it while driving.
Being as my 2010 had meth, I was considering adding meth to my 2016 to assist with keeping the temps in check. I would say with this IC upgrade, meth is not on the table for me personally. The real world data I am pulling shows a SIGNIFICANT improvement in IATs which is huge being as these cars traditionally heat soak TERRIBLY. Until now, our only recourse has been to add methanol injection. I loved me my meth, but there is maintenance overhead along with the concern of running out of meth on a drive.
Ultimately getting good data from a couple track runs will be very beneficial to post, but based on street driving, the IC is worth every penny. Excited for track season and seeing what it can do with hot lapping. If you are looking for build out your SHO, I would say this is on the list of must haves. Tune, 3BAR, upgraded HPFP, and the upgraded GH intercooler are a deadly combination.
Bravo GH!