Intercooler - Explained

I have videos on both, but radiators are for engine cooling, where as intercoolers are for intake charge cooling.

I don't remember Blue's Clues being this complicated...

SO are you a college professor yet? You're so detailed and meticulous but allow even non car people to understand what you're talking about. Keep it up! You're fucking great!

thank you steve, you make me smarter when I was a kid and now you make me even smarter when l grow up, you are my hero.

Wow Blue's Clues has gotten a lot more complicated since I was a kid.

Bigger turbos will typically be used for higher boost, yes the correlation is there, but of course they are not all created equal. You want to match the turbo to the power you'd like to make, so that it doesn't have much lag, and spools up quick enough.

Correct, there are several solutions to this however. Vacuum brakes will also have a 1 way valve to hold the vacuum in the chamber to use for braking, so when the car idles or loses boost, it will create the vacuum again. A vacuum pump or hydraulic booster could also be used.

so this is where steve ended up after he went to college.

Great video. It would be great to include some temperature data and the drop in temperature that could be expected. Thanks.

#1. It is not just restricted air flow that drops the outtake pressure of an intercooler, it is also the drop in temperature, as almost any gas cools it will also decrease in the amount of volume it tends to use. for example, A pressure cooker does not pump air into itself to heat up the contents (as you all know), it heats up the liquid, creating steam (expanding gasses) and thus the rise in pressure, and with a rise in pressure you get a rise in temperature, like in a diesel engine, but once you turn off the pressure cooker... the pressurized chamber will begin to condense until the humidity and pressure return to normal and now your left with cool air again.
#2. What about the condensation from hot to cold, will it get into the engine?

Dude you are like a car dictionary. You're just so good at explaining it you should become a teacher

*taps cowbell 4 times*
🎶We just got a intercooler
We just got a intercooler
We just got a intercooler
Wonder how it works! 🎶

It's been requested many times, so yes I'll need to get around to it eventually! :)

You look like steve from Blue's Clues. Great videos man, really helps!

HAHA! I've been watching your channel for years. Now that I have my first turbocharged car, I wanted to learn more about forced induction. Enter Engineering Explained's baby face from 10 years ago XD.
I would really like to see an updated version of this video, which delves deeper into the correlation between air temperatures, CFM at given RPMs, and intercooler size.

Thank you Steve. I never took auto shop in high school so you're educating me about engine mechanics. After all, nobody wants to look like a dummy when dealing with auto mechanics.

Love your videos man. Great job at explaining things and making it easy for other people who don't know what this parts do.

Thank you for saying "everyone"!! Like every single UA-camr says "Hey guys" and I'm like wtf? That's only a portion of the audience!

Hahaha blues clues

water intercooler is interesting and was wondering about how they made that possible. Now that I know, I don't think I will ever get one. Way to complex and I would have to do more maintenance in the long run then I really want to. Keep up the great video's as usual :)

With this shirt you look like the dude from Blue's Clues

put the pump on the cold side for longevity. nice vid bro

Depends of course, but it could easily be 50-100 deg F. Higher or lower depending on boost levels and intercooler size.

I know this is an old video but knowing very little about engines and the different components you explained the basic principle really well :P

Dude you deserve more subs and views YOU GO OVER EVERYTHING!!
P.S. I think if you mentioned your sponsors more then you would get better
sponsorship.
But keep it up man!!

you look like the guy from Blues Clues

Where's blue Steve?

These videos are amazing. I learn so much. I'm in auto and I have a air to water intercooler and I wasn't sure how it works. Thanks!

Your channel should be Car Technology Explained. There is a lot more to engineering than car applications. Still, great explanations and videos!

lol glad I'm not the only one who thought instantly of Blue's Clues when I saw this haha...
On a side note...the reason I was weary of my heat exchanger (water to air) on my supercharged Cavalier was because of the reliance on a pump. My pump failed during a very spirited run and then on some heavy highway pulls. Well I wasn't monitoring my IAT's at the time and the motor went (piston literally splintered). You wont have that with an air to air, the worse that happens is a charge pipe blows off which you'll know right away. But I've had both and having a sufficient intercooler is definitely key.. my stock Focus ST intercooler is basically useless except for daily driving. Its the only part I need to go stage 3 but it should have been the first part I upgraded to for peace of mind!
thanks for another good video! the car community is definitely a better place with people like you taking the time to help others understand how things work!

more* of a pressure loss, but I think that's what you meant. And yes, TMIC often do have the advantage of less piping (and less pressure loss).

Not necessarily, but it does improve efficiency. At 1.1 bar you'd probably see a healthy gain with an intercooler.

Very good & educative explanation . Its to the point, crisp and clear.

Don't do it unless you are going with forged internals, MLS headgasket, and ARP head studs. Boost with that high compression=boom. You know what I'm talking about, but keep up the good work.

There's not really any reason to in a road car, as the frontal area is big enough that you can use a rectangle. Ultimately, a big thin rectangle will yield the best results, provided that the space is there.

Very well done video. Crazy amount of information to fit into 8 minutes.

I hope to eventually!

Cooling the pressurized fuel/ air mixture increases the mass of fuel /air mixture that can be crammed into the cylinder. Intercooling has the added advantage of allowing the charge to be compressed further before it reaches combustion temperature. It is possible to 'supercharge' an engine by using an intercooler on its own.

I have to admit I tried drawing these pictures explaining them to my friend but I am way more jealous of your drawings

Hello Everyone and Welcome!!!! Love this guy :)

have you done a video on explaining how to select the size intercooler you need and how other sizes might affect your system.

Jesus dude, I literally was so confused on how the air went through them without just leaving immediately at the fins. I had seen boosted boiz weld up the inlet and outlet to one and didn’t understand how it worked, so thanks for this video

super well explained also the reason sometime you don't want a taller or thicker intercooler is because if you are not running that much boost it will take a longer time for you to hit the boost level your set at aka lag a turbo will lag harder trying to fill the system at 15psi of boost with a big intercooler vs a smaller one

Hey man, greetings from diesel enthusiast from Finland! I'd like to suggest a video topic: Make video about pro's and con's about water-to-air-intercooler vs. (normal) air-to-air-intercooler. Many vehicles that i've been working on have small engine bay, and it would be super great if you could do a video, where you put both water-to-air and air-to-air intercoolers on test. Just a suggestion thou! But i've seen lots of drag cars that use water-to-air intercooler method, and it would be cool if a wise guy like you could explain
in a video about the differences of these two! I hope you read this message and even reconsider doing that kind of video! Thumbs up people if you agree with me!

Been doing a lot of reading about IC recently and the one of the huge difference between tube and fin and bar and plate is. Tube and fin is really restrictive and does nothing for air flow even though it’s a force induction system. The fact that those tubes protrude in the tank doesn’t help air flow. Bar and plate on the other hand doesn’t have that protrusion in the tank so it doesn’t slow down air flow but actually speed up the flow of air.

Haha, that's hilarious. Never watched the show but a quick Google search proves you right.

Engineering Explained many said it's blues clues but i see a Sandman in Spiderman 3..btw ur videos r so helpful and i'm learning a lot from it..
Keep goingand never give up

how'd you get Steve shirt from blues clues ? :) great video!

Your blues clues costume didn’t let me concentrate on today’s topic...good job steve

I've never actually heard of Yonaka before your videos and after a quick google search they're apparently located in my city

Nice...now when i go to work tomorrow im gonna explain this to people and come off like ive known it my whole life

PV=nRT, everyone! :)

We will see, I'll probably leave it up to everyone to see what they'd like to see most. Turbo, Vtec, k-swap. All in good time!

It wouldn't serve any purpose, but you could do it if you wanted to add weight.

They tearing you up bro! I love your channel.

Thanks! You are very good at explaining how things work!

I can't believe Steve from blues clues taught me about intercoolers

LOL you really wanted to show off your IC core didn’t you? Good video man

Your shirt makes you look like Steve from blues clues

Hi .,
I'm very happy to be the first to commnet, your work is amazing man, I love watching your videos. You make everything sound simpler.
Thank you very very much, please keep it up...

Thanks for making these vidoes, they are extremely helpful and you explain them so well, keep going :)

There is something you didn't go into that almost nobody talks about but is greatly effected by the hight of the intercooler. The size and shape of the end tanks make a big difference on air flow and pressure drop through the core of the intercooler. If you have skinny end tanks there will be turbulence trying to fill the upper section of the intercooler and make it less effective. The larger the end tanks and the smoother the transition, the better for air flow. Check this out in practice by looking at the end tanks on the intercooler of a Nissan Skyline GT-R (R32, R33, or R34) with the bumper off..

I really like your vids man. They help me a lot .

I did indeed!

Great video, you also look like Steve from Blue's Clues with that shirt

Can you do a video of what's more beneficial having a intercooler on top of the engine with a scoop on the hood sucking in the air or the intercooler on the lower front end of the car sucking in the air as a typical radiator set up?

Love your videos, have helped me understand so much!!

does the intercooler use the same body of coolant/antifreeze as the regular engine cooling system?
Or do they have separate working fluids / coolants that never mix with each other?

The pressure remains nearly the same, because you keep forcing in more air, but the temperature decreases.

Check out my video "turbochargers - explained." :)

My congratulations for the explaination. Very cleaner and friendly. A curosity, what is the flowrate and velocity (average value) of ambient air that crosses the intercooler to cool the compressed air? Thank you.

Great video as usual, haircut looks sharp too.

I think if you started making your owm animation of what your to to explain that would be even better. But i still think your video are great and I learned a lot.

That shirt makes you look like Steve from "Blues Clues" lol, by the way this videos is pretty informative.

Great video as always. Keep up the great work.

Your videos are so helpful, thanks a lot indeed, really owe you for this !

Engine knock, combustion could start before the spark plug fires, and of course a loss of efficiency (and thus, power).

The spokesman for the engineers of the Ford Focus RS said that the intercooler had to be dialed back. He said that it was necessary to put a plate covering the far end of the intercooler to prevent any further cooing at the end. He said that without the plate, there was condensation. I know that compressors have dewaterers for this reason. I live in a climate where the dewpoint is usually around 50 degrees, and rarely exceeds 65 degrees. Positive and negative-- what are the consequences of removing the plate?

I love your videos and love the Blue's Clues T shirt..

Any chance you could do a video on how a dyno works.
i know i could learn else where but i think you'd do a great job with the video.

it can be, but i saw a miata running 10 pounds at the track without an intercooler this weekend and he was killing it.

nice video chris

I own a boosted B18B and its fun to drive. You should consider boosting yours

You and you're videos are wicked smart man, where do you work? (Sorry if you get asked this a lot too)

I believe the only difference is straight cut gears vs. helical.

I recently purchased a GTI, and I’m hoping to get some good miles out of it. I’ve wondered if installing an aftermarket or upgraded OEM intercooler (Golf R?) may help reduce heat and therefore stress on my motor. If the goal was logevitiy and an OEM+ style of tuning, could a well designed intercooler help extend the life of my engine? I live in the southeast where it is hot and humid. Temps can regularly crest 95-100° from late May - September or November some years. My concern is how heatsoak from normal operations or spirited driving and anything in between could affect longevity when considered in totality.

Great Video! You remind me of Steve from Blues Clues.

PV=nRT. Pressure and volume are inversely proportional, but pressure and temperature are directly proportional.

If it was oversized, yes, you'd need a larger turbo to compensate.

How do you balance the pressure drop vs extra cooling in the two types of intercoolers? Are there specifications when you buy an intercooler to decide between bar&plate vs tube&fin to allow you to see what will give you the greatest molar flow of oxygen?

Great video brother!

"We've just figured out blue's clues!" Clues about how intercooler works!

That shirt makes you look like the hosts of "Blue's Clues."
thanks for the handy dandy explanation.

Hey dude... you did a nice job explaining about intercoolers. I have a 2011 VW Jetta 2.0 TDI. Diesel engine. what type of intercooler is it? Air to air or air to water? And please give me a few points about how to keep the turbo cool even if I drive at high RPMs. like around 3000 rpm. Thank you.

I have multiple videos on each, I'd recommend checking out my forced induction video.

I literally came to the comments because I knew I wasn't the only one to think of blues clues when I saw his shirt lolol The comment section never fails.

Engineering Explained while I was working at a big-rig dealership ( I won't mention any names) we were changing out all of the intercoolers on particular models. The intercoolers were too big and would condensed water filling them up halfway full. Maybe you could edit and explain why, that would be cool to know a detailed reason.

Long term goal!

So I'm watching and I keep thinking, "Blues Clues" did not pay him enough money.

Well done - thank you for your attention to details.