The plan is to make an intercooler spray that can be operated by the driver or codriver. The awesomeness comes in the spray's payload: compressed carbon dioxide. When releasing compressed CO2 from a liquid state the expansion of it causes it to cool to below freezing temperature.
I plan to use a CO2 canister I have from a paintball gun and put a valve on the end. From there I have to make something that can attach to that and go to a tube that can take the pressure of the expanding CO2. After that all I need is an appropriate nozzle for delivery.
I don't know if by the end of the releasing whether the CO2 will be a liquid or a gas, but I'm sure it'll be quite cold.
Concerns:
Pressure. The most concerning problem that can occur is that the delivery system will fail. I need to make sure seals are tight but more importantly that the materials I use can even withstand the pressure of the expanding CO2. This is a at home DIY job and I have no numbers to go by, it'll careful trial and error.
Freezing. If you play paintball you know that when playing below 40 degrees F there's a chance of the CO2 canister freezing up.
Let's take a look at this lovely CO2 chart, shall we?
Okay, so the temperature range we'll look at here is between 250 K (-10F, -23C) to 300 K (80F, 27C). That range covers as low as the outside air should go where any of you live (unless you live someplace where people shouldn't be living) to a nice warm 80 degrees F, or 27 C.
I don't know what the fuck a "supercritical" fluid is, but don't worry about it man, because paintball CO2 canister DO fall under that range, but there's no warning about it for paintballers, so I'm not worried.
The pressure range we'll be looking at is between 1 Bar (14.5psi, atmospheric pressure) and 124Bar (1800psi, common compression in a paintball CO2 tank).
So, moving on if we look at the coldest most pressurized area for our purposes, 250 K at 124 Bar, CO2 is still a liquid. Now, the reason it might freeze up and become a solid is because the canister can get MUCH colder when depressurizing. Looking this graph CO2's solid state begins around 220 K (-64F, -53C) and as we know the tank can freeze up under normal use in cooler weather when playing paint ball.
What this equates to in a cooling system that uses continuous streams of CO2 is that you'll only be able to use it fully open, oh let's guess, for 6 to 12 seconds in warm weather and 2 to 5 seconds around freezing temperature. At a time. Once the canister warms back up a bit you can do it again.
The one other concern with freezing it at the end of the spray nozzle. I'll just have to experiment to see what works well.
Corrosion. My final concern is that spraying pure or maybe even liquid CO2 onto an aluminum intercooler might cause corrosion. I have no idea if it will or not, aluminum may not be affected at all.
Cracking. Oh yeah, just thought of this one. Cooling down the intercooler rapidly may cause it to fracture. That would suck, but shouldn't be a problem if the spray starts 6 inches or so from the intercooler, or is spread wide enough.
So, what do you think? Brilliant? Crazy? Stupid? Someone already did it?
We'll see what I can get away with.