nadogail
Well-known member
The volume of the pipes in your air supply system can act like a storage tank, more storage generally means a more consistent supply pressure.
Well I guess it depends on what you are defining as a "loop."
If you mean having a run that goes around the shop and various places in the loop where you can attach a tool then it wouldn't make much difference.
If you mean a loop where the air starts at your compressor, feeds to the "loop" that goes around your shop and then comes back to the compressor and you attach your tool at the end of the "loop" then yeah you have a much longer distance before the air reaches your tool.
Isn't a "loop" with an end a "hook"?I think in this context, the loop does not have an end.
I like stainless but is a PITA to work with, after it's done it will be worth it.I'm installing a loop in my shop where both ends connect together. The compressor is a drop just like any of the tool/hose drops. The air can travel either/both directions around the loop to the tool. I assume this is what everyone means when saying loop. If it has a start and end that are not connected, I'd probably just call that a run of pipe instead of a loop.
I got a great price on surplus 1" stainless pipe from a plant for my loop, it was almost half of the going rate for black pipe at the time and with the recent price increases I'm even happier with what I paid. I just need to get the interior sheeting done so I can install it. I'm not especially excited about cutting/threading it but once it's done I'm sure I will be happy with it.
Technically that is true, but it takes 24 feet of 1" ID to store a gallon. So your typical 30×40 most guys on here build will only get you another 5.7 gallons.The volume of the pipes in your air supply system can act like a storage tank, more storage generally means a more consistent supply pressure.
I’d imagine he was! In my prime I wasn’t fond of 2” screw pipe. Anything larger was almost always welded. 1/2” & 3/4”, easy peasy, once you hit 1” it becomes exponentially more physical as you go upI remember a buddy running air line in his home shop. I stopped by and he was hanging up 2" black pipe. I asked him if he was crazy, 2" main?! He told me that he had talked to someone and they told him to hang 2" because he would gain all this extra capacity. I did the math quick and asked him so, you have an 80 gallon compressor, and you got excited about adding 6 more gallons? (he put up about 40 feet!) He looked at me confused and said it was more than that! We went back and forth a bit, and by the time we were done he was pretty dejected that he had spent all that extra money and work to gain 6 gallons! Imagine 2" tees, couplers, and reducers. He told me he wished he had talked to me first and talked him out of it!
I told him a 3/4" main was more than enough for his use, 1/2" would have been fine. He was kicking in the dirt grumbling to himself when I left!![]()
Math is hardI remember a buddy running air line in his home shop. I stopped by and he was hanging up 2" black pipe. I asked him if he was crazy, 2" main?! He told me that he had talked to someone and they told him to hang 2" because he would gain all this extra capacity. I did the math quick and asked him so, you have an 80 gallon compressor, and you got excited about adding 6 more gallons? (he put up about 40 feet!) He looked at me confused and said it was more than that! We went back and forth a bit, and by the time we were done he was pretty dejected that he had spent all that extra money and work to gain 6 gallons! Imagine 2" tees, couplers, and reducers. He told me he wished he had talked to me first and talked him out of it!
I told him a 3/4" main was more than enough for his use, 1/2" would have been fine. He was kicking in the dirt grumbling to himself when I left!![]()
you can pretty much do anything with math, you be amaze at the people in my company that cant calculate anything, or read and write.Math is hard
Nothing more fun than screwing 2" black pipe together while working from a ladder!I’d imagine he was! In my prime I wasn’t fond of 2” screw pipe. Anything larger was almost always welded. 1/2” & 3/4”, easy peasy, once you hit 1” it becomes exponentially more physical as you go up

I was watching a you tube video and the guy was talking about how he ran his air lines for his compressor. The product he was using was call Max-Air and it was run kind of like pex and he bought it off Amazon. He said it was easy to install and obviously much cheaper than running a hard pipe
Has anyone here used this product? Do you run your air lines inside the studs or surface mount?
thanks
JLGs, backhoe, lift and skid loaders tooOh, I'm with you. 100a all the things! Telehandler and 1 ton pickups for everyone!
Great idea. Filing this away for future implementation.I scored a free and defective pancake compressor. I tossed the compressor in the garbage, but kept the tank. I connected the 5 gal tank at the end of the line right after the regulator, but before my air tool hose. This way it gives me an extra psi boost for my tools.
It works great. I can hear the air moving back into the extra tank from the main tank when I stop using my air tools.
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Longevity and size/restriction are two reasons.Question that I haven't seen discussed here: is there any reason not to just use air hose, placed along or behind the walls/ceilings, instead of the plastic/metal lines mentioned?
If you run metal pipe graded back toward a drain, it helps control moisture in the air lineQuestion that I haven't seen discussed here: is there any reason not to just use air hose, placed along or behind the walls/ceilings, instead of the plastic/metal lines mentioned?
Tanks typically have drains. If you grade your pipes such that drain to the tank, you do not need additional drains.If you run metal pipe graded back toward a drain, it helps control moisture in the air line
Depending on how much airflow and size of pipe, the air can push that moisture right up the pipe and out the tool, or worse, into the paint.Tanks typically have drains. If you grade your pipes such that drain to the tank, you do not need additional drains.
Indeed, but having additional drains will not change that.Depending on how much airflow and size of pipe, the air can push that moisture right up the pipe and out the tool, or worse, into the paint.
Additional drains give that moisture that's pushed along the pipe another place to accumulate when it gets to that end or drop.Indeed, but having additional drains will not change that.
Why do you want moisture accumulating?Additional drains give that moisture that's pushed along the pipe another place to accumulate when it gets to that end or drop.
You want it to accumulate at the lowest point so it can drained.Why do you want moisture accumulating?
Exactly. That's why it makes sense to make the tank the lowest point.You want it to accumulate at the lowest point so it can drained.
KExactly. That's why it makes sense to make the tank the lowest point.
Making the tank the lowest point doesn't mean that all the moisture will drain back thereExactly. That's why it makes sense to make the tank the lowest point.
Making the tank the lowest point doesn't mean that all the moisture will drain back there
If you have drains below your outlets, yes, more of the moisture will go there.Correct, it absolutely does not. Does having multiple drains mean all the moisture will drain to them?
But that was not the question, was it?If you have drains below your outlets, yes, more of the moisture will go there.
I thought it was a discussion. Having been through a number of installations I find interesting.I'm lost as to what you are arguing.
Assuming a system is piped correctly, I would say no, I (generally) do not see any value in having multiple drains.Do you think it isn't worth having multiple drains?
