I own one and use it with a Hyperfilter to fill PP-mixed Nitrox tanks.
The cfm rating on ALL of these compressors is "free air displacement", which is not what you can expect over a REAL fill. Second, all fills are "hot" and thus when cooled will not be to spec, which also inflates the numbers.
So, what's the REAL output on a compressor?
First, there is no such thing as "free air" when you're filling a tank. Sorry. The idea is to make the tank fill with compressed air, and as you do, the output goes down some. The "floating" third stage design is an attempt to get constant displacement over pressure, but the first and second stages don't float, and as such displacement is NOT a constant.
Second, any air spaces you use as buffers (e.g. filters and coalescers!) consume some air, because (1) there is no free lunch, and (2) they have to be pressurized AND DUMPED for condensate. This counts too.
So, to compensate for all this and get ACCURATE figures, we must
norm the output to what the tank WILL BE when cooled, and we must "discard" the air tossed when we dump the condensate.
You have to do this if you're mixing Nitrox anyway, since your PP computations are based on a tank at the final temperature and pressure, not the "hot fill" temp. Otherwise, your FO2 will be off!
Here, on the Florida coast, with its typical near 100% humidity you have to dump condensate about every 10 minutes. Less often than that and the filter stack begins to accumulate excessive amounts of water, which is very bad (and can trash your filter if allowed to get too far.)
What this means is that you typically "overfill" to accomodate for the heat of compression; when the tank cools, it will be spot-on in final pressure. This is perfectly acceptable as the "rated pressures" are all at 70F, and the manufacturer allows for this pressure gradient (as does the burst disc) as you might have the tank somewhere on a 100F day.
When you're filling an AL80, this typically means you fill to right near 3200 psi (hot); it will cool to 3000. For an HP100, you might fill to 3750 (rated pressure is 3500), and again, it will cool right to the rated over the next hour or so. Again, "rated" pressure means pressure at 70F; you can't fill a tank at 32F to "rated", as when it warms up (if it does) it will be significantly overfilled.
When you measure ACCURATELY, for ACTUAL output, you find that these compressors produce about 2.5-2.8cfm of ACTUAL output across the tank, assuming you do NOT start completely empty, and that includes the dumping of the condensate (which hurts you significantly.) Remember, starting completely empty gives the compressor a leg up; this is doubly true if there is no backpressure maintaining valve on the dryer! Also, when you dump the condensate you release pressure in both the condensator on the second state (inlet to third) and the filter cannister, and both of those take time to recover pressure before air delivery resumes. This is particularly true as pressure rises in the tank(since more delta is released.)
I have BOTH a backpressure-maintaining valve on the dryer (you want one, as the dryer doesn't do crap worth of a job without it until the tank pressure comes up) and I account for the cooling of the gas; in addition, I'm filling through a hyperfilter which has fairly significant internal gas volume.
My statistically-valid average ACTUAL delivery on HP100s, accounting for all of the above and making allowance for none, leaving the H/F stack pressurized between both fills and when the system is idle, for the Alkin W31 is approximately 2.4cfm.
This is from my fill log spreadsheet which records the starting pressure of the tank, O2 added, final pressure after cooling, and both start and finish times on the hobbs meter of the compressor to the nearest hundreth of an hour, all over more than 40 actual operating hours.
NONE of the other small compressors do any better, and some do a lot worse! BTW, cylinder head temps never go over about 150F on this unit - that's quite cool, and very nice. Air output from the filter stack to the hyperfilter is just a few degrees above ambient; the cooling tubes do a very nice job. All of this has been measured with an IR thermometer.
BTW, the W31 220V 1ph compressor should be able to be started by most 8kw boat Gensets. Mine can start it - I've tried - if I turn off all the AC systems. The issue is surge current, not running current (I have plenty of running current) on startup.
Its a VERY quiet compressor compared to the others I've been around on the market. The 1100 rpm speed has a lot to do with that. You can easily stand right next to it while its operating; it doesn't make you reach for the hearing protection.
One thing to be aware of - like all compressors, the filter life ratings are rather, uh, "optimistic", as they are rated for 70F inlet conditions at an "average" humidity level. Quite possible if you live in Michigan. Ain't gonna happen in Florida. You'd be wise to install an "eyeball" indicator for humidity if you get one of these, and change the filter when the 60% RH indicator just starts to turn color or before. If you let that second band turn pink, you have waited too long.
If the filter gets saturated with water, it doesn't filter any more.
Beware, as this is one way you can get oil in your output! If you have a hyperfilter stack it will be rapidly polluted if you allow the inlet air to go outside of Grade "E" specs.
I've found that the 3000 cfm "hot" rating is fairly close using this metric.
BTW, I point a pedestal fan at my compressor when its running in an attempt to keep things a bit cooler, and allow that fan to run for several minutes after I shut it down - all part of an attempt to keep the valves from getting gunked up. Also, I change oil FAR more frequently than specs require (the alkin only needs ~250ml of Chemlube 751, so an oil change is VERY cheap - you can buy a gallon of the stuff for about $30.)
