A pneumatic water pump made from PVC costs so little, and for such a short lift the "static" components of inefficiency are negligible.To take advantage of this, you'd have to reset the pressure switch on your compressor, so that it never exceeds the low pressure required for a short lift (or modify the drive ratio, for a windmill). Otherwise, the static inefficiency of piston pumping at 50 PSI would still be present, even if you used it for a low-pressure job.
Actually, loss from "adiabatic compression" (sudden) must be estimated by taking the temperature of the air that leaves the compressor. It's not included in the compressor specs, which ignore how hot the air becomes. Hot air shrinks in volume upon cooling according to Boyle's Law, so you basically just get less air than you thought you would.
It will be possible to run my new pump at the usual high speed, off an electric compressor, but at this rate some energy will be lost through frictional heat and heat from sudden compression. We could call this the "dynamic" component of inefficiency. You can't calculate this, but most of it can be evaluated from the compressor specs (including the inherent "static" loss of the piston pump).
Bill
S. Oregon coast
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