Hello;
UPDATED: I spent more time reading and realized I want to ask different questions.
I deleted the old ones as they didn't make much sense in light of what I now understand you have....
I was going to start by saying I have an unusual situation, but I then read enough posts to realize the tremendous diversity of situations, and I won't claim to be unusual. I didn't see it covered elsewhere.
Anyway, I have a low-yield 25' well, at about 200 feet above sea level; i.e. usually 29.98 inHg barometric pressure.
It is about 300 feet away from my pump house, connected by a buried 2" Pvc pipe.
I have been using a 1HP Red Lion RJC-100 to pump it.
The 2inch PVC does *not* slope uniformly upwards to the pump, and thus it is a pain(!) to get primed.
There is a foot valve at the bottom of the suction line in the well.
The only way I can avoid overpumping the well (and sucking air, and losing prime) is to restrict the outflow to be up at 60psi. I have been trying to use a (old 1.5") pressure relief valve set at 60, but the setpoint is not very abrupt; i.e. not much difference between 60psi and 63 psi.
I'm still trying to get a good reading on the yield, but I think it is less than 1 GPM.
I also have a bubble trap I can vent , in piping above the jet pump output.
The other key to success is to have the pressure tank sitting at at least 50 PSI for startup;
this ensures the pump gets started without the dreaded 0PSI situation where there is no water in the jet.
Also, having the pressure tank helps make the jet pump more robust against entrained air;
when the pump gets an air bubble hiccup, the tank pressure pushes some water back into the jet pump and it burps and bounces around and then gets back to work. If i have gotten some air in the line, i can carefully vent it without losing the jet venturi action.
(I haven't explored the lower bound of pressure tank PSI to ensure startup.
Admittedly, the pump stutters badly initially until I vent some water and it settles down at ~75PSI, ramping down to 60 as the 2inch PVc transitions from +50psi to -10psi.
this is less than elegant... UPDATE; I realize I need to just bypass the pressure switch on the RJC instead of trying to crank it up to 11ty...).
(At present, when I turn off the jet pump, the entire jet pump goes down to -10psi unless I allow it to suck water back in from the pressure tank).
Anyway, I'm trying to get this rig into a situation where it could operate unattended, and exploit the low-yield resource by filling up my 10K gallon redwood tank. (which presently leaks...)
I need a better PRV with a sharp cutoff, vs. gradual opening above the breakpoint.
It seems that you have this this behavior in the CSV, with the additional feature of the bypass flow.
My UPdated questions;
1. Where can I find data for flow vs. pressure when the CSV is shut, particularly in reverse pressure situations?
(somehow I am dubious that it is 1GPM regardless of differential pressure)
2. How do the smart people utilize the friction loss vs. flow rate data?
( i.e., CSV2 has ~7psi of friction loss at 0 GPM? I don't get that at all).
3. At this point I think I need a CSV (set at ~50Psi (or maybe PRV) to a pressure tank , which has a reverse check valve in parallel with the CSV to allow the suction line to recharge? and also on the pump output manifold, a PRV set to 60PSI which refills my big open tank. The idea of all of this is to insure the jet pump will restart, and then have it's output flowrate-limited to not overpump. (maybe I could add an input check valve, to minimize pressure cycling of my looooong 2inch PVC suction line. This goes against your generic advice of mutiple check valves in a single line.
Right now I have a 80 gal pressure tank, and I can overpump the well (suck air, lose prime) just trying to get it filled up if it is empty and the well has not recovered any depth.
So, the remote shallow well that is only 25" deep is the source of many headaches.
I am hoping to find a way to keep my jet pump happy without needing an engineer to babysit it, and then use the ~1GPM to fill my big tank, which has it's own pump and hydrant network.
So, the low yield shallow remote well requires jet pump operating into a sharp PRV.
The only way I see to avoid overpumping is to sit up at the very high pressure end of the pump curve, maybe 60pSI where zero flow pressure is 63 psi.
Thus, I am grasping at straws, to see if your fine CSV could help me out here.
(I don't seem to find any 1 GPM pumps that can pull from 25 feet down...)
So, whadayatink?
John
I realize the 'reasonable' approach is to get power out to the well, and install one of your Cycle Sensors on a submersible.
Right now that is not feasible.
