The formula to answer this question is GPM=29.7xdiameter of the tip^2 (squared) x the square root of nozzle pressure. That being the case the discharge is 297x18x10= 5,346GPM
To find the maximum flow you would need to know the maximum pressure. A typical fire nozzle pressure would be up to 100 psi with a diameter of 1 to 1.25 inches. The GPM would be between 300 GPM and 460 GPM through the nozzle. If it were simply a 3-inch pipe with an oversized pump, running at 100 psi with no nozzle, you could (in theory) move over 3,000 GPM through the pipe (ignoring friction loss). Even at 80 psi, a master stream through a 2-inch nozzle moves over 1,000 GPM.
One anagram for stream is master.
You should put a water softener that puts out more than 15 gpm so that it is able to accommodate the 5 gpm.You should find a water softener that puts out more than 15gpm to accommodate the 5 gpm.
Master is an anagram of stream.
52 gpm
gallon per minute (gpm).
2650 gph = 44.167 gpm
Kw x 3412 / 10000 = gpm I think
Depending in the hydrant suction, pump pressure should be about 80-100 psi
It doesn't make any difference how many sides of the pool are negative edge, only the total number of linear feet of negative edge and how level you can make the edge. The longer the edge the more important it is that it be level, because even small amounts of out of level require huge flow rates to compensate for. Approximate GPM required per linear foot for various water depths: 1/8" - 5 gpm ¼" - 10 gpm ½" - 17 gpm ¾" - 28 gpm 1" - 40 gpm 1.5" - 70 gpm 2" - 105 gpm As a minimum 5x35=175 GPM
Under 400 GPM at best (without friction)