Under 400 GPM at best (without friction)
The GPM is gallons per minute and TR is the ton of refrigeration. The GMP can be calculated from the TR by using the formula BTUH divided by 500 multiplied by Delta T.
7.48 Gal (1 CU FT) = 1 FU Or 1 GPM of pumped drainage = 1 FU The above equation that was submitted makes no sense whatsoever. Conversion of Fixture Units to gpm is non-linear; gpm per FU decreases as the total number of FU increases. I am a civil engineer, not mechanical engineer, but I know there are resources available either through International or local building codes that guide the designer.
That would depend on the pressure huh?
BHP = Flow(GPM) X TDH(FT) x SG /3960xEFFICIENCY(%)Example: BHP = (100 GPM) x (95 Ft) x (1.0) / 3960 x .6BHP = 4.0
The acronym GPM can stand for variety of things. Most commonly GPM is used for "Gallons Per Minute" but it also stands for: "Graduated Payment Mortgage", "General Purpose Mouse", "Gross Profit Margin".
52 gpm
2650 gph = 44.167 gpm
Kw x 3412 / 10000 = gpm I think
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)
Most domestic ones flow at a little over 2 gpm.
Yes, a water softener that put out 9gpm will be able to accommodate a home that puts out a 5 gpm.
almost 400 GPM
-39
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.
Multiply gpm by the number of minutes the flow lasted, to find the gallons of volume that flowed during that time.