To determine the gallons per minute (gpm) at 80 psi, you need to consider the flow characteristics of the specific system or device in question, as flow rates can vary widely based on factors like pipe size, fittings, and fluid type. For example, a standard garden hose might deliver anywhere from 5 to 10 gpm at that pressure, while a larger diameter pipe could deliver significantly more. For an accurate measurement, it's best to refer to manufacturer specifications or conduct a flow test.
gallon per minute (gpm).
Under 400 GPM at best (without friction)
They do not compare. Inches of water is a pressure measurement, GPM is a flow measurement.
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.
almost 400 GPM
-39
gpm and psi are two different measures that are not directly related, though a change in one will affect the other. To get the pressure at a certain point in your piping, you would need to measure it. Or, if you know that your pump is rated for 50 gpm at 80psi (1 foot water column = 2.31 psi) and your pump is lifting a column of water 15' (34.65 psi), then you should have about 45 psi residual. If you have long runs of horizontal pipe you may need to add some for pipe friction also.
52 gpm
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
gallon per minute (gpm).
3gpm
15 gpm
45 gph x 60 min/1 hr so multiply by 60 45 gph is 2700 gpm
What is the condendsate in GPM flow and what tonnage is the unit
Depends how big the farm is.
Kw x 3412 / 10000 = gpm I think