What fittings are installed and type of valves and height as friction losses have a lot to do with the calculations. Also the piping material and lenght have to be taken into consideration.
To give a proper answer one has to know the type of piping as per Hazen Williams forumla's regarding friction losses
That would depend on the type of copper Type K, L, M or T.P
thicker wall thus more friction losses SEE HAZEN - Williams formulas
As many as you have available at the supply end,
if you keep it going long enough.
291 gpm if no restriction.
100
20
There are two factors which determine the flow rate of water. Diameter and velocity. Resistance is not needed for determining the size of waterlines to their respective flow rates. Resistance is a component of velocity calculated for determining several aspects such as pump hp, and loss of velocity over a distance. The formula without the resistance component is: Q=Av where: Q=Flow Rate A=Inside pipe area v=velocity Calculate: Q= (3.14XR squared)v lets assume a velocity of 10 inches per minute For 1/2 inch pipe: Q = (3.14 X 1/4" X 1/4")X10 inches per minute Q = 1.96 Cubic inches per minute For 3/4 inch pipe: Q= (3.14 X 3/8" 3/8") X10 inches per minute Q = 4.41 Cubic inches per minute So one 3/4 inch pipe will carry roughly 12% more water than two 1/2 inch pieces.
5 Pounds per Square Inch
4324
A two inch pipe can hold 0.1632 gallons per foot. It takes slightly over 6 feet of two inch pipe to hold one gallon of water.
Approx 73,167
that's what she said
6
1200
300 gallons per minute
2.5 gallons per minute
0 gallons per minute will flow threw any pipe at 0 psi.
Depends on what is flowing through the pipe and the temperature of the pipe.
Flow = Pressure / surface S = PI * ( Diameter / 2 ) ^ 2 now you can do the math... I can't tell with gallons, inch and psi.
We need to know what pipe material will be used.
Depends on the piping material as Hazen Williams formula kicks in for friction losses
With no pressure (that being the P in PSI), it is next to impossible for any liquid, let alone gallons of liquid, to pass through piping at any length.