For a pressure rating of 500 psi, you should use Schedule 80 PVC or Schedule 40 steel pipe, as both can handle high pressures. Alternatively, you might consider using high-density polyethylene (HDPE) pipe with the appropriate pressure rating. Always verify the specific requirements and standards for your application to ensure safety and compliance.
To calculate the gallons per minute (GPM) for a 2-inch pipe at 15 psi for water, you can use the Hazen-Williams equation or empirical formulas specific to pipe flow. Generally, for a 2-inch pipe, the flow rate at 15 psi is approximately 20-30 GPM, depending on factors like pipe length, fittings, and roughness. For more precise calculations, specific conditions and parameters would need to be considered.
To estimate the gallons per minute (GPM) flow rate of a 1.75-inch pipe at 70 psi, you can use the Hazen-Williams equation or consult flow rate tables specific to pipe sizes. Generally, a 1.75-inch pipe at 70 psi can yield approximately 150-200 GPM, depending on factors like pipe material and length. For precise calculations, consider specific conditions such as friction losses and fittings in the system.
To determine the flow rate in gallons per minute (GPM) through an 8-inch pipe at 5 psi, you can use the Hazen-Williams equation or empirical formulas for flow in pipes. However, a rough estimate would suggest that at 5 psi, the flow rate would be approximately 600-700 GPM, depending on factors like pipe length, roughness, and fittings. For more accurate calculations, specific hydraulic calculations should be performed.
To calculate gallons per minute (GPM) in a 3-inch pipe at 90 psi, you can use the hydraulic formula that relates pressure, pipe diameter, and flow rate. Generally, for a 3-inch pipe, the flow rate at 90 psi can be estimated to be around 1,000 to 1,200 GPM, depending on factors such as pipe length, fittings, and the specific fluid properties. For precise calculations, it's advisable to consider additional factors like friction loss and fluid viscosity.
You should use black pipe -- Galv. pipe will flake off inside of pipe
The answer is yes, if the pressure is below 150-160 psi.
piping rated for 250 PSI OWG
A good number to use is 30,000,000 psi (207 GPa)
Schedule 40 welded carbon steel pipe (black) is rated at a working pressure of 150 psi. It should be printed on it. Schedule 80 welded is rated at 300 psi. If U want higher rated piping you must use seamless (not welded) pipe. Hope this helps!
To calculate the gallons per minute (GPM) for a 2-inch pipe at 15 psi for water, you can use the Hazen-Williams equation or empirical formulas specific to pipe flow. Generally, for a 2-inch pipe, the flow rate at 15 psi is approximately 20-30 GPM, depending on factors like pipe length, fittings, and roughness. For more precise calculations, specific conditions and parameters would need to be considered.
To estimate the gallons per minute (GPM) flow rate of a 1.75-inch pipe at 70 psi, you can use the Hazen-Williams equation or consult flow rate tables specific to pipe sizes. Generally, a 1.75-inch pipe at 70 psi can yield approximately 150-200 GPM, depending on factors like pipe material and length. For precise calculations, consider specific conditions such as friction losses and fittings in the system.
To determine the flow rate in gallons per minute (GPM) through an 8-inch pipe at 5 psi, you can use the Hazen-Williams equation or empirical formulas for flow in pipes. However, a rough estimate would suggest that at 5 psi, the flow rate would be approximately 600-700 GPM, depending on factors like pipe length, roughness, and fittings. For more accurate calculations, specific hydraulic calculations should be performed.
To calculate gallons per minute (GPM) in a 3-inch pipe at 90 psi, you can use the hydraulic formula that relates pressure, pipe diameter, and flow rate. Generally, for a 3-inch pipe, the flow rate at 90 psi can be estimated to be around 1,000 to 1,200 GPM, depending on factors such as pipe length, fittings, and the specific fluid properties. For precise calculations, it's advisable to consider additional factors like friction loss and fluid viscosity.
To determine how many gallons will flow through a 2-inch copper pipe at a specific psi, you need to consider factors such as the pressure (psi), the length of the pipe, and any fittings or obstructions. Generally, a 2-inch copper pipe can flow approximately 1,200 gallons per minute at 50 psi under ideal conditions. However, for a precise calculation, it's best to use flow rate formulas or consult hydraulic tables that account for the specific conditions of your system.
PVC pipe is fine
You should use black pipe -- Galv. pipe will flake off inside of pipe
Measure the vertical distance from the top of the water in the tank to the point of use. Multiply that distance by 0.44 to get the answer in psi. Example: if the top of the tank is 20 feet above the point of use, the water pressure at the point of use will be 8.8 psi. Note, this does not account for friction losses in the pipe. If the pipe runs a long distance from the tank to the point of use, there will be pressure losses in the pipe, especially if the pipe is a small diameter. The larger diameter, the less those pressure losses will be.