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.
The flow rate of water through a 2-inch pipe at 100 psi can be estimated using hydraulic calculations. Generally, a 2-inch pipe can flow around 40-50 gallons per minute (GPM) at that pressure, depending on factors like pipe length, fittings, and friction loss. For precise calculations, it's best to use the Hazen-Williams equation or consult flow tables specific to the pipe material and conditions.
Under 400 GPM at best (without friction)
To determine the appropriate pipe size for a flow rate of 50 gallons per minute (GPM), factors such as the pipe material, the length of the pipe, and the allowed pressure drop must be considered. Generally, for a flow rate of 50 GPM, a 2-inch diameter pipe is often recommended for water distribution systems to minimize friction loss and ensure adequate flow. However, it's essential to consult hydraulic charts or a plumbing engineer for precise sizing based on specific application requirements and conditions.
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.
-39
Yes, easily.
The flow rate of water through a 2-inch pipe at 100 psi can be estimated using hydraulic calculations. Generally, a 2-inch pipe can flow around 40-50 gallons per minute (GPM) at that pressure, depending on factors like pipe length, fittings, and friction loss. For precise calculations, it's best to use the Hazen-Williams equation or consult flow tables specific to the pipe material and conditions.
Yes, you can flow 120 gallons per minute (gpm) through a 2-inch pipe, but it depends on various factors such as the length of the pipe, the type of fluid, and the allowable pressure drop. A 2-inch pipe has the capacity to handle this flow rate, but if the length is significant or there are many fittings, you may experience increased friction loss, which could impact the flow. Proper calculations using the Hazen-Williams equation or similar methods can help determine if the system can sustain that flow rate effectively.
100
The flow rate (gallons per minute, or GPM) through a 1-inch horizontal pipe at 70 PSI can vary based on factors like the length of the pipe, fittings, and fluid characteristics. However, a rough estimate for water flow through a 1-inch pipe at that pressure is approximately 20-25 GPM. For a more accurate calculation, you would need to consider additional factors, including pipe length and any elevation changes.
A pipe that is 10 inch would have the velocity of 2.75 feet. This is 2.75 feet with 722 GPM.
Under 400 GPM at best (without friction)
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.
The standard formula to calculate flow(GPM - gallons per minute) from a CIRCULAR orifice is:29.7 * (the square root of the pressure) * (the square of the diameter of the flow orifice)EXAMPLE using 3/4" Pex Pipe(actual I.D. of 3/4 PEX Pipe is .677") and 40 PSI pressure:29.7 * 6.325(sq. root of 40) * .458(the square of the I.D. 3/4" pipe) =A GPM of 86.03Note: You also need to account for fittings in the loss calculations; while minimal several fitting will make a difference.
It would 2.75 feet with a 10 inch pipe. It would be 2.75 feet with a volatility of 722 GPM.
80 gpm