The maximum pressure per schedule for GI pipes varies. For instance, a schedule 40 for a black poly pipe would be 200 psi.
The pressure rating for schedule 80 pipe is typically around 200 psi (pounds per square inch).
4inch Schedule L Copper pipe weights 5.38 lbs/ft.
The pressure that a PVC water pipe can withstand varies depending on its schedule and diameter, but standard PVC pipes typically handle pressures ranging from 140 to 400 psi (pounds per square inch). Schedule 40 PVC pipes generally have a lower pressure rating compared to Schedule 80 pipes, which are thicker and designed for higher pressure applications. Always consult manufacturer specifications for the exact pressure ratings for specific pipe types and sizes to ensure safe and effective use.
2460 m/s
Schedule 80 means "Pipe Wall Thickness as per Sch.80 of ASME B36.10M". Pipe 80 means "3 inch NPS or 80 mm NB pipe as per ASME B36.10M". Hope that it will answer your query adequately. Regards, Bhatta
What is the maximum flow rate of a two inches in diameter of a pipe in cubic meter per hour?ImprovecapitalOneround('alternateMsg');
The maximum flow rate through a 1.5 inch pipe is typically around 9 gallons per minute.
I want to know based on flow and pressure how to calculate diameter of the pipe
1/8th per inch
The maximum flow of water through a 3-inch diameter pipe depends on various factors, including the pressure, the length of the pipe, and the fluid's viscosity. Generally, using the Hazen-Williams equation or other hydraulic calculations, a 3-inch pipe can typically carry around 600 to 1,200 gallons per minute (GPM) under optimal conditions. To determine the precise maximum flow for a specific situation, one would need to consider the exact parameters of the pipe system.
Steel can withstand a maximum pressure of around 30,000 pounds per square inch (psi).
The pressure rating for a 168.3 mm outer diameter Schedule 40 pipe, typically made of carbon steel, is approximately 490 psi (pounds per square inch) at room temperature. However, this rating can vary based on factors such as temperature, material grade, and specific application conditions. Always refer to the relevant standards or manufacturer specifications for precise ratings in your specific context.