it would flow more easily through a narrow pipe
Water will flow more easily through a wide pipe than a narrow pipe. This is because a wider pipe offers less resistance to the flow, allowing a greater volume of water to pass through simultaneously. In contrast, a narrow pipe restricts the flow, creating higher pressure and turbulence, which can impede the movement of water. Therefore, the diameter of the pipe significantly affects the flow rate.
300mm is a very low head, you can't expect much flow through that pipe, but you can work it out from the mechanical energy balance equation.
If water is flowing through pipe, no head pressure can build up. Blocking off flow of water will create head pressure in pipe as long as pipe is vertical. A vertical column of water creates head pressure.
A water pipe.
The maximum flow rate through a 1.5 inch pipe is typically around 9 gallons per minute.
it would flow more easily through a narrow pipe
Maximum PSI rating is on the outside rating of the pipe
A pipe fill chart for PVC pipes provides information on the maximum amount of water or other substances that can flow through the pipe at different flow rates and pipe sizes. It helps in determining the appropriate pipe size for a specific application and ensures efficient flow and performance.
Water will flow more easily through a wide pipe than a narrow pipe. This is because a wider pipe offers less resistance to the flow, allowing a greater volume of water to pass through simultaneously. In contrast, a narrow pipe restricts the flow, creating higher pressure and turbulence, which can impede the movement of water. Therefore, the diameter of the pipe significantly affects the flow rate.
of course liquid can flow through a pipe?
In an electrical circuit, resistance is like the narrowness of a pipe that restricts the flow of water. Just as resistance limits the flow of electricity in a circuit, a narrow pipe restricts the flow of water. Both resistance and a narrow pipe cause a decrease in the flow rate.
The velocity of a fluid particle at the center of a pipe in a fully developed flow is half of the maximum velocity in the pipe. This is known as the Hagen-Poiseuille flow profile for laminar flow.
A pressure difference between two points along the pipe is necessary for the sustained flow of water. This pressure difference creates a driving force that pushes the water through the pipe, overcoming frictional resistance and allowing for continuous flow.
Insufficient information, one needs to know the pressure of the water entering the pipe, the relative heights of both ends the pipe, the pressure of the water at the discharge of the pipe, the geometry of the pipe including the number and types of turns, and the pipe material or internal friction coefficient. Then you can calculate the flow.
A PVC pipe fill chart provides information on the maximum amount of water or other substances that can flow through different sizes of PVC pipes. It helps in determining the appropriate pipe size for specific applications to ensure efficient flow and prevent overloading the pipes.
A valve in a water pipe system controls the flow of water by opening or closing to regulate the amount of water passing through the pipe. It helps to stop or start the flow of water, as well as adjust the pressure and direction of the water within the system.