The factors affecting the flow of liquid in a pipe include the pipe diameter, the viscosity of the liquid, the pressure difference across the pipe, the length of the pipe, and the roughness of the pipe walls. These factors collectively determine the flow rate and efficiency of the liquid moving through the pipe.
The flow of water in a pipe is analogous to the flow of charge in a wire as both involve the movement of particles through a medium. In a pipe, water molecules move due to a pressure difference, while in a wire, charges move due to a voltage difference. Both systems exhibit resistance to flow, which can be influenced by factors such as pipe diameter or wire material.
Factors that affect fluid resistance include the viscosity of the fluid, the velocity of the fluid flow, the diameter of the pipe or channel through which the fluid is flowing, and the length of the pipe or channel. Additionally, the roughness of the pipe walls and any obstacles or bends in the flow path can also impact fluid resistance.
The resistance to water flow in a rough or partially clogged pipe is similar to a conductor having high electrical resistance, which slows down the flow of electricity through it. In both cases, the resistance impedes the movement of the respective materials (water or electricity) through the pipe or conductor, affecting efficiency and performance.
the pump develops pressure to have the ability to make a flow of a gas or fluid take place through a vessel, pipework or valve system, as long as there is an open end to the pipe system or vessel allowing distribution of fluid to an outlet or a return pipe back to the pump body.
An electromagnetic flow meter is a type of flow meter that measures the flow of conductive liquids based on Faraday's law of electromagnetic induction. It works by creating a magnetic field through the liquid and measuring the voltage produced as the liquid flows through it. This voltage is proportional to the flow rate of the liquid.
1.Flow Rate 2.Inside diameter of the pipe 3.Roughness 4.Corrosion and Scale Deposits 5.Viscosity of the liquid 6.Length of the pipe 7.Fittings 8.Straightness of the pipe
of course liquid can flow through a pipe?
A device for controlling the flow of liquid can sometimes be a pipe.
Pressure loss is typically larger in gas-liquid flow compared to liquid flow due to the compressibility of gas. Gas-liquid flow can experience significant pressure drops due to the expansion and compression of gas bubbles within the liquid, leading to greater friction losses.
The velocity of flow in any pipe is determined by three things. The internal pipe diameter, the mass flow rate of the liquid and the fluid density.
An externally operated valve regulating the flow of a liquid inside a pipe.
That is a chimney.
That depends entirely on the viscosity of the liquid in the pipe ! Water would flow faster than oil !
In order to effectively answer this question more factors would need to be known. The most important factor being the type of liquid flowing through the pipe. Different liquids have a different rate of flow, even with varying elevations.
You speed up the pump, which increases its pressure on the solid or liquid. Narrowing the pipe does not increase the pressure or flow rate, it only increases the speed at which the liquid or gas passes by a given point.
you have a severe pressure drop and a loss of velocity
The pressure in an enclosed pipe is not always equal in all areas. It can vary along the length of the pipe due to factors such as flow rate, pipe diameter, elevation changes, and presence of obstacles. In general, pressure decreases along the direction of flow as energy is lost due to friction and other factors.