Calculating Water Velocity with Static Pressure

AI Thread Summary
To calculate water velocity from static pressure in a vertical tube, Bernoulli's equation is applicable, but additional information beyond static pressure is necessary. Pressure head, energy within the water, and differential pressure against friction forces all play a role in determining flow rate. For laminar flow, Poiseuille's Law can be used, where the flow rate is influenced by pressure difference, viscosity, and tube radius. Understanding these principles is crucial for accurate calculations. Proper application of these equations will yield the desired flow rate based on the pressure value.
Idea04
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with static pressure(water in a tube or column) not moving. Is there an equation I can use to determine the velocity of the water by the pressure of the water in the tube or column.
 
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Idea04 said:
with static pressure(water in a tube or column) not moving. Is there an equation I can use to determine the velocity of the water by the pressure of the water in the tube or column.
In the first part, you write "static pressure(water in a tube or column) not moving." Then you ask about determining velocity. This is confusing.

There is a pressure head, based on the elevation of the water. There is pressure based on the energy within the water, if the water is confined in a pipe, and there is the differential pressure applied to make the water flow in opposition to friction forces.

Bernoulli's equation would be appropriate. But one has to know more than just static pressure.

One can find useful information here -
http://www.engineersedge.com/fluid_flow/fluid_flow_table_content.htm

Also - Poiseuille's Law -
http://hyperphysics.phy-astr.gsu.edu/hbase/poicon.html

In the case of smooth flow (laminar flow), the volume flowrate is given by the pressure difference divided by the viscous resistance. This resistance depends linearly upon the viscosity and the length, but the fourth power dependence upon the radius is dramatically different. Poiseuille's law is found to be in reasonable agreement with experiment for uniform liquids (called Newtonian fluids) in cases where there is no appreciable turbulence.

More on Bernoulli's Equation
http://hyperphysics.phy-astr.gsu.edu/hbase/pber.html#beq
http://hyperphysics.phy-astr.gsu.edu/hbase/bercon.html

and
http://wright.nasa.gov/airplane/bern.html
 
Last edited:
Sorry I didn't explain properly. What I meant was water in a tube that is vertical. The water flows by gravity into another tube. I know how to calculate the pressure of the fluid, But I do not know how to calculate the flow rate of the water using the pressure value of the water in the tube.
 

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