Valve Flow Coefficient (Cv) is a valve's capacity for a liquid or gas to flow through it. It is technically defined as “the volume of water at 60°F (in US gallons) that will flow through a valve per minute with a pressure drop of 1 psi across the valve.”
How do you calculate flow rate on Cv?
The volume flow rate for liquids can be calculated by multiplying the fluid velocity times the flow area. Thus, Cv is numerically equal to the number of U.S. gallons of water at 60°F that will flow through the valve in one minute when the pressure differential across the valve is one pound per square inch.
What is Cv and how is it calculated?
In statistics, CV or coefficient of variation is a measure of the variability of a sample dataset expressed as a percentage of the mean. It is calculated as the ratio of the standard deviation of the sample to the mean of the sample, expressed as a percentage.24 Apr 2017
What does Cv mean in flow?
Valve Flow Coefficient
How do you calculate Cv factor?
The volume flow rate for liquids can be calculated by multiplying the fluid velocity times the flow area. Thus, Cv is numerically equal to the number of U.S. gallons of water at 60°F that will flow through the valve in one minute when the pressure differential across the valve is one pound per square inch.The volume flow ratevolume flow rateIn physics and engineering, in particular fluid dynamics, the volumetric flow rate (also known as volume flow rate, rate of fluid flow, or volume velocity) is the volume of fluid which passes per unit time; usually it is represented by the symbol Q (sometimes V̇). In hydrometry, it is known as discharge.https://en.wikipedia.org › wiki › Volumetric_flow_rateVolumetric flow rate - Wikipedia for liquids can be calculated by multiplying the fluid velocity times the flow area. Thus, Cv is numerically equal to the number of U.S. gallons of water at 60°F that will flow through the valve in one minute when the pressure differential across the valve is one pound per square inch.
What does Cv value mean?
coefficient of variation
How do you calculate valve Cv?
A practical example, if we wanted to calculate Cv to select a valve for 10 GPM flow with a required ΔP of 4, first find the square root of the ΔP √ 4=2, and use that to divide the flow of 10 GPM 10/2 = 5, which results in a Cv requirement of 5.30 Jun 2021