What is the Formula for Calculating Gravity Flow Rate of Water in a Can?

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SUMMARY

The formula for calculating the gravity flow rate of water from a can is derived from the equation: flow rate = speed x area. The speed of the water can be approximated using Bernoulli's principle, specifically the equation vout = √(2gh), where g is the acceleration due to gravity (9.8 m/s²) and h is the height of the water level in the can. For a 440ml can positioned 125 cm high, the average speed of the water flow can be calculated, taking into account factors such as air resistance and the size of the opening. The flow rate decreases as the water level in the can drops.

PREREQUISITES
  • Understanding of Bernoulli's principle
  • Basic calculus for speed and flow rate calculations
  • Knowledge of fluid dynamics concepts
  • Familiarity with units of measurement (meters, seconds)
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  • Research the application of Bernoulli's equation in fluid dynamics
  • Learn about the effects of air resistance on fluid flow
  • Explore methods for calculating flow rates in different pipe sizes
  • Study the relationship between fluid height and outflow speed
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Engineers, physicists, and anyone involved in fluid dynamics or designing systems for liquid transfer will benefit from this discussion.

dug_rose
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Hi !

I need to find the rate of flow of water coming out of the bottom of a can, under gravity to put in the equation:

r. of f. = speed x area

How do I calculate the speed of which the water drops, taking into account height etc.

Many thanks,

Doug :smile:
 
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dug_rose said:
How do I calculate the speed of which the water drops, taking into account height etc.

Many thanks,

Doug :smile:

For that part you would need to use calculus i think. Give me the height of where the water drop starts to fall and i'll reply back.
 
hover said:
For that part you would need to use calculus i think. Give me the height of where the water drop starts to fall and i'll reply back.

Hi,

To give you a bit of background we need to drain a can of beer from the bottom of a can into a glass , 25 cm below. What factors effect the speed in which the liquid will drop so I can find the speed and use it to find the flow rate? The can will be on the edge of a table, so 125 cm high say. We are using a 440ml can if that makes any difference, through a machined mild steel pipe. I assuming 9.81 will be a mulitplier somewhere in there?

Thanks for any help you can give me, Doug
 
dug_rose said:
Hi,

To give you a bit of background we need to drain a can of beer from the bottom of a can into a glass , 25 cm below. What factors effect the speed in which the liquid will drop so I can find the speed and use it to find the flow rate? The can will be on the edge of a table, so 125 cm high say. We are using a 440ml can if that makes any difference, through a machined mild steel pipe. I assuming 9.81 will be a mulitplier somewhere in there?

Thanks for any help you can give me, Doug


The factors that will affect the speed the drop falls is the acceleration of gravity (9.8m/s) and air resistance.
 
Thanks a lot for your help hover
 
It will take about half a second for a drop to reach the ground. Using distance/time you will get the average speed of the fall. So 125/.5= 250cm/sec if i am correct. Although i got a answer i don't know if it is totally correct.

hope this helps
 
dug: the speed with which the beer starts to flow out the opening in the bottom is proportional to the square root of the level of beer in the can. So, it flows out fastest when the can is full, and the flow rate falls to zero, as the can empties.

A reasonable approximation to the mean outflow speed is given by an application of Bernoulli:

v_{out} = \sqrt{2gh}
g : acceleration due to gravity = 9.8m/s2
h : beer level in can, in meters (some number from 0 to about 0.15m, for a typical can)

It's just one step further to calculate the time it takes to drain the can, for a given hole size.
 
Hi, how are you?

Actually i have something to ask also.

I have a adhesive tank 1250kg ( dimension: 1400mm x 1100mm x 900mm) connect to a 11/2"

stainless steel pipe flow to another tank. So, may i know how to calculate the gravity flow

rate at maximum & minimum fluid level and also what is the pipe angle?

Thank you
 

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