Calculating Jet Pressure at Nozzle orifice

AI Thread Summary
To calculate the jet pressure at the nozzle exit, it's important to note that the pressure will be zero since it is open to the atmosphere. The focus should instead be on fluid momentum, which is determined by fluid velocity. To find the fluid velocity, Bernoulli's equation can be applied, considering the head ranges provided by the pump. The equation takes into account the initial pressure and head, as well as the elevation changes. Understanding these principles will help in accurately determining the jet pressure and performance of the system.
kunalv
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Hello,

So i am using this 3HP pump for which the head ranges from 6 meters to 14 meters. Discharge being 19.1 LPS to 10.4 LPS respectively.

I am using a 2" pipe to carry the water upto a height of approx. 3 meters, which is then routed into a jet manifold containing number of jet nozzles.

The water is then sprayed out of these nozzles onto the component for washing.

So, my question is, what would be the pressure of the jet at the nozzle exit? And how do i calculate it?

Sorry if this is a stupid question :redface:

Any help would be appreciated.

Thanks.
 
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The pressure at the exit of your nozzle would be zero because you're open to atmosphere. At this point you should be more interested in the fluid momentum which will be based off of fluid velocity. To caclulate the fluid velocity you would need to use Bernoulli's equation to take in consideration of the head ranges and the initial head or pressure the pump will provide.

Bernoulli's equation is P1+1/2ρv12+γz1=P2+1/2ρv22+γz2

You can learn more about Bernoulli's equation here Bernoulli's[/PLAIN] Equation
 
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