Spray Nozzles used in the mining processes industry

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The discussion focuses on testing various spray nozzles with orifice sizes ranging from 5mm to 40mm, utilizing a setup that includes a pump, flowmeter, and nozzle rig. The user seeks clarification on whether the pressure at the nozzle, discharging onto open screen filters, can be considered atmospheric pressure for the purposes of calculating the coefficient of discharge. There is a debate regarding the interpretation of Bernoulli's theorem in this context, specifically concerning the pressure measurement at the nozzle. A diagram of the test setup is provided to illustrate the components involved. The conversation highlights the complexities of pressure measurement in mining processes and the importance of accurate calculations.
Michael V
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I'm testing various nozzles with orifice sizes from 5mm to 40mm. The feed water comes from a hopper that is open to atmosphere into a pump. The pump has a flowmeter at the outlet. Then a pipe feeds the pumped water to the nozzle rig. The nozzle is spraying down onto screen filters. In terms of Bernoulli's theorem,

\frac{P_{1}}{ρg}+\frac{V_{1}^{2}}{2g}+Z1 = \frac{P_{2}}{ρg}+\frac{V_{2}^{2}}{2g}+Z2

is P2 atmospheric pressure or how would I measure this?
 
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It would help if you could post a simple diagram of your test setup showing what you are trying to measure.
 
Here is the simple diagram. So we have a pressure reading at the gauge, which is the reading for the larger pipe in which the nozzle screws into. I'm trying to calculate a coefficient of discharge, so can it be said that our pressure at the nozzle will be atmospheric pressure as it is discharging onto a open screen? I do not agree that it is but another engineer thinks this is correct.
 

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