Venturi meter/ coefficient of discharge experiment

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SUMMARY

The discussion centers on the Venturi meter experiment, focusing on the calculation of theoretical and actual mass flow rates, coefficient of discharge, and percentage pressure loss. It was established that both the coefficient of discharge and percentage pressure loss decrease as mass flow rate decreases, attributed to changes in the Reynolds number and boundary layer effects. The conversation highlights the importance of flow velocity and measurement techniques in determining pressure loss and flow characteristics.

PREREQUISITES
  • Understanding of fluid dynamics principles, specifically Venturi meters
  • Familiarity with the coefficient of discharge and its significance
  • Knowledge of Reynolds number and its impact on flow behavior
  • Basic equations related to pressure loss in fluid systems
NEXT STEPS
  • Research the impact of Reynolds number on flow regimes in fluid dynamics
  • Study the principles of boundary layer theory and its effects on flow measurement
  • Explore the standard values for coefficient of discharge as per BS standards
  • Investigate methods to minimize measurement errors in fluid flow experiments
USEFUL FOR

Students and professionals in engineering, particularly those involved in fluid mechanics, experimental physics, and anyone conducting experiments with Venturi meters or analyzing fluid flow characteristics.

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Homework Statement




  • It was a standard venturi meter experiment where we calculated the theoretical and actual mass flow rates for different pressures and velocity's. the follow up questions were:
    -Compare the results of the coefficient of discharge obtained with typical values given in BS.
    -Comment on the results for the percentage pressure loss
    -Comment on the probable sources of any errors in your results

    Homework Equations



    my problem is not with the maths or equations but the ones used were the standard for mass flow rate and the coefficient of discharge. also:

    pressure loss (%) = 100(P1-P11)/P1

    The Attempt at a Solution


    I have completed all the equations and found that both the coefficient of discharge and the percentage pressure loss decrease as the mass flow rate decreases and i was just wondering what the scientific reason for this was?

    can anyone help?
 
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The exact geometry and velocities have a big effect but as the velocity through the orifice changes, the reynolds number of the flow will also change. In general this will mean that the thickness of the boundary layer or rather, the growth of the boundary layer along the pipe will be reduced for higher flow speeds. This will serve to increase the effective orifice diameter from a simplified view.

This should in turn reduce the pressure losses but without knowing more about the specific problem it's not possible to say. There are other factors to consider such as the development of turbulence along the length of the pipe or the method and location of measurements. You could be measuring pressure in a nice laminar attached region at one air speed which separates at a higher speed which means your measurements would be in a separated region of the flow.
 
thanks for your reply, but i still don't understand. why do the percentage pressure losses decrease as the mass flow rate decreases? what do u mean by boundary layers?

thanks
 

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