Buckingham Pi Theory: Propeller & Pipe Flow Analysis for Jay

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jayjay112
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Hi I feel I am competent enough at the Buckingham Pi theory regarding both Pipe flow and for Propeller analysis.

Derive a relationship between the volume flow rate and rotational speed of propeller in terms of the diameter of the pipe and propeller and also fluid characteristics density and viscosity of the fluid.

For a flow through a closed, circular sectioned pipe which is metered by measuring the speed of rotation of a propeller having its axis along the pipe central line.


I am unsure how to start this problem? I am able to do dimensional analysis for both individually but I don't understand how to combine the two.

Can someone please suggest how to start?For Propeller the variables I have are: (d, u, p N, U)
d = diameter
u = viscosity
p = rho density
N = revolutions per s
U = advance speed

For Pipe: (delta P, V, D, e, v, p)
delta P = change in pressure
V = speed of flow
D = pipe diameter
e = roughness
v = viscosity
p = rho density
I really appreciate the help.
Jay
 
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