basic fluid flow problem - is there a way to switch pressure to a flow rate in analyt

vlnikolic · December 4, 2010, 11:02

hello to all

i would like to know is there a analytical equation for pressure drop for problem of fluid flow through rectangular channel

eg. i would like to prescribe Q (flow rate) instead of P (pressure) so is there a way to switch deltaP with some Q dependent formula

thank you very much

Jonas Holdeman · September 15, 2016, 08:58

For fully-developed ﬂows, the ﬂow ∆ψ and pressure gradient ∇P are known to be related by a geometry-dependent Poiseulle constant cP, n·∇P = cP ∆ψ . See: G P Galdi, An Introduction to the Mathematical Theory of the Navier-Stokes Equations, Vol. I – Linearized Steady Problems. Springer-Verlag, New York, 1994, p309.

FMDenaro · September 15, 2016, 11:59

Quote:

Originally Posted by vlnikolic

hello to all

i would like to know is there a analytical equation for pressure drop for problem of fluid flow through rectangular channel

eg. i would like to prescribe Q (flow rate) instead of P (pressure) so is there a way to switch deltaP with some Q dependent formula

thank you very much

are you talking about laminar or turbulent flow in a duct

FMDenaro · September 16, 2016, 04:07

just to add that for laminar incompressible steady flow, you can solve exactly the velocity field from the problem

d2w/dx^2 + d2w/dy^2 = Re*dp/dz

w=0 on the boundaries of the rectangular section

where w=w(x,y) is the stream-wise (z-direction) velocity, normal to the (x,y) plane of the rectangular section.

December 4, 2010, 11:02	basic fluid flow problem - is there a way to switch pressure to a flow rate in analyt	#1
vlnikolic New Member vladimir nikolic Join Date: Dec 2010 Posts: 2 Rep Power: 0	hello to all i would like to know is there a analytical equation for pressure drop for problem of fluid flow through rectangular channel eg. i would like to prescribe Q (flow rate) instead of P (pressure) so is there a way to switch deltaP with some Q dependent formula thank you very much

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September 15, 2016, 08:58		#2
Jonas Holdeman Senior Member Jonas T. Holdeman, Jr. Join Date: Mar 2009 Location: Knoxville, Tennessee Posts: 128 Rep Power: 18	For fully-developed ﬂows, the ﬂow ∆ψ and pressure gradient ∇P are known to be related by a geometry-dependent Poiseulle constant cP, n·∇P = cP ∆ψ . See: G P Galdi, An Introduction to the Mathematical Theory of the Navier-Stokes Equations, Vol. I – Linearized Steady Problems. Springer-Verlag, New York, 1994, p309.

September 16, 2016, 04:07		#4
FMDenaro Senior Member Filippo Maria Denaro Join Date: Jul 2010 Posts: 6,764 Rep Power: 71	just to add that for laminar incompressible steady flow, you can solve exactly the velocity field from the problem d2w/dx^2 + d2w/dy^2 = Re*dp/dz w=0 on the boundaries of the rectangular section where w=w(x,y) is the stream-wise (z-direction) velocity, normal to the (x,y) plane of the rectangular section.