Laminar Flow
Its is a flow in which the fluid particles move in parallel layers in a single direction.Due to the parabolic velocity distribution in laminar flow, a shearing stress is developed. As this shearing stress increases, the viscous forces become unable to damp out disturbances, and turbulent flow results. The region of change is dependent on the fluid velocity, density, and viscosity and the size of the conduit.
Reynolds number which is the ratio of inertial forces/viscous forces is basically used to determine the kind of flow that is whether it is laminar, turbulent or is in transition .
Reynolds number <2000 ==laminar
Reynolds number >2000 == turbulent.
R=VD$/u=VD/v
where
V=fluid velocity,ft/s(m/s)
D=pipe Diameter,ft(m)
$=density of fluid,lb-s2/ft4
u=viscosity of fluid lb-s/ft2(kg-s/m2)
v=u/$=kinematic viscosity,ft2/s(m2/s)
Diagram showing Laminar Flow
In laminar flow.the following equation for head loss due to friction can be developed by considering the forces acting on a cylinder of fluid in a pipe:
hf=32uLV/D2?g
where
hf=head loss due to friction,ft(m)
L=length of pipe section considered,ft(m)
g=Acceleration due to gravity(9.81 m/s2)
Turbulent Flow
The inertial forces are large due to which the viscous forces cannot dampen out the disturbances which in turn create eddies.These eddies have a rotational and translational velocity.
Factors Regarding Head Loss:
1) The head loss varies directly as the length of the pipe.
2) The head loss varies almost as the square of the velocity.
3) The head loss varies almost inversely as the diameter.
The head loss depends on the surface roughness of the pipe wall.
4) The head loss depends on the fluid density and viscosity.
5) The head loss is independent of the pressure.
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Tuesday, May 5, 2009
Fluid Flow in Pipes
Posted by cool at 3:53 AM
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Hydraulics
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1 Comment:
Thanks Explaining In Deatails about it. Very Helpful post.
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