Velocity Profile in a Circular Pipe

This Excel spreadsheet calculates and plots the velocity profile of a power-law fluid in a circular pipe. The spreadsheet is valid for Newtonian, pseudoplastic and dilatant fluids.

Velocity Profile of a Newtonian Liquid

The velocity profile of a Power-law fluid is given by this equation.

Equation for the velocity profile in a circular pipe
where
  • r is the radial position i.e. distance from the center line (m)
  • R is the pipe radius (m)
  • u(r) is the axial velocity (m s-1)
  • dp/dz is the axial pressure gradient (Pa m-1)
  • K is the flow consistency index (Pa sn)
  • n is the flow behavior index
The equation above is only valid for developed steady-state laminar flow in a circular pipe. The entrance length (that is, the pipe length needed to develop a steady-state velocity profile) for laminar flow is given by this correlation.

Correlation to give the entrance length necessary to fully develop steady state flow in a circular pipe
The value of n determines the relationship between the axial velocity and radial distance. If
  • n = 1, the fluid is Newtonian
  • n < 1, the fluid is pseudoplastic
  • n > 1, the fluid is dilatant
The chart below gives the velocity profile for different values of n (with all other parameters constant).


The spreadsheet is simple to use. Simply enter the parameters

Calculate the velocity profile in a spreadsheet

Excel will then plot the velocity profile from the centerline to the surface of the pipe. As expected, the velocity profile is symmetrical.

The transient velocity profile in laminar flow is more difficult to calculate; this requires the numerical solution of a partial differential equation via a finite difference scheme. This will be the subject of another spreadsheet.

Download Spreadsheet to Calculate the Velocity Profile in a Circular Pipe

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