# Reynolds number

### From CFD-Wiki

The Reynolds number characterises the relative importance of inertial and viscous forces in a flow. It is important in determining the state of the flow, whether it is laminar or turbulent. At high Reynolds numbers flows generally tend to be turbulent, which was first recognized by Osborne Reynolds in his famous pipe flow experiments. Consider the momentum equation which is given below

The terms on the right are the inertial forces and those on the left correspond to viscous forces. If , , and are the reference values for velocity, length, density and dynamic viscosity, then

inertial force ~

viscous force ~

Their ratio is the Reynolds number, usually denoted as

In terms of the kinematic viscosity

the Reynolds number is given by

## Reynolds number as a ratio of time scales

Consider an impulsively started flat plate moving in its own plane with velocity . Due to the no-slip condition on the plate a boundary layer gradually develops on the plate. At time , the thickness of the boundary layer is of the order of (see Batchelor(1967), section 4.3). Let be the characteristic length scale. The time taken for viscous and convective effects to travel a distance is

and

The ratio of viscous to convective time scales is

Thus the Reynolds number is a measure of the viscous and convective time scales. A large Reynolds number means that viscous effects propagate slowly into the fluid. This is the reason why boundary layers are thin in high Reynolds number flows because the fluid is being convected along the flow direction at a much faster rate than the spreading of the boundary layer, which is normal to the flow direction.

## References

**Batchelor G K (1967)**,*An Introduction to Fluid Dynamics*, Cambridge University Press.