Dean number

The Dean number (D) is a dimensionless group in fluid mechanics, which occurs in the study of flow in curved pipes and channels. It is named after the British scientist W. R. Dean, who studied such flows in the 1920s (Dean, 1927, 1928).

Definition

The Dean number is typically denoted by De (or Dn). For a flow in a pipe or tube it is defined as:

where

The Dean number is therefore the product of the Reynolds number (based on axial flow through a pipe of diameter ) and the square root of the curvature ratio.

The Dean equations

The Dean number appears in the so-called Dean equations. These are an approximation to the full NavierStokes equations for the steady axially uniform flow of a Newtonian fluid in a toroidal pipe, obtained by retaining just the leading order curvature effects (i.e. the leading-order equations for ).

We use orthogonal coordinates with corresponding unit vectors aligned with the centre-line of the pipe at each point. The axial direction is , with being the normal in the plane of the centre-line, and the binormal. For an axial flow driven by a pressure gradient , the axial velocity is scaled with . The cross-stream velocities are scaled with , and cross-stream pressures with . Lengths are scaled with the tube radius .

In terms of these non-dimensional variables and coordinates, the Dean equations are then

where

is the convective derivative.

The Dean number D is the only parameter left in the system, and encapsulates the leading order curvature effects. Higher-order approximations will involve additional parameters.

For weak curvature effects (small D), the Dean equations can be solved as a series expansion in D. The first correction to the leading-order axial Poiseuille flow is a pair of vortices in the cross-section carrying flow form the inside to the outside of the bend across the centre and back around the edges. This solution is stable up to a critical Dean number (Dennis & Ng 1982). For larger D, there are multiple solutions, many of which are unstable.

References

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