Cylinder without Circulation

• Inviscid-incompressible flow about a cylinder in uniform flow is equivalent to the superposition of a uniform flow and a doublet.

• The doublet has its axis of development parallel to the direction of the uniform flow (x-axis in this case).

• The potential and stream function for this flow will be the sum of those for uniform flow and doublet.

Potential Function

     
Stream function

     
Streamlines

In two dimensional flows, a streamline may be interpreted as

• The edge of a surface, on which the velocity vector is always tangential.

• There is no flow in the direction normal to the surface (characteristic of a solid impervious boundary ).
 
Hence, a streamline may also be considered as the contour of an impervious two-dimensional body .
 

1. The streamline C-D may be considered as the edge of a two-dimensional body .

2. Other streamlines form the flow about the boundary.

In order to form a flow about the body of interest, a streamline has to be determined which encloses an area whose shape is of practical importance in fluid flow. This streamline describes the boundary of a two-dimensional solid body. The remaining streamlines outside this solid region,  constitute the flow about this body.

If we look for the streamline whose value is zero, we will obtain



Replacing y by rsinθ, we have



Solution of Eq. 2

1. If θ = 0 or θ = π, the equation is satisfied. This indicates that the x-axis is a part of the streamline Ψ = 0.

2. When the quantity in the parentheses is zero, the equation is identically satisfied . Hence it follows that



Interpretation of the solution

There is a circle of radius   which is an intrinsic part of the streamline Ψ = 0.

This is shown in Fig. 2
 

Stagnation Points

Let us look at the points of intersection of the circle and x- axis, i.e. the points A and B in the above figure. The polar coordinates of these points are

 

The velocity at these points are found out by taking partial derivatives of the velocity potential in two orthogonal directions and then substituting the proper values of the coordinates.

 
 
   
 
The points A and B are the stagnation points through which the flow divides and subsequently reunites forming a zone of circular bluff body.

The circular region, enclosed by part of the streamline ψ = 0 could be imagined as a solid cylinder in an inviscid flow. At a large distance from the cylinder the flow is moving uniformly in a cross-flow configuration.
 


Figure 3 shows the streamlines of the flow.

1. The streamlines outside the circle describe the flow pattern of the inviscid irrotational flow across a cylinder.

2. The streamlines inside the circle may be disregarded since this region is considered as a solid obstacle.

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