English, asked by milind2000t, 11 months ago

short note on seperation of boundary layer​

Answers

Answered by prachi6133
8

Subsequently the thickness of the boundary layer increases rapidly in the direction of flow. If these forces act over a long stretch the boundary layer gets separated from the surface and moves into the main stream. This phenomenon is called separation....

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Answered by NiharikaVeer
1

Answer:

When the pressure increases in the direction of flow (dpdx>0), the pressure forces act opposite to the direction of flow and further increase the retarding effect of the viscous forces. Subsequently the thickness of the boundary layer increases rapidly in the direction of flow. If these forces act over a long stretch the boundary layer gets separated from the surface and moves into the main stream. This phenomenon is called separation. The point of the body at which the boundary layer is on the verge of separation from the surface is called “point of separation”.

Consider a flow over a curved surface as shown in fig

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As the fluid flows round the surface (the area of flow decreases) it is accelerated over the left hand section until at point B the velocity just outside the boundary is maximum and the pressure is minimum (as shown by the graph below). Thus from A and B the pressure gradient is negative. As long as dpdx<0 , the entire boundary layer moves forward.

Beyond B(i.e. along the region BCDE), the area of flow increases and hence velocity of flow decreases; due to decrease of velocity the pressure increases (in the direction of flow) and hence the pressure gradient dpdx is positive i.e. dpdx>0. The value of the velocity gradient (dudy) at the boundary layer is zero at the point C, this point is known as a separation point (the boundary layer start separating from the surface because further retardation of flow near the surface is physically impossible) large turbulent eddies are formed downstream of the point of separation. The disturbed region in which the eddies are formed is called turbulent wake.

Methods of preventing the separation of boundary layer:

Streamlining the body shape.

Tripping the boundary layer from laminar to turbulent by provision of surface roughness.

Sucking the retarded flow.

Injecting the high velocity fluid in the boundary layer

Providing the slots near the leading edge.

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