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Stagnation point

 
Sci-Tech Dictionary: stagnation point
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(stag′nā·shən ′pöint)

(fluid mechanics) A point in a field of flow about a body where the fluid particles have zero velocity with respect to the body.

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Photo showing stagnation point and attached vortex at an un-faired wing-root to fuselage junction on a Schempp-Hirth Janus C glider.

In fluid dynamics, a stagnation point is a point in a flow field where the local velocity of the fluid is zero.[1] Stagnation points exist at the surface of objects in the flow field, where the fluid is brought to rest by the object. The Bernoulli equation shows that the static pressure is highest when the velocity is zero and hence static pressure is at its maximum value at stagnation points. This static pressure is called the stagnation pressure.[2][3]

The Bernoulli equation applicable to incompressible flow shows that the stagnation pressure is equal to the dynamic pressure plus static pressure. Total pressure is also equal to dynamic pressure plus static pressure so, in incompressible flows, stagnation pressure is equal to total pressure. [3] (In compressible flows, stagnation pressure is also equal to total pressure providing the fluid entering the stagnation point is brought to rest isentropically.)[4]

Contents

Pressure coefficient

This information can be used to show that the pressure coefficient Cp at a stagnation point is unity (plus one):[5]

C_p={p-p_\infty \over q_\infty}

where:

Cp is pressure coefficient
p is static pressure at the point at which pressure coefficient is being evaluated
p_\infty is static pressure at points remote from the body (free-stream static pressure)
q_\infty is dynamic pressure at points remote from the body (free-stream dynamic pressure)

Stagnation pressure minus free-stream static pressure is equal to free-stream dynamic pressure; therefore the pressure coefficient Cp at stagnation points is +1.[5] The pressure at the stagnation piont is static plus dynamic.

Kutta condition

On a streamlined body fully immersed in a potential flow, there are two stagnation points — one near the leading edge and one near the trailing edge. On a body with a sharp point such as the trailing edge of a wing, the Kutta condition specifies that a stagnation point is located at that point. The streamline at a stagnation point is perpendicular to the surface of the body.

Notes

  1. ^ Clancy, L.J. Aerodynamics, Section 3.2
  2. ^ Fox, R. W.; McDonald, A. T. (2003). Introduction to Fluid Mechanics (4th ed.). Wiley. ISBN 0471202312. 
  3. ^ a b Clancy, L.J. Aerodynamics, Section 3.5
  4. ^ Clancy, L.J. Aerodynamics, Section 3.12
  5. ^ a b Clancy, L.J. Aerodynamics, Section 3.6

References

  • Clancy, L.J. (1975), Aerodynamics, Pitman Publishing Limited, London. ISBN 0 273 01120 0


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