Stagnation Pressure
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Stagnation Pressure

In fluid dynamics, stagnation pressure (or pitot pressure) is the static pressure at a stagnation point in a fluid flow.[1] At a stagnation point the fluid velocity is zero. In an incompressible flow, stagnation pressure is equal to the sum of the free-stream static pressure and the free-stream dynamic pressure.[2]

Stagnation pressure is sometimes referred to as pitot pressure because it is measured using a pitot tube.


The magnitude of stagnation pressure can be derived from Bernoulli Equation[3][1] For incompressible flow and no height changes. For any two points 1 and 2:

The two points of interest are 1) in the freestream flow at relative speed where the pressure is called the "static" pressure, (for example well away from an airplane moving at speed ); and 2) at a "stagnation" point where the fluid is at rest with respect to the measuring apparatus (for example at the end of a pitot tube in an airplane).




is the stagnation pressure
is the fluid density
is the speed of fluid
is the static pressure

So the stagnation pressure is increased over the static pressure, by the amount which is called the "dynamic" or "ram" pressure because it results from fluid motion. In our airplane example, the stagnation pressure would be atmospheric pressure plus the dynamic pressure.

In compressible flow however, the fluid density is higher at the stagnation point than at the static point. Therefore, can't be used for the dynamic pressure. For many purposes in compressible flow, the stagnation enthalpy or stagnation temperature plays a role similar to the stagnation pressure in incompressible flow. [5]

Compressible flow

Stagnation pressure is the static pressure a gas retains when brought to rest isentropically from Mach number M.[6]

or, assuming an isentropic process, the stagnation pressure can be calculated from the ratio of stagnation temperature to static temperature:


is the stagnation pressure
is the static pressure
is the stagnation temperature
is the static temperature
ratio of specific heats

The above derivation holds only for the case when the gas is assumed to be calorically perfect (specific heats and the ratio of the specific heats are assumed to be constant with temperature).

See also


  1. ^ a b Clancy, L.J., Aerodynamics, Section 3.5
  2. ^ Stagnation Pressure at Eric Weisstein's World of Physics (Wolfram Research)
  3. ^ Equation 4, Bernoulli Equation - The Engineering Toolbox
  4. ^ Houghton, E.L and Carpenter P.W. Aerodynamics (2003), Section 2.3.1
  5. ^ Clancy, L.J. Aerodynamics, Section 3.12
  6. ^ Equations 35,44, Equations, Tables and Charts for Compressible Flow


  • L. J. Clancy (1975), Aerodynamics, Pitman Publishing Limited, London. ISBN 0-273-01120-0
  • Cengel, Boles, "Thermodynamics, an engineering approach, McGraw Hill, ISBN 0-07-254904-1

External links

  This article uses material from the Wikipedia page available here. It is released under the Creative Commons Attribution-Share-Alike License 3.0.



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