- Kármán vortex street
A Kármán vortex street is a repeating pattern of swirling vortices caused by the unsteady separation of flow over bluff bodies. They are named after the
engineer andfluid dynamicist ,Theodore von Kármán [Theodore von Kármán: Aerodynamics] .Analysis
A vortex street will only be observed over a given range of Reynolds numbers "Re", typically above a limiting "Re" value of about 90. The range of "Re" values will vary with the size and shape of the body from which the eddies are being shed, as well as with the
kinematic viscosity of the fluid. The governing parameter, the Reynolds number, is essentially a measure of the ratio ofinertia l to viscous forces in the flow and is defined as:
Where:
* = diameter of the cylinder (or some other suitable measure of width of non-circular bodies)
* = steadyvelocity of the flow upstream of the cylinder
* = The kinematic viscosity of the fluid.Over a large "Re" range (47
7 for circular cylinders), eddies are shed continuously from each side of the body, forming rows of vortices in its wake . The alternation leads to the core of a vortex in one row being opposite the point midway between two vortex cores in the other row, giving rise to the distinctive pattern shown in the picture. Ultimately, theenergy of the vortices is consumed by viscosity as they move further down stream and the regular pattern disappears.When a vortex is shed, an asymmetrical flow pattern forms around the body, which therefore changes the
pressure distribution. This means that the alternate shedding of vortices can create periodic lateral forces on the body in question, causing it to vibrate. If the vortex sheddingfrequency is similar to the natural frequency of a body or structure, it causesresonance . It is this forced vibration which, when at the correct frequency, causes suspended telephone orpower line s to "sing", the antennae on your car to vibrate more strongly at certain speeds and it is also responsible for the fluttering of Venetian blinds as the wind passes through them.Engineering problems
Periodic forcing set up in this way can be highly undesirable and hence it is important for engineers to account for the possible effects of vortex shedding when designing a wide range of structures, from
submarine periscope s to industrialchimney s. In order to prevent the unwanted vibration of such cylindrical bodies, a longitudinal fin can be fitted on the downstream side, which, as long as it is longer than the diameter of the cylinder, will prevent the eddies from interacting and consequently they remain attached. Obviously for a tall building or mast, the relative wind could come from any direction. For this reason, helical projections which look like large screw threads are sometimes placed at the top, which effectively create unsymmetrical three-dimensional flow thereby discouraging the alternate shedding of vortices. Even more seriousinstability can be created in concretecooling tower s for example, especially when built together in clusters. Vortex shedding caused the collapse of three towers atFerrybridge power station in 1968 during high winds.When considering a long circular cylinder, the frequency of vortex shedding is given by the empirical formula
:
Where:
*"f" = vortex shedding frequency
This formula will generally hold true for the range 250 < Re < 2 × 105. The dimensionless parameter "fd/V" is known as the
Strouhal number and is named after the Czech physicist,Vincenc Strouhal (1850-1922) who first investigated the steady humming or singing of telegraph wires in 1878.Recent studies have shown that
insects such asbee s borrow energy from the vortices that form around their wings during flight. Vortices inherently create drag. Insects can recapture some of this energy and use it to improve speed and maneuverability: They rotate their wings before starting the return stroke, and the wings are lifted by the eddies of air created on the downstroke. The high frequency oscillation of insect wings means that many hundreds of vortices are shed every second. However, this leads to a symmetric vortex street pattern, unlike the ones shown above.See also
*
Vortex shedding
*Vortex induced vibration References
External links
* [http://www.mcef.ep.usp.br/staff/jmeneg/cesareo/vort2.gifVon Kármán vortex street animation] and [http://www.mcef.ep.usp.br/staff/jmeneg/cesareo/Cesareo_Page3.html explanation] . dead link|date=June 2008
* [http://www.enseeiht.fr/hmf/travaux/CD0102/travaux/optmfn/gpfmho/01-02/grp1/presenta.htm Vortex streets and Strouhal instability]
* [http://www.sciam.com/article.cfm?articleID=000DF125-5545-1C75-9B81809EC588EF21 How Insects Fly]
* [http://www.youtube.com/watch?v=_AJgEa2dbJU YouTube] — Flow visualisation of the vortex shedding mechanism on circular cylinder using hydrogen bubbles illuminated by a laser sheet in a water channel
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