vortex shedding - определение. Что такое vortex shedding
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Что (кто) такое vortex shedding - определение

TERM IN FLUID DYNAMICS
Helical strake; Scruton strake; Von Kármán vortex shedding
  • Heard Island]] (''bottom left'') in the southern Indian Ocean resulted in this [[Kármán vortex street]] in the clouds
  • A helical strake on a chimney stack

Vortex ring         
  • Pappus of the dandelion which produces a separated vortex ring in order to stabilize flight.
  • Flow around an idealized vortex ring
  • The curved arrows indicate airflow circulation about the rotor disc.  The helicopter shown is the [[RAH-66 Comanche]].
TORUS-SHAPED VORTEX IN A FLUID OR GAS
Spherical vortex; Hill's vortex; Vortex ringstate; Toroidal vortex; Hill's Spherical Vortex
A vortex ring, also called a toroidal vortex, is a torus-shaped vortex in a fluid; that is, a region where the fluid mostly spins around an imaginary axis line that forms a closed loop. The dominant flow in a vortex ring is said to be toroidal, more precisely poloidal.
Vortex ring         
  • Pappus of the dandelion which produces a separated vortex ring in order to stabilize flight.
  • Flow around an idealized vortex ring
  • The curved arrows indicate airflow circulation about the rotor disc.  The helicopter shown is the [[RAH-66 Comanche]].
TORUS-SHAPED VORTEX IN A FLUID OR GAS
Spherical vortex; Hill's vortex; Vortex ringstate; Toroidal vortex; Hill's Spherical Vortex
·add. ·- A ring-shaped mass of moving fluid which, by virtue of its motion of rotation around an axis disposed in circular form, attains a more or less distinct separation from the surrounding medium and has many of the properties of a solid.
Kármán vortex street         
REPEATING PATTERN OF SWIRLING VORTICES CAUSED BY THE UNSTEADY SEPARATION OF FLOW OF A FLUID AROUND BLUNT BODIES
Vortex street; Vortex trail; Vortex train; Von Karman vortex street; Vortex Street; Kármán vortex trail; Kármán Vortex Trail; Kármán Trail; Von Karman street; Karmen vortice; Karmen vortices; Karman vortex; Karman vortices; Kármán vortex; Kármán vortices; Von Kármán vortices; Von Kármán vortex; Von Karman vortices; Von Karman vortex; Karman Vortex Trail; Karman vortex street; Karman vortex trail; Karman Trail; Von Kármán vortex street; Karman wind
In fluid dynamics, a Kármán vortex street (or a von Kármán vortex street) is a repeating pattern of swirling vortices, caused by a process known as vortex shedding, which is responsible for the unsteady separation of flow of a fluid around blunt bodies.

Википедия

Vortex shedding

In fluid dynamics, vortex shedding is an oscillating flow that takes place when a fluid such as air or water flows past a bluff (as opposed to streamlined) body at certain velocities, depending on the size and shape of the body. In this flow, vortices are created at the back of the body and detach periodically from either side of the body forming a Kármán vortex street. The fluid flow past the object creates alternating low-pressure vortices on the downstream side of the object. The object will tend to move toward the low-pressure zone.

If the bluff structure is not mounted rigidly and the frequency of vortex shedding matches the resonance frequency of the structure, then the structure can begin to resonate, vibrating with harmonic oscillations driven by the energy of the flow. This vibration is the cause for overhead power line wires humming in the wind, and for the fluttering of automobile whip radio antennas at some speeds. Tall chimneys constructed of thin-walled steel tubes can be sufficiently flexible that, in air flow with a speed in the critical range, vortex shedding can drive the chimney into violent oscillations that can damage or destroy the chimney.

Vortex shedding was one of the causes proposed for the failure of the original Tacoma Narrows Bridge (Galloping Gertie) in 1940, but was rejected because the frequency of the vortex shedding did not match that of the bridge. The bridge actually failed by aeroelastic flutter.

A thrill ride, "VertiGo" at Cedar Point in Sandusky, Ohio suffered vortex shedding during the winter of 2001, causing one of the three towers to collapse. The ride was closed for the winter at the time. In northeastern Iran, the Hashemi-Nejad natural gas refinery's flare stacks suffered vortex shedding seven times from 1975 to 2003. Some simulation and analyses were done, which revealed that the main cause was the interaction of the pilot flame and flare stack. The problem was solved by removing the pilot.