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Conductor_gallop abstract "Conductor gallop is the high-amplitude, low-frequency oscillation of overhead power lines due to wind. The movement of the wires occur most commonly in the vertical plane, although horizontal or rotational motion is also possible. The natural frequency mode tends to be around 1 Hz, leading the often graceful periodic motion to also be known as conductor dancing. The oscillations can exhibit amplitudes in excess of a metre, and the displacement is sometimes sufficient for the phase conductors to infringe operating clearances (coming too close to other objects), and causing flashover. The forceful motion also adds significantly to the loading stress on insulators and electricity pylons, raising the risk of mechanical failure of either.The mechanisms that initiate gallop are not always clear, though it is thought to be often caused by asymmetric conductor aerodynamics due to ice build up on one side of a wire. The crescent of encrusted ice approximates an aerofoil, altering the normally round profile of the wire and increasing the tendency to oscillate.Gallop can be a significant problem for transmission system operators, particularly where lines cross open, windswept country and are at risk to ice loading. If gallop is likely to be a concern, designers can employ smooth-faced conductors, whose improved icing and aerodynamic characteristics reduce the motion. Additionally, anti-gallop devices may be mounted to the line to convert the lateral motion to a less damaging twisting one. Increasing the tension in the line and adopting more rigid insulator attachments have the effect of reducing galloping motion. These measures can be costly, are often impractical after the line has been constructed, and can increase the tendency for the line to exhibit high frequency oscillations.Once gallop has started on a transmission line, an operator's options are more limited. If ice loading is suspected, it may be possible to increase power transfer on the line, and so raise its temperature by Joule heating, melting the ice. The sudden loss of ice from a line can result in a phenomenon called "jump", in which the catenary dramatically rebounds upwards in response to the change in weight. If the risk of trip is high, the operator may elect to pre-emptively switch out the line in a controlled manner rather than face an unexpected fault. The risk of mechanical failure of the line remains.".
Conductor_gallop wikiPageExternalLink clip_23_49.mpg.
Conductor_gallop wikiPageID "4133988".
Conductor_gallop wikiPageRevisionID "574326595".
Conductor_gallop hasPhotoCollection Conductor_gallop.
Conductor_gallop subject Category:Aerodynamics.
Conductor_gallop subject Category:Electric_power_transmission.
Conductor_gallop subject Category:Mechanical_vibrations.
Conductor_gallop type Abstraction100002137.
Conductor_gallop type Act100030358.
Conductor_gallop type Action100037396.
Conductor_gallop type Change100191142.
Conductor_gallop type Event100029378.
Conductor_gallop type MechanicalVibrations.
Conductor_gallop type Motion100331950.
Conductor_gallop type PsychologicalFeature100023100.
Conductor_gallop type Vibration100345926.
Conductor_gallop type YagoPermanentlyLocatedEntity.
Conductor_gallop comment "Conductor gallop is the high-amplitude, low-frequency oscillation of overhead power lines due to wind. The movement of the wires occur most commonly in the vertical plane, although horizontal or rotational motion is also possible. The natural frequency mode tends to be around 1 Hz, leading the often graceful periodic motion to also be known as conductor dancing.".
Conductor_gallop label "Conductor gallop".
Conductor_gallop label "ギャロッピング現象".
Conductor_gallop sameAs ギャロッピング現象.
Conductor_gallop sameAs m.0bkyw4.
Conductor_gallop sameAs Q5159402.
Conductor_gallop sameAs Q5159402.
Conductor_gallop sameAs Conductor_gallop.
Conductor_gallop wasDerivedFrom Conductor_gallop?oldid=574326595.
Conductor_gallop isPrimaryTopicOf Conductor_gallop.