pylon$65781$ - translation to dutch
Diclib.com
ChatGPT AI Dictionary
Enter a word or phrase in any language 👆
Language:

Translation and analysis of words by ChatGPT artificial intelligence

On this page you can get a detailed analysis of a word or phrase, produced by the best artificial intelligence technology to date:

  • how the word is used
  • frequency of use
  • it is used more often in oral or written speech
  • word translation options
  • usage examples (several phrases with translation)
  • etymology

pylon$65781$ - translation to dutch

Long-distance anchor pylon; Branch pylon; Termination pylon; Switch pylon; Long distance anchor pylon; Anchor pylon; Deviation tower
  • Termination tower (overhead line to underground cable)
  • Two termination towers and one cable branch tower nearby
  • Future termination tower of a 110 kV-line while joins are installed

pylon      
n. paal (van telegraaf of electriciteit); bestuurstoren (voor vliegtuigen); hek, poort

Definition

Pylon
·noun An Egyptian gateway to a large building (with or without flanking towers).
II. Pylon ·noun A low tower, having a truncated pyramidal form, and flanking an ancient Egyptian gateway.
III. Pylon ·add. ·noun Formerly, a starting derrick (the use of which is now abandoned) for an Aeroplane.
IV. Pylon ·add. ·noun A tower, commonly of steelwork, for supporting either end of a wire, as for a telegraph line, over a long span.
V. Pylon ·add. ·noun A post, tower, or the like, as on an aerodrome, or flying ground, serving to bound or mark a prescribed course of flight.

Wikipedia

Dead-end tower

A dead-end tower (also anchor tower, anchor pylon) is a fully self-supporting structure used in construction of overhead power lines. A dead-end transmission tower uses horizontal strain insulators at the end of conductors. Dead-end towers may be used at a substation as a transition to a "slack span" entering the equipment, when the circuit changes to a buried cable, when a transmission line changes direction by more than a few degrees, or at intervals along a straight run to limit the extent of a catastrophic collapse.

Since dead-end towers require more material and are heavier and costlier than suspension towers, it is uneconomic to build a line with only self-supporting structures.

Dead-end towers are used at regular intervals in a long transmission line to limit the cascading tower failures that might occur after a conductor failure. An in-line dead-end tower will have two sets of strain insulators supporting the lines in either direction, with the lines connected by a jumper between the two segments. Dead-end towers can resist unbalanced forces due to line weight and tension, contrasted with suspension towers which mostly just support the conductor weight and have relatively low capacity for unbalanced load. Dead-end towers may use earth anchor cables to compensate for the asymmetric attachment of the conductors. They are often used when the power line must cross a large gap, such as a railway line, river, or valley.

Dead-end towers may be constructed of the same materials as other structures of the line. They may be steel or aluminum lattice structures, tubular steel, concrete, or wood poles.