UK Pylon Designs



Single-circuit PL1b S30

Double-circuit PL1b line near Kirknewton, West Lothian



Double-circuit PL16 line

near Currie, West Lothian

Double-circuit PL16 D30

Double-circuit PL16 D60 with huge height extension



L2 D at Glastonbury Festival

L2 towers are definitely taller than people!



L6 D with quad

conductor bundles

L6 D30

L6 D60 with twin

conductors



L8 D with huge height

extension

L8 D60 with no conductors

L8 D30 (both of them)



L12 D about to be

strung

L12 D25 about to be strung

Self-assembly L12?



L9 LD60 to reduce line height under flight

path from Filton.

L9 LD - the line here switches to L6 just

off shot to the right.



L12 LD low height tower at Thirsk

D90 tower in Essex



Two ST (single circuit terminal towers)

and a DJT (junction tower)

A DT (terminal tower)

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Prior to 1928, there were no standard tower designs at all. The then Central Electricity Board sought to introduce a standard design for the National Grid which was planned at that time. The final design was chosen by Sir Reginald Blomfield (a leading architect of the day) and was based on a submission by Milliken Brothers and much later designated PL1 and PL1b. Almost any single-circuit 132kV tower you have ever seen will be PL1b. Relatively few double circuit ones survive.After WW2, a new range of slimmer 132kV towers appeared again in both single and double circuit varieties. The single circuit ones are very rare, but there are lots of double circuit ones still around.In the 50s a new range of line designations were introduced, beginning with L66.L66 was the first range of 275kV towers introduced for the beginning of the supergrid in 1953. I think the only ones of these left are between Harker (near Carlisle) and Stella (Newcastle). This was followed by L2.L2 are very common and built by the thousand. They were the first design for 400kV in about 1956 (although many are strung for 275kV). The late lamented Pink Pylon was an L2, easily identifiable by the near equal-length crossarms.L3 is rarer. It was a 275kV-only design. The original design was very hard to distinguish from L2 apart from being smaller all round. Later versions have extended middle crossarms to reduce conductor clashing in high winds and are made from metric steel stocks and designated L3c.L6 was introduced around 1960 to provide additional current carrying capacity. L2 could take only twin 400mmconductors as maximum while L6 could take quad 400mmL8 was a replacement for L2, with extended middle crossarms to prevent conductor clashing. Like L2, it will work either at 275kV or 400kV. The current metric version is L8c.L12 is effectively the L6 replacement. It was introduced around 1980 and manages to have a slim tower body by making use of a lot of high tensile steel. Computer lattice design also allowed higher strength for a given weight of material. The slightly upturned crossarms make the tower instantly identifiable. These will take twin conductors up to 850mm, but all aluminium conductor rather than the heavier steel cored kind formerly used.L9 was a low-height equivalent of L6 and can be used interchangeably. They were sometimes used for visual impact reasons or to reduce the height under aircraft flight paths.The low height towers near Thirsk bear the same relationship to L12 as L9 does to L6, but they are not classed as a separate series - just as part of L12.L4M is the current design of 132kV tower with the slightly upturned crossarms that L12 have and look just like miniaturised L12.D, D30, D60 and so on represent deviation angles. A D30 tower is a double circuit tower which can take a deviation angle up to 30 degrees. D60, up to 60 degrees, and so on. A single circuit 30 degree angle tower is an S30. A straight line tower is just D (or S).Most tower series contain D, D30, D60 and D90 towers. A few also contain D10. D60 and D90 are very big beasts to resist the resultant force from the conductors which tends to pull the whole thing over to the inside of the angle. They generally have unequal length crossarms to provide more clearance on the outside of the angle and also to provide a tipping moment to the outside which helps balance the inward pull from the conductors.Part of the reduced visual impact strategy for L12 is that the angle towers are D25 and D55 and so just a little lighter than D30 and D60 would be.Early tower designs were often made to tolerate small deviation angles in the ordinary straight line towers. PL1b straight line towers are therefore designated S2 and D2. Also in addition PL1b had 10 degree angle towers with suspension insulators in addition to the version with tension insulators and these were D10S and S10S.L9 and low-height L12 have L prepended to their designations, i.e. LD, LD30, LD60.Terminal towers are generally DT and junction towers DJ or DJT.All tower types have a nominal "standard" height. Various height extensions are also available. For L12, these come in 3 metre increments and are designated E3, E6 and so on up to about E15. Height reductions are also possible and designated M3 and M6. Just to confuse the issue, the same nomenclature was used in pre-metric designs, so L2 comes in E8, E16, E24 and so on, but the numbers are in feet not metres!