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Explain in depth how power transmission lines are protected from lightning strikes and are insulated from electrical arcing.
This isn't in detail because I'm on my iPod so I'll keep it brief.
Lightning strikes and electrical arcs are a problem because it can severly affect power transmission from a supplier to a consumer, damage equipment at the substations, pole transformers and household equipment and increase the already high electrical losses.
Power lines are protected from lightning strikes by using shield conductors. Shield conductors are open wires that are connected directly to a metal transmission tower while usually carrying no current. Shield conductors can be found at the top of metal transmission towers and because light has a tendency to strike the highest point of a structure, the shield conductors will be struck and electricity channelled to the ground before power lines are affected.
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Electrical arcing is minimised by fully insulating all current carrying wires and using suspension insulators. Suspension insulators are made of ceramic insulating discs which increase the distance between the tower and the transmission lines which carry very high voltages. Increasing the distance between the transmission lines and the metal tower disallows sparks from being produced between them. In addition, the increase in distance also causes less eddy currents to be induced in the tower due to the constantly changing magnetic flux made by the AC electricity in the transmission lines - this improves efficiency of power transmission.
(Insert image of suspension insulators)
