














Study with the several resources on Docsity
Earn points by helping other students or get them with a premium plan
Prepare for your exams
Study with the several resources on Docsity
Earn points to download
Earn points by helping other students or get them with a premium plan
An overview of substations in power transmission systems, detailing their functions and key components. It explains how substations transform electric power to usable forms, facilitate switching, and provide safety measures. Essential components such as busbars, disconnects, circuit breakers, current transformers, voltage transformers, earthing switches, and surge arrestors, outlining their roles in maintaining a safe and efficient power system. Additionally, it includes preventive maintenance practices for these components, ensuring operational reliability and safety. This resource is valuable for understanding the infrastructure and maintenance of electrical power substations, crucial for electrical engineering students and professionals. (447 characters)
Typology: Study Guides, Projects, Research
1 / 22
This page cannot be seen from the preview
Don't miss anything!















SUBSTATION - A station in the power transmission system at which electric power is transformed to a conveniently used form. The station may consist of transformers, switches, circuit breakers and other auxilliary equipment. Its main function is to receive energy transmitted at high voltage from the generating station, by either step-up or step-down the voltage to a value appropriate for local use and provide facilities for switching. Substations have some additional functions. Its provide points where safety devices may be installed to disconnect circuits or equipment in the event of trouble. Some substation, such as power plant switchyard are simply switching stations where different connections can be made between various transmission lines.
BUSBAR (or bus, for short) – is a term we use for a main bar or conductor carrying an electric current to which many connection may be made. Buses are merely convenient means of connecting switches and other equipment into various arrangements. The usual arrangement of connections in most substations permit working on almost any piece of equipment without interruption to incoming or outgoing feeders. In the switchyard or substation, buses are open to the air. Aluminum or copper conductors supported on porcelain insulators, carry the electric energy from point to point.
Busbars (long heavy tube type)
A B Disconnect Switch ( moving contact rod (A) & contacts with flexible fingers (B) )
CIRCUIT BREAKER – is used to interrupt circuits while current is flowing through them. The making and breaking of contacts in a Oil type circuit breaker are done under oil, this oil serves to quench the arc when the circuit is opened. The operation of the breaker is very rapid when opening. As with the transformer, the high voltage connections are made through bushings. Circuit breakers of this type are usually arranged for remote electrical control from a suitably located switchboard. Some recently developed circuit breakers have no oil, but put out the arc by a blast of compressed air; these are called air circuit breakers. Another type encloses the contacts in a vacuum or a gas (sulfur hexafluoride, SF 6 ) which tends to self maintain the arc.
CURRENT TRANSFORMER – Current transformer are used with ammeters, watt meters, power-factor meters, watt-hour meters,compensators, protective and regulating relays and the trip coil of circuit breakers. One current transformer can be used to operate several instruments, provided that the combined burden does not exceed that for which the transformer is designed and compensated. The current transformer is connected directly in series with the line.
EARTHING SWITCH – also known as ground disconnect, which used to connects the equipment to a grid of electrical conductors buried in the earth on the station property. It is intended to protect people working on the grounded equipment. It does this by completing a circuit path, thereby reducing the voltage difference between the equipment and its surroundings. For safety reasons, it is important that ground disconnects and all associated connections have good contact and low resistance. It is also important that the protective ground not be accidentally remove, that is why all the earthing switches, disconnect switches and circuit breakers are all interlocked to each other and proper/correct sequencing must be followed.
OVERHEAD GROUND WIRE – by a ground wire is meant a wire, generally of steel, supported from the top of transmission-line towers and solidly grounded at each tower. It is considered a preventive device, but it does not entirely prevent the formation of travelling waves on a line. Furthermore, those lines which are not equipped with ground wires will be subjected to disturbances which produce surges that must be allowed to escaped to ground, or the apparatus connected to the line must be strong enough to reflect or absorb these surges until they are entirely damped out.
➢ Check disconnectors and earthing switches, joints and bearings of the operating linkages for deformed bearing points. ➢ Check flexible connections of earthing switches. ➢ Check all screwed joints for tight fit. ➢ Clean insulators if necessary, when an excessive amount of dirt has accumulated. ➢ Carry-out the maintenance of operating mechanism.