How to protect the alternators from faults | Electrical Engineering

Alternators Protection 

As we have discussed in the previous articles about the protection of transformers and transmission lines. Nowadays the modern electric power systems consist of several parts e.g. alternators, transformers, station bus bars, transmission lines and other equipment. It is become necessary to protect every and each part of the electric power system from the faults which may occur sooner or later. It is very profitable by using protective relays for the improper behavior of the system. Which can be detected by the sensitive relays easily. The most serious faults on the alternators which require attention on the immediate basis are the stator winding faults. The basic system for the protection of alternators is the differential relay scheme because the differential nature of measurement makes the system much more sensitive and reliable than other protective systems.

An alternator is an electrical generator that converts mechanical energy to electrical energy in the form of alternating current. 

The generating units, especially the larger ones are very few in numbers but high in individual cost and most other equipment. Therefore it is desirable to keep all these equipment safe and protected from damaging faults. Here we are going to discuss some faults which may occur in the alternators.

Failure of prime-mover:

 When the input to the prime mover fails, the alternator runs as a synchronous motor and draws some currents from the provided supply. This condition is called “inverted running”.

Failure of a field:

The chances of field failure are very undoubtedly very rare. But if it occurs it cannot damage the alternator.if the alternator runs without providing field supply. The faulty alternator can be easily separated manually and not provide automatic system from separation.

Overcurrent:

This type of fault occurs mainly due to the partial breakdown of the winding insulation or due to overload on the supply system. Sometimes overcurrent protection for alternators is unnecessary due to the following reasons.

1) In the modern days, the alternator windings are with high impedance so they stand a complete short circuit at their terminals for sufficient time and then It can be easily separated manually.

2) The disadvantage of using overload relay for protection of alternators is that such a protection might disconnect the alternators from the bus bars on momentary troubles outside, it disturbs the continuity of power supply to the consumers.

Over Speed:

The main cause of over speed is a sudden loss of the high amount of load disconnecting from an alternator. So for that purpose, a mechanical centrifugal device is mounted on the driving shaft to trip the main valve of the prime mover when dangerous over speed occurs.

Over Voltage:

The field excitation system is very well designed nowadays so that it cannot provide overvoltage but overvoltage may occur due to over speeding of a prime mover. Overspeeding of alternators reason is a sudden loss of a huge amount of load disconnection. If some mechanical system is installed on the moving shaft of the alternator then It can be controlled easily.

Unbalanced loading:

Unbalanced loading means different phase current in the alternator. The different current condition occurs in alternator due to earth or fault between phases. Unbalanced loading if it is allowed to persist it can burn the windings or may damage the mechanical fixings.


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One response to “How to protect the alternators from faults | Electrical Engineering”

  1. Caleb Uzomac Avatar
    Caleb Uzomac

    Please, Teach me electricity and electric circuitry. Thank you.