Failures
in transformers can be classified into
a) Winding
failures resulting from short circuits (turn-turn faults, phase-phase faults,
phase-ground, open winding)
b) Core faults
(core insulation failure, shorted laminations)
c) Terminal
failures (open leads, loose connections, short circuits)
d) On-load tap
changer failures (mechanical, electrical, short circuit, overheating)
e) Abnormal
operating conditions (over fluxing, overloading, overvoltage)
f) External
faults
Besides of above there are some other causes of
transformer failure which may include.
Overloading:
Transformers that experience a sustained loading that exceeds the nameplate
capacity often face failure due to overloading.
Line
Surge: Failure caused by switching surges, voltage spikes, line
faults/flashovers, and other T&D abnormalities suggests that more attention
should be given to surge protection, or the adequacy of coil clamping and short
circuit strength.
Loose
Connections: Loose connections, improper mating of dissimilar
metals, improper torquing of bolted connections etc can also lead to failures
in transformers.
Oil
Contamination: Oil contamination resulting in sludging, carbon
tracking and humidity in the oil can
often result in transformer failure.
Design/Manufacturing
Errors: This includes conditions such as: loose or unsupported leads, loose
blocking, poor brazing, inadequate core insulation, inferior short circuit
strength, and foreign objects left in the tank.
Improper
Maintenance/Operation: Inadequate or improper maintenance and operation
are a major cause of transformer failures. It includes disconnected or
improperly set controls, loss of coolant, accumulation of dirt & oil, and
corrosion.
External
Factors: Several external factors like floods, fire explosions, lightening and
moisture can be established as the causes of the failure as well.