Page 155 - Handbook of Electrical Engineering
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138 HANDBOOK OF ELECTRICAL ENGINEERING
Liquid immersed types use various forms of oil and special synthetic liquids. The chlorinated liquids,
e.g. polychlorinated-biphenyl, have been banned in most countries because they are very strong
pollutants and are almost impossible to destroy, except by intensive burning in a special furnace.
Modern liquids are synthetic compounds typically silicone based, and are usually specified to be
flame retardant. IEC60296, 60836, and 60944 describe suitable liquids. These transformers are the
type normally used in oil and gas plants. Resin insulated transformers are very suitable for indoor
locations and off-shore plants because they contain no flammable liquid, produce no spillage and
require minimal maintenance. They are usually more expensive than conventional liquid immersed
transformers.
Liquid immersed transformers usually have some form of external radiator to dissipate the
heat generated internally by the windings and the core. The radiator is often the surfaces of the tank
specially folded into corrugated fins, or is in the form of fins, which are attached to the tank sides.
As the transformer ratings become larger it is more difficult to dissipate the heat. The next
method used requires external tubes to be attached in groups at the top and bottom of the tank. The
liquid circulates between the tubes and the tank by natural convection. Further increase in ratings
require external banks of fin-type radiators with increased surface area. There are many variation in
the design of tubes and radiators. Eventually the problem requires a separately mounted radiator and
forced circulation liquid pump between the radiator and the tank. All of these methods of cooling
liquid immersed transformers can be supplemented with external forced air fans. The addition of
a simple system of fans can increase the base rating of the transformer by typically 25% to 35%.
These fans can be arranged to start by detecting the temperature rise of the windings or liquid, or by
measuring the current in either winding of the transformer. It is usual practice in oil and gas plant
engineering to purchase transformers complete with the fans or at least with the fittings to enable
fans to be added later. However, the power cables and switchgear associated with the transformer
should be rated for the fan-assisted operation, otherwise the benefit of the fans will not be achieved
conveniently or even economically.
A method of lettering is used to denote the form of cooling for a particular transformer.
Four upper case letters are used.
The first pair of letters are for the heat removal from the windings and core, i.e.
• AN AIR-NATURAL:- Natural cooling by the internal air circulating amongst the winding and
core by natural convexion.
• ON OIL-NATURAL:- Natural cooling by oil that circulates amongst the windings and core by
natural convexion.
• LN LIQUID-NATURAL:- As for ON but a synthetic liquid is used.
• OF OIL-FORCED:- The oil is circulated by the use of an oil pump, which is usually mounted
externally in the lower interconnecting pipework between the external radiator bank and the side
of the tank. This method is seldom used in the oil industry because it pertains to very large ratings
of transformers.
• LF LIQUID-FORCED:- As for OF but a synthetic liquid is used.
The second pair of letters are for the external surface heat removal, i.e.
• AN AIR-NATURAL:- Natural cooling by atmospheric air circulation. The windings and core are
directly exposed to the air, as in the case of a dry-type or resin insulated transformer.
