Electrical Power Transformer
Definition of Transformer
A transformer is a static
machine used for transforming power from one circuit to another without
changing frequency. This is a very basic definition of transformer.
Since there is no rotating or moving part so transformer is a static device.
Transformer operates on ac supply. Transformer works on the principle of mutual
induction.
History of Transformer
If we want to know the history of transformer we have go back long in the
1880s. Around 50 years before that in 1830 property of induction
which is the working principle of transformer was discovered. Later the
transformer design was improved resulting in more efficiency and lesser size.
Gradually the large capacity of transformers in the range of several KVA, MVA
came into existence. In the year 1950, 400KV electrical power
transformer was introduced in high voltage electrical power system. In the
early 1970s, unit rating as large as 1100 MVA was produced and 800KV and even
higher KV class transformers were manufactured in year of 1980.
Generation of
electrical power in low voltage level is very much cost effective.
Theoretically, this low voltage level power can be transmitted to the receiving
end. This low voltage power if transmitted results in greater line current
which indeed causes more line lossesBut if
the voltage level of a power is increased, the current of the power is reduced which causes reduction in ohmic or I2R losses in the system,
reduction in cross sectional area of the conductor i.e. reduction in capital
cost of the system and it also improves the voltage regulation of the system. Because of these,
low level power must be stepped up for efficient electrical power transmission. This is done by step
up transformer at the sending side of the power system network. As this high
voltage power may not be distributed to the consumers directly, this must be
stepped down to the desired level at the receiving end with the help of step
down transformer. Electrical power transformer thus plays a vital role in power
transmission.
Two winding transformers are generally used where ratio of high voltage and low
voltage is greater than 2. It is cost effective to use auto transformer where the ratio
between high voltage and low voltage is less than 2. Again a single unit three
phase transformer is more cost effective than a bank of three single phase transformers unit in a three phase system. But a single three
phase transformer unit is a bit difficult to transport and have to be removed
from service entirely if one of the phase winding breaks down.
Types of Transformer
Transformers can be categorized in different ways, depending upon their
purpose, use, construction etc. The types of transformer are
as follows,
1. Step Up Transformer &
Step Down Transformer - Generally used for stepping up and down the voltage
level of power in transmission and distribution power system network.
2. Three Phase Transformer
& Single Phase Transformer - Former is generally used in three phase power system as
it is cost effective than later. But when size matters, it is preferable to use
a bank of three single phase transformer as it is easier to transport than one
single three phase transformer unit.
3.
Electrical
Power Transformer, Distribution Transformer & Instrument Transformer - Power transformers
are generally used in transmission network for stepping up or down the voltage
level. It operates mainly during high or peak loads and has maximum
efficiency at or near full load. Distribution transformer steps down the
voltage for distribution purpose to domestic or commercial users. It has good voltage
regulation and operates 24 hrs a day with maximum efficiency at 50% of full
load. Instrument transformers include C.T & P.T which are used
to reduce high voltages and current to lesser values which can be measured by
conventional instruments.
4. Two Winding Transformer
& Auto
Transformer - Former is generally used where ratio between high
voltage and low voltage is greater than 2. It is cost effective to use later
where the ratio between high voltage and low voltage is less than 2.
5. Outdoor Transformer &
Indoor Transformer - Transformers that are designed for installing at outdoor
are outdoor transformers and transformers designed for installing at indoor are
indoor transformers.
6. Oil Cooled & Dry Type
Transformer - In oil cooled transformer the cooling medium is
transformer oil whereas the dry type transformer is air cooled.
7. Core type, Shell type
& Berry type transformer - In core type transformer it has two vertical legs or
limbs with two horizontal sections named yoke. Core is rectangular in shape
with a common magnetic circuit. Cylindrical coils (HV & LV) are placed on
both the limbs. Shell type transformer: It has a central limb and two outer
limbs. Both HV, LV coils are placed on the central limb. Double magnetic
circuit is present. Berry type transformer: The core looks like spokes of
wheels. Tightly fitted metal sheet tanks are used for housing this type of
transformer with transformer oil filled inside.