For confirming the specifications and
performances of an electrical transformer it has to go through numbers of testing procedures. Some tests
are done at manufacturer premises before delivering the transformer. Mainly two
types of transformer testing are done at manufacturer premises - type test of
transformer and routine test
of transformer. In addition to that
some transformer
tests are also carried out
at the consumer site before commissioning and also periodically in regular
& emergency basis throughout its service life.
Type of Transformer Testing
Tests done at Factory
Type Tests
Routine Tests
Special Tests
Type Tests
Routine Tests
Special Tests
Tests done at Site
Pre Commissioning Tests
Periodic/Condition Monitoring Tests
Emergency Tests
Pre Commissioning Tests
Periodic/Condition Monitoring Tests
Emergency Tests
Type
Test of Transformer
To prove that the
transformer meets customer’s specifications and design expectations, the
transformer has to go through different testing procedures in manufacturer
premises. Some transformer tests are carried out for confirming the
basic design expectation of that transformer. These tests are done mainly in a
prototype unit not in all manufactured units in a lot. Type test of transformer confirms main and basic design criteria of a
production lot.
Routine
Tests of Transformer
Routine tests
of transformer is mainly for confirming operational
performance of individual unit in a production lot. Routine tests are carried
out on every unit manufactured.
Special
Tests of Transformer
Special tests of transformer is done as per customer requirement to
obtain information useful to the user during operation or maintenance of the
transformer.
Pre Commissioning Test of Transformer
In addition to these,
the transformer also goes through some other tests, performed on it, before
actual commissioning of the transformer at site. The transformer testing performed before commissioning the
transformer at site is called pre commissioning test of transformer. These
tests are done to assess the condition of transformer after installation and
compare the test results of all the low voltage tests with the factory test
reports.
Type tests of
transformer includes
Transformer winding resistance measurement
Transformer ratio test
Transformer vector group test
Measurement of impedance voltage/short circuit impedance (principal tap) and load loss (Short circuit test)
Measurement of no load loss and current (Open circuit test)
Measurement of insulation resistance
Dielectric tests of transformer
Temperature rise test of Transformer
Tests on on-load tap-changer
Vacuum tests on tank and radiators
Transformer winding resistance measurement
Transformer ratio test
Transformer vector group test
Measurement of impedance voltage/short circuit impedance (principal tap) and load loss (Short circuit test)
Measurement of no load loss and current (Open circuit test)
Measurement of insulation resistance
Dielectric tests of transformer
Temperature rise test of Transformer
Tests on on-load tap-changer
Vacuum tests on tank and radiators
Routine tests of
transformer include
Transformer winding resistance measurement
Transformer ratio test
Transformer vector group test
Measurement of impedance voltage/short circuit impedance (principal tap) and load loss (Short circuit test)
Measurement of no load loss and current (Open circuit test)
Measurement of insulation resistance
Dielectric tests of transformer
Tests on on-load tap-changer
Oil pressure test on transformer to check against leakages past joints and gaskets.
That means Routine tests of transformer include all the type tests except temperature rise and vacuum tests. The oil pressure test on transformer to check against leakages past joints and gaskets is included.
Transformer winding resistance measurement
Transformer ratio test
Transformer vector group test
Measurement of impedance voltage/short circuit impedance (principal tap) and load loss (Short circuit test)
Measurement of no load loss and current (Open circuit test)
Measurement of insulation resistance
Dielectric tests of transformer
Tests on on-load tap-changer
Oil pressure test on transformer to check against leakages past joints and gaskets.
That means Routine tests of transformer include all the type tests except temperature rise and vacuum tests. The oil pressure test on transformer to check against leakages past joints and gaskets is included.
Special Tests of
transformer include
Dielectric Tests
Measurement of zero-sequence impedance of three-phase transformers
Short-Circuit Test
Measurement of acoustic noise level
Measurement of the harmonics of the no-load current
Measurement of the power taken by the fans and oil pumps
Tests on bought out components / accessories such as buchhloz relay, temperature indicators, pressure relief devices, oil preservation system etc.
Dielectric Tests
Measurement of zero-sequence impedance of three-phase transformers
Short-Circuit Test
Measurement of acoustic noise level
Measurement of the harmonics of the no-load current
Measurement of the power taken by the fans and oil pumps
Tests on bought out components / accessories such as buchhloz relay, temperature indicators, pressure relief devices, oil preservation system etc.
Transformer
Winding Resistance Measurement
Transformer winding resistance measurement is carried out to calculate the I2R
losses and to calculate winding temperature at the end of a temperature rise
test. It is carried out as a type test as well as routine test. It is also done
at site to ensure healthiness of a transformer that is to check loose
connections, broken strands of conductor, high contact resistance in tap
changers, high voltage leads and bushings etc.
There are different methods for measuring of transformer
winding, likewise
♣ Current voltage method of measurement of winding resistance.
♣ Bridge method of measurement of winding resistance.
♠ Kelvin bridge method of Measuring Winding Resistance.
♠ Measuring winding resistance by Automatic Winding Resistance Measurement Kit.
♣ Current voltage method of measurement of winding resistance.
♣ Bridge method of measurement of winding resistance.
♠ Kelvin bridge method of Measuring Winding Resistance.
♠ Measuring winding resistance by Automatic Winding Resistance Measurement Kit.
NB: - Transformer
winding resistance measurement shall
be carried out at each tap.
Transformer
Ratio Test
The performance of a transformer largely depends upon perfection
of specific turns or voltage ratio of transformer. So transformer is an essential type
test of transformer. This test also performed as routine
test of transformer. So for ensuring proper performance of
electrical power transformer, voltage and turn ratio test of transformer one of
the vital tests.
The procedure of transformer
ratio test is
simple. We just apply three phase 415 V supply to HV winding, with keeping LV
winding open. The we measure the induced voltages at HV and LV terminals of
transformer to find out actual voltage ratio of transformer. We repeat the test
for all tap position separately.
Magnetic
Balance Test of Transformer
Magnetic balance test of transformer is conducted only on three
phase transformers to check the imbalance in the magnetic circuit.
Procedure of Magnetic Balance Test of
Transformer
1) First keep the tap changer of transformer in normal position.
2) Now disconnect the transformer neutral from ground.
3) Then apply single phase 230V AC supply across one of the HV winding terminals and neutral terminal.
4) Measure the voltage in two other HV terminals in respect of neutral terminal.
5) Repeat the test for each of the three phases.
2) Now disconnect the transformer neutral from ground.
3) Then apply single phase 230V AC supply across one of the HV winding terminals and neutral terminal.
4) Measure the voltage in two other HV terminals in respect of neutral terminal.
5) Repeat the test for each of the three phases.
In case of auto transformer, magnetic balance test of
transformer should be repeated for IV winding also.
There are three limbs side by side in a core of transformer. One
phase winding is wound in one limb. The voltage induced in different phases
depends upon the respective position of the limb in the core. The voltage
induced in different phases of transformer in respect to neutral terminals
given in the table below.
LEFT
SIDE PHASE
|
CENTRAL
PHASE
|
RIGHT
SIDE PHASE
|
|
AN
|
BN
|
CN
|
|
VOLTAGE
APPLIED AT LEFT SIDE PHASE
|
230 V
|
180 V
|
50 V
|
VOLTAGE
APPLIED AT CENTRAL PHASE
|
115 V
|
230 V
|
115 V
|
VOLTAGE
APPLIED AT RIGHT SIDE PHASE
|
50 V
|
180 V
|
230 V
|
Magnetizing
Current Test of Transformer
Magnetizing current test of transformer is performed to locate defects in the
magnetic core structure, shifting of windings, failure in turn to turn
insulation or problem in tap changers. These conditions change the effective
reluctance of the magnetic circuit, thus affecting the electric current required to establish flux in the
core.
1) First of all keep the tap changer in the lowest position and
open all IV & LV terminals.
2) Then apply three phase 415V supply on the line terminals for three phase transformers and single phase 230V supply on single phase transformers.
3) Measure the supply voltage and electric current in each phase.
4) Now repeat the magnetizing current test of transformer test with keeping tap changer in normal position.
5) And repeat the test with keeping the tap at highest position.
2) Then apply three phase 415V supply on the line terminals for three phase transformers and single phase 230V supply on single phase transformers.
3) Measure the supply voltage and electric current in each phase.
4) Now repeat the magnetizing current test of transformer test with keeping tap changer in normal position.
5) And repeat the test with keeping the tap at highest position.
Generally there are two similar higher readings on two outer
limb phases on transformer core and one lower reading on the centre limb phase,
in case of three phase transformers. An agreement to within 30 % of the
measured exciting current with the previous test is usually considered
satisfactory. If the measured exciting current value is 50 times higher than
the value measured during factory test, there is likelihood of a fault in the
winding which needs further analysis.
Caution: This magnetizing
current test of transformer is
to be carried out before DC resistance measurement.
Vector
Group Test of Transformer
In three
phase transformer, it is essential to carry out a vector group test of transformer.
Proper vector grouping in a transformer is an essential criteria for parallel operation of transformers.
There are several internal connection of three phase transformer are available in market. These several
connections gives various magnitudes and phase of the secondary voltage; the
magnitude can be adjusted for parallel operation by suitable choice of turn
ratio, but the phase divergence can not be compensated. So we have to choose
those transformer for parallel operation whose phase sequence and phase
divergence are same. All the transformers with same vector ground have same
phase sequence and phase divergence between primary and secondary. So before
procuring one electrical
power transformer, one should ensure the vector group of the transformer, whether
it will be matched with his or her existing system or not. The vector group test of transformer confirms his or her requirements.
Insulation
Resistance Test or Megger Test of Transformer
Insulation resistance test of transformer is essential type test. This test is carried
out to ensure the healthiness of over all insulation system of an electrical
power transformer.
Procedure of Insulation Resistance Test
of Transformer
1) First disconnect all the line and neutral terminals of the
transformer.
2) Megger leads to be connected to LV and HV bushing studs to measure Insulation Resistance IR value in between the LV and HV windings.
3) Megger leads to be connected to HV bushing studs and transformer tank earth point to measure Insulation Resistance IR value in between the HV windings and earth.
4) Megger leads to be connected to LV bushing studs and transformer tank earth point to measure Insulation Resistance IR value in between the LV windings and earth.
2) Megger leads to be connected to LV and HV bushing studs to measure Insulation Resistance IR value in between the LV and HV windings.
3) Megger leads to be connected to HV bushing studs and transformer tank earth point to measure Insulation Resistance IR value in between the HV windings and earth.
4) Megger leads to be connected to LV bushing studs and transformer tank earth point to measure Insulation Resistance IR value in between the LV windings and earth.
NB : It is unnecessary to perform insulation resistance test of
transformer per
phase wise in three phase transformer. IR values are taken between the windings
collectively as because all the windings on HV side are internally connected
together to form either star or delta and also all the windings on LV side are
internally connected together to form either star or delta.
Measurements
are to be taken as follows:
For Auto Transformer: HV-IV to LV, HV-IV to E, LV to E
For Two Winding Transformer: HV to LV, HV to E, LV to E
Three Winding Transformer: HV to IV, HV to LV, IV to LV, HV to E, IV to E, LV to E
For Auto Transformer: HV-IV to LV, HV-IV to E, LV to E
For Two Winding Transformer: HV to LV, HV to E, LV to E
Three Winding Transformer: HV to IV, HV to LV, IV to LV, HV to E, IV to E, LV to E
Oil temperature should be noted at the time of insulation resistance test of
transformer. Since the IR value of transformer insulating oil may vary with
temperature.
IR values to be recorded at intervals of 15 seconds, 1 minute and 10 minutes.
.
With the duration of application of voltage, IR value increases. The increase in IR is an indication of dryness of insulation.
Absorption Coefficient = 1 minute value/ 15 secs. value.
Polarization Index = 10 minutes value / 1 minute value
IR values to be recorded at intervals of 15 seconds, 1 minute and 10 minutes.
.
With the duration of application of voltage, IR value increases. The increase in IR is an indication of dryness of insulation.
Absorption Coefficient = 1 minute value/ 15 secs. value.
Polarization Index = 10 minutes value / 1 minute value
Dielectric
Tests of Transformer
Dielectric tests of transformer is one kind of insulation test. This
test is performed to ensure the expected over all insulation strength of
transformer. There are several test performed to ensure the required quality of
transformer insulation, dielectric test is one of them. Dielectric tests of transformer is performed in two different steps,
first one called Separate source voltage withstand test of transformer, where a
single phase power frequency voltage of prescribed level, is applied on
transformer winding under test for 60 seconds while the other windings and tank
are connected to the earth and it is observed that whether any failure of
insulation occurs or not during the test. Second one is induced voltage test of
Transformer where, three phase voltage, twice of rated secondary voltage is
applied to the secondary winding for 60 second by keeping the primary of the
transformer open circuited. The frequency of the applied voltage should be
double of power frequency too. Here also if no failure of insulation, the test
is successful.
In addition to Dielectric tests of transformer there are other type test for checking insulation of transformer, such as lightning impulse test, switching impulse test and partial discharge test.
In addition to Dielectric tests of transformer there are other type test for checking insulation of transformer, such as lightning impulse test, switching impulse test and partial discharge test.
Induced Voltage Test
of Transformer
The induced voltage test of transformer is intended to check the
inter turn and line end insulation as well as main insulation to earth and
between windings
1) Keep the primary winding of transformer open circuited.
2) Apply three phase voltage to the secondary winding. The applied voltage should be twice of rated voltage of secondary winding in magnitude and frequency.
3) The duration of the test shall be 60 second.
4) The test shall start with a voltage lower than 1/3 the full test voltage, and it shall be quickly increased up to
desired value.
The test is successful if no break down occurs at full test voltage during test.
2) Apply three phase voltage to the secondary winding. The applied voltage should be twice of rated voltage of secondary winding in magnitude and frequency.
3) The duration of the test shall be 60 second.
4) The test shall start with a voltage lower than 1/3 the full test voltage, and it shall be quickly increased up to
desired value.
The test is successful if no break down occurs at full test voltage during test.
Temperature Rise
Test of Transformer
Temperature rise test of Transformer is included in type
test of transformer. In this test we check whether the
temperature rising limit of the transformer winding and oil as per
specification or not.
In this type test of transformer, we have to check oil
temperature rise as well as winding temperature rise limits of an electrical
transformer.
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