1. A SEMINAR ON
Submitted by:-
Rakesh Kumar Padhy
0901106221
Electrical engineering
2. CONTENTS
Power Factor: An Introduction
Types of circuit
• Linear Circuit
• Non-linear Circuit
Importance of power factor in distribution systems
Disadvantages of low power factor
PFC in linear loads
The APFC (Automatic Power Factor Correction) unit
Parts of the APFC unit
Maintenance of the APFC unit
Conclusion
3. Power factor: An introduction
It is the ratio of real power flowing through
the load to the apparent power in the
circuit
It is also defined as the cosine of the angle
between the voltage and current phases
It is a dimensionless no between 0 and 1
Whether the current is leading or lagging
the power factor is termed as leading or
lagging PF correspondingly
4. Types of Circuit
There are two types of circuits based on the type
of current waveform
• Linear loads
• Non-linear loads
The type of loads which doesn’t change the
current waveform shape are known as linear loads
The loads on the others case which change the
shape (distort) the current waveform are termed
as non-linear loads
Distortion decreases average power transmitted
to the load
5. Variation of PF in transmission
systems
Generally due to inductive loads the power
factor never remains unity in reality
A capacitive network gives reactive power and
an inductive network takes the same
In both the cases the power factor becomes
less than 1 causing more current to be
transferred for the same amount of real
power
6. Disadvantages of low PF
Voltage regulation becomes poor
Greater amount of apparent power needed to
get the same amount of real power
The increase in reactive power increases the
current flowing through the network
Size of the transformer, switch gears etc.
increase thereby increasing the transmission
cost
7. Power Factor Correction for linear
loads
Various methods of power factor correction (PFC)
are adopted to minimize the apparent power as:
Using capacitor banks in Automatic Power Factor
Correction (APFC) units
For high voltage rating the power electronic
devices such as Static VAR compensator or
STATCOM are used
It’s also a good practice to use an unloaded
synchronous motor
8. APFC unit
It’s an automatic system adjusting itself to
control the power factor above a desired value
by a bank of capacitors switched by means of
contractors
Contractors are controlled by a regulator that
measures PF in the network
Depending upon the load PF the controller will
adjust the PF by switching the necessary no of
capacitors from the bank
9. Parts of the APFC unit
1.Reactive power control relay
Capable of measuring the
reactive and active power of
the network
Works in conjunction with a
capacitor bank
Controls the programmed
target PF by
activating/deactivating the
capacitors
10. The main functions of the reactive power control relay
Automatic connection detection (Star or Delta)
Automatic detection of capacitor stages
Patented characteristics avoiding compensation of very
low active power
Reactive power requirement-switching delay time
Alarm signals for
• Failure to reach the target PF
• Overcurrent in the capacitor
• Defects at capacitor stages
11. 2.Network connection points
Since the power factor of the loads is to be
compensated hence the connection of the APFC unit is
always done in parallel with the supply connection.
Generally Y- connection of the capacitor bank is
preferred because the transmission distribution of
three phase distribution system above 132 kv is Y
connected always
12. 3.Slow-blow switches
Slow blow switches are always used because of the
following requirements
• To sustain the inrush and starting current surges
due to vehicular loads
• It offers a time delay between overloading and
fusing
• They can withstand heavy currents (about ten
times the rated)
13. 4.Inrush current contactors
Used for damping the inrush current arising due
to
• Remaining capacitor voltage due to fast
switching
• Short circuit power of supply
• Fault level of supply networks
The contractors also protect the welding of the
main contacts of the contactors
Prevent the capacitors from high stress
14. 5.Capacitor Bank
The capacitor bank is the
main part of the APFC
units. Large capacitor banks
are installed in the APFC’s
which switch in order to
meet the desired power
factor requirement. Each
capacitor is individually
fused with appropriately
sized current limit fuse.
15. 6.Control Transformer
Monitors the switchboard load
(or load to be corrected)
Placed physically above
(towards the supply) the
connections for the PFC system
In case more than one
transformers are fitted they are
always connected in series as
they work as CT
16. Maintenance of the APFC unit
The major maintenance checks involved for the APFC
unit are
In “out of maximum demand hours” (eg. Late
nights or weekends) switch off the system after
internal and external checks
Remove contactor tops and inspect for contact
wear, check capacitance of each capacitor
Check (and adjust if necessary) all connections to
contactors, capacitors, fuses etc.
Re-energize system and check current (true RMS)
and harmonics drawn by each capacitor step.
Check voltage level and fuses
17. Conclusion
Hence the APFC units correct the power
factor above a decided value by switching
the appropriate no of capacitors from the
capacitor bank
In non-linear loads we use
inductors, filters, valley-fill circuit etc. to
suppress harmonics as they cause the
current wave form to be distorted