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Apfc panel
1. Power Factor & APFCPower Factor & APFC
1
By: Ravi Shankar Singh
2. What is power factorโฆ?What is power factorโฆ?
2
Power Factor = Active Power (kW)/Apparent Power (kVA)
PFโค1.0
Usually P.F is always โLagโ (Inductive)
Some time P.F can be โLeadโ (Capacitive).
3. Origin of Low Power FactorOrigin of Low Power Factor
3
๏ Electrical Equipment need Reactive Power
๏ Inductive loads draw Reactive Power
๏ Phase difference between current & Voltage
reduces โDisplacement PFโ.
๏ Reactive Power to maintain magnetic fields
in Motors.
๏ Non-Linear loads reduces โDistortion PFโ.
๏ True PF, being product of displacement and
distortion PF is lower than both.
Capacitors can only improve displacement PF.
4. Disadvantages of low power factorDisadvantages of low power factor
๏ Inefficient use of Electrical Energy:
๏ Overloading of Transformer/Generator;
๏ Overloading of Cable, Switchgear, Busbar โฆ
๏ Higher temperature due to increased losses
๏ Imposes larger kVA demand
๏ Limits No. of loads that can be connected
๏ Reduced revenue to Electrical Utilities
๏ Poor Voltage regulation
4
6. 6
Reduction in
Transformer Rating
Reduction in KVAR
Demand
Advantages of P.F
Correction
Reduction in KVA
Demand
Reduction in Line
Current
Reduction in Line
loss
Reduction in
Cable / Bus-bar
size
Reduction in
Switchgear
Rating
Avoid power factor
penalties
Reduction in KVA
Demand
7. ESTIMATION OF kVAr REQUIREDESTIMATION OF kVAr REQUIRED
for New Electrical Installationsfor New Electrical Installations
7
M M M
75 HP,
(415V,
3ph,
compressor
pf. 0.7)
75 HP,
(415V,
3ph,
compressor)
20 HP,
(415V,
3ph,
Pump,
PF =0.70
Lag)
Other loads,
(total of 25
Kw)
500kVA, 11kV/415V,
%Impedance = 4.25%
50 kVA,
(440V,
3ph,
UPS)
Lighting
(Load
10kW)
M
30 HP,
(415V,
3ph, I M pf
0.7)
Let us assume that the target Power Factor as desired by the Customer is
0.95.
8. 8
Kvar For The Supply Transformer-
For 500 kVA transformer, kVAr = 30 kVAr
Kvar For Induction Motor-
rating of motor = 200 HP x 0.746
= 150 kW
Kvar for motor = 150*[tan(cos-1
(0.95)- tan(cos-1
(0.99)]
= 104 Kvar
Kvar For UPS-
rating of UPS = 50 KVA* 0.7
= 35 Kw
Kvar for UPS = 35 [tan(cos-1
(0.70)- tan(cos-1
(0.99)]
= 25 Kvar
Kvar For Others & lighting load-
Kvar for UPS = 24 [tan(cos-1
(0.70)- tan(cos-1
(0.99)]
= 17 Kvar
Total kvar requirement = (30+104+35+25+17)kvar =211 Kvar
Assuming 15% design assumption and contigency = 221*0.15=31.65 Kvar
Total kvar = 242.65 kvar
Kavr recommended= 250 kvar
Capacitor req. (c) = Qc/V2
(2ฯf)
Hence Capacitor req. for UPF=106
*250/(2302
*100ฯ)
= 150.51ยตF.
9. Type of compensationType of compensation
๏ Fixed compensation
๏ Variable compensation(for varying loads)- APFC
๏ Svc
9
1. Individual compensation
2. Group compensation
3. Central compensation
- Steady Loads
โ No load compensation of Induction Motors
โ No load compensation of Transformers
10. Disadvantages of fixed capacitorDisadvantages of fixed capacitor
๏ Manual operation(on/off)
๏ Not meet the require kvar under varying
loads.
๏ Can result leading power factor
๏ Cause over voltage
๏ Mal-operation of relays, diesel generators
๏ Saturation of transformer
๏ Penalty by electricity authority
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11. 11
โขvarying power demand on the supply system.
โขpower factor also varies as a function of the load requirements.
โขdifficult to maintain a consistent power factor by use of Fixed
Compensation i.e. fixed capacitors.
โข leading power factor under light load conditions(fixed
compensation)
โขThis result in over voltages, saturation of transformers, mal-
operation of diesel generating sets, penalties by electric supply
authorities.
โขautomatically variation, without manual intervention, the compensation to
suit the load requirements.
โขAutomatic Power Factor Correction(APFC) system provide this facility.
โขleading power factor will be also prevented.
NEED FOR AUTOMATIC POWER FACTOR
CORRECTION
12. Benefits of APFCBenefits of APFC
๏ Consistently high power factor under fluctuating loads
๏ Prevention of leading power factor
๏ Eliminate power factor penalty
๏ Lower energy consumption by reducing losses.
๏ Continuously sense and monitor load
๏ Automatically switch on/off relevant capacitors steps for
consistent power factor.
๏ Ensures easy user interface
๏ Protect under any internal fault
๏ Advance ยต- relay with communication facility
๏ Used MPP-H/MD-XL/FF(APP) type capacitors
๏ User friendly, aesthetecally designed enclosure, dust and vermin
proof.
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13. Automatic Power Factor CorrectionAutomatic Power Factor Correction
(APFC):(APFC):
๏จ Capacitors grouped into several steps.
๏จ โข Suitable switching devices with coupled with
inrush current limiting devices are provided for
each step
๏จ โข Power Factor sensed by CT in line side
๏จ โข kVAr required to achieve target PF is computed
by the Microprocessor based APFC relay
๏จ โข APFC relay switches appropriate capacitor steps
๏จ โข CT senses improved PF and gives feedback
๏จ โข Thus target PF is achieved
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14. How to Improve Power Factor WithoutHow to Improve Power Factor Without
Causing Harmonic Problem ?Causing Harmonic Problem ?
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๏ Conventional capacitors should not be used.
๏ Capacitors should be replaced by harmonic suppression filters
(series combination of suitable series reactor & capacitors) so
that,
๏ It offers capacitive reactance at fundamental frequency for
necessary power factor correction.
๏ It offers inductive reactance at all higher order dominant
harmonic frequencies to avoid resonance.
๏ Its self series resonance frequency โfRโ do not coincide with
predominant harmonics.
15. Network With HarmonicNetwork With Harmonic
FiltersFilters
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No resonance at harmonic frequencies
as filter is inductive at such
frequencies
Harmonic currents flow towards Grid ,
as it offers least impedance compared
to filter
Predominantly fundamental current
flows through Capacitors
Moderate THD(V) in the Bus
No harmonic overloading of
Capacitors
Improvement in Power Factor
without Harmonic overload
NonLinear
Load
BUS
M
GRID
ZT
Equivalent Load
Impedance โZLโ
ZN
L
C
16. Specification of capacitors in APFCSpecification of capacitors in APFC
๏จ Qkvar
๏จ Degree Of Protection IP20
๏จ Ambient temperature
๏จ Voltage rise should beโค 3.0% [% Vc = (Q kvar
*%X)/(kva)]
๏จ Voltage rise due to series reactor and harmonics
๏จ Size of individual capacitor banks (step requirement)
๏จ Directly connected Discharge Device(Resistor, VT)
to discharge the capacitor to reduce voltage to 50
volts within one minute
16
17. Selection of switching equipmentSelection of switching equipment
FOR LT
๏จ Switch- fuse units/CBs/ Thyristers
๏จ Switch should be quick make and break type
๏จ Rating of CB, contactors, fuse and cable should beโฅ130% of
capacitor rated current.
๏จ For automatic switching, each step capacitor should be provided
with fuse and contactor.
FOR HT
๏จ Ht capacitor is connected to bus by CB
๏จ Cb rating should be โฅ maximum operating voltage of circuit
๏จ Continuous current rating of CB should be โฅ 135% of rated
capacitor bank current
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18. Harmonics and parallel resonanceHarmonics and parallel resonance
๏ H=Kp ยฑ 1 (converter) where k= 1,2,3,4,โฆโฆ.
๏ p= pulsating index
๏ High Harmonics current produces high harmonics
voltages.
๏ When harminics current frequency and parrellel
resonance become equal than corrosponding
harmonics voltage produces over current in
capacitor.
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19. Series reactorSeries reactor
๏ XT= Xc/h2
๏ Supress high inrush current to safe value at
time of capacitor switching.
๏ Improve voltage waveform
๏ Reactor should be able to carry 135%of rated
contineous current.
Discharge VT
๏ To discharge voltage of capacitor
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20. TYPES OF CAPACITOR TECHNOLOGIESTYPES OF CAPACITOR TECHNOLOGIES
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๏ MPP - METALLISED POLYPROPYLENE
๏ MD - MIXED DIELECTRIC
๏ FF/ALL PP - FILM - FOIL OR ALL POLY
PROPELENE
๏ MD -XL - MIXED DIELECTRIC LOW LOSS
21. METALISED POLYPROPELENE CAPACITORMETALISED POLYPROPELENE CAPACITOR
21
๏ MPP - METALLISED
POLYPROPELENE
๏ METALISATION HAS BEEN DONE ON
ONE SIDE OF POLY PROPELENE
FILM AND USED FOR CAPACITOR
WINDING
๏ ECNOMICAL AND COMPETITIVE
DESIGN
๏ MPP-S - NORMAL DUTY
๏ MPP-H - MEDIUM DUTY
PP FILM
METALLISED LAYER
22. MIXEDMIXED DIELECTRIC TYPEDIELECTRIC TYPE
22
๏ MD - MIXED DIELECTRIC
๏ PP FILM, FOIL AND PAPER ARE USED
TO FORM CAPACITOR WINDING
PP FILM
FOIL
PAPER
23. FILM FOIL OR APPFILM FOIL OR APP
23
๏ FILM FOIL OR APP - ALL POLY
PROPELENE
๏ METAL LAYER IS PLACED IN -
BETWEEN PP FILM TO FORM
CAPACITOR WINDING
PP FILM
FOIL
PP FILM
24. FILM FOIL OR APPFILM FOIL OR APP
24
๏ FILM FOIL OR APP - ALL POLY
PROPELENE
๏ METAL LAYER IS PLACED IN -
BETWEEN PP FILM TO FORM
CAPACITOR WINDING
PP FILM
FOIL
PP FILM
25. MIXED DIELECTRIC - LOWMIXED DIELECTRIC - LOW
LOSSLOSS
25
๏ MD-XL - MIXED DIELECTRIC LOW LOSS
๏ PP FILM AND DOUBLE SIDED
METALISED FILM ARE USED TO FORM
CAPACITOR WINDING
PP FILM
DOUBLE SIDE METALLISED
PAPER
26. 26
Film foil/APP verses Mixed
dielectric comparison
Film foil/APP Mixed dielectric
โข low dielectric watt loss
โข Film not impregnable
โข More prone to โSelf healingโ
โข Inferior long term stability
โข Moderate harmonic overload
capability
โข High dielectric watt loss
โข Paper impregnable
โข less prone to โSelf healingโ
โข Superior long term stability
โข Good harmonic overload
capability
27. 27
Mixed dielectric verses MDXL
Comparison
Mixed dielectric MDXL
โข High dielectric watt loss
โข Paper impregnable
โข less prone to โSelf healingโ
โข Superior long term stability
โข Good harmonic overload
capability
โข Lowest dielectric watt loss
โข Combines plus points of MD
and APP types
โข Excellent long term stability
โข Superior harmonic overload
capability
31. Power factor correction inPower factor correction in
harmonics enrich environmentharmonics enrich environment
๏ percentage of Non linear loads in an
installation becomes greater than 20% of
connected load.
31
Conventional
capacitor
N/w Harmonics
Parallel resonance
Current amp
Overloading cap
Voltage distortion
Cap failure
32. solutionsolution
Use detuned filter circuit
๏ Avoid parallel resonance by offering inductive impedance to specific
harmonics frequency.
๏ The tuning frequency is generally lower than 90 % of the lowest
harmonic frequency whose amplitude is significant.
๏ Protect capacitors from harmonics over loading
๏ Reduces over loading of transformer and other rotating equipments.
๏ Prevent current amplification
๏ Achieve consistently high power factor.
๏ Can be used as fixed or APFC
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