electrical machines ii ee6504 · equation –synchronous reactance –armature reaction –phasor...
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SUBJECT CODE : EE6504
SUBJECT NAME : Electrical Machines – II
STAFF NAME : Ms.P.Priyadharshini
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ELECTRICAL MACHINES II
EE6504
PREPARED
BY
P.PRIYADHARSHINI AP/EEE
RMDEC
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Constructional details – Types of rotors –winding factors- emfequation – Synchronous reactance – Armature reaction – Phasordiagrams of non salient pole synchronous generator connected toinfinite bus--Synchronizing and parallel operation – Synchronizingtorque -Change of excitation and mechanical input- Voltageregulation – EMF, MMF, ZPF and A.S.A methods – steady statepower angle characteristics– Two reaction theory –slip test -shortcircuit transients - Capability Curves.
UNIT ISYNCHRONOUS GENERATOR
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• The operation of a synchronous generator is based on
Faraday's law of electromagnetic induction, and in an ac
synchronous generator the generation of emf's is by
relative motion of conductors and magnetic flux.
• These machines can be used as either motors or
generators but their predominant use is in generation.
CONSTRUCTIONAL
DETAILS
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STATOR:
The stator is the stationary part of the machine. It carries
the armature winding in which the voltage is generated. The
output of the machine is taken from the stator.
ROTOR
The rotor is the rotating part of the machine. The rotor
produces the main field flux.
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SALIENT POLE ROTOR:
Since the rotor is subjected to changing magnetic fields, it is made of steel.
Damper bars are usually inserted in the pole faces todamp out the rotor oscillations during sudden changein load condition laminations to reduce eddy currentlosses.
The salient pole field structure has the following special features:
They have large diameter and short axial length.
Poles are laminated to reduce eddy current losses.
These are employed with hydraulic turbines or diesel engines. The speed is 100 to 375 rpm.
TYPES OF ROTOR:
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SMOOTH CYLINDRICAL ROTOR:
A cylindrical rotor machine is also called a non-salient pole
rotor machine. It has its rotor so constructed that it forms a
smooth cylinder . This type of rotor is used for alternators
which are coupled to steam turbines which run at very high
speeds.
The non-salient field structure has the
following special features:
They are of small diameter and of very long
axial length.
Robust construction.
High operating speed (3000 rpm)
Noiseless operation.
Dynamic balancing is better.
No need to provide damper windings, except
in special cases to assist synchronizing.
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COIL SPAN FACTOR& DISTRIBUTION FACTOR
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Eph=4.44*f*Φ*Tph*Kc*Kd
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SYNCHRONOUS REACTANCE
The leakage reactance and the armature reactance may
be combined to give synchronous reactance .
Xs=Xl+Xar
Hence the ohmic value of varies with the power factor
of the load because armature reaction depends on load power
factor.
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POWER FACTOR RELATION
BETWEEN
ARMATURE
FLUX AND
FIELD FLUX
EFFECT VOLTAGE
LEVEL
UNITY BOTH
FLUXES
CUTS EACH
OTHER
CROSS
MAGNETISIN
G
TERMINAL
VOLTAGE
DECREASES
LAGGING BOTH
FLUXES
ACTS
OPPOSITE TO
EACH OTHER
DEMAGNETI
SING
TERMINAL
VOLTAGE
DECREASES
MORE THAN
THE UNITY
FACTOR
LEADING BOTH
FLUXES
ACTS IN THE
SAME
MANETISING TERMINAL
VOLTAGE
INCREASES
ARMATURE REACTON
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SYNCHRONISING AND PARALLEL OPERATION
The operation of connecting an alternator in parallel with another alternator or with common bus bars is known as synchronizing.
Often the electrical system, to which the alternator is connected, has already so many alternators and loads connected to it that no matter what power is delivered by the incoming alternator, the voltage and frequency of the system remain the same. In that case, the alternator is said to be connected to infinite bus bars.
CONDITION:
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The voltages and frequencies of both the systems are made equal.
The incoming machine frequency is slightly altered deliberately. Assuming the phase sequences are the same the three lamps will be dark or bright together.
The lamp will be dark below a certain voltage. If the dark period is judged and switch is closed at the middle of the dark period, the machines are synchronized.
Synchronising
THREE DARK LAMP METHOD
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Two bright and one dark lamp method
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When all the three lamps placed in the ring.The light wave travelling in counter
clockwise direction indicates the incoming machine is slow. Light wave
travelling in clockwise direction indicates the incoming machine is slow
.The paralleling switch is closed when the changes in the light are very slow
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Clockwise direction – Frequency of the incoming
Alternator is high.
Anti Clockwise direction – Frequency of the incoming
Alternator is slow.
12’o’ clock position – Frequency of the incoming
alternator is exactly equal to busbar.
SYNCHROSCOPE
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Syn.Current: Isy = Eα/Xs
Syn.Power : Psy=3αE2/Xs
Syn.Torque : Tsy = (3Psy*60)/(2*3.14*Ns)
Synchronising Current ,Power and
Torque:
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Change of Excitation
At the time of starting both the machines are sharing equal power. When the
excitation to the machine I increases the KVAR supplied by the machine I increases
than machine II.
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Change of Mechanical Input
When the Steam supply increases for the machine I, the real
power supplied by the machine I increases than machine II
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The axis along the axis ofthe rotor is called the director the d axis. The axisperpendicular to d axis isknown as the quadrature orq axis. The direct axis fluxpath involves two small airgaps and is the path of theminimum reluctance. Thepath shown in the abovefigure by ϕq has two large airgaps and is the path of themaximum reluctance.
Two Reaction Theory
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Direct axis synchronous reactance = Xd=Xad+Xl
Quadrature axis synchronous reactance= Xq=Xaq+Xl
Voltage V=E0-IaRa-IdXd-IqXq
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Methods of Voltage Regulation:
I.EMF or Synchronous Impedance Method
II.MMF of Ampere Turns Method
III.Zero Power Factor Method.
IV.ASA Method
Voltage Regulation
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This method requires the following data:
I. Effective Resistance Re
II. Syncronous Impedance Zs.
Open Circuit Test:
The Output terminals are kept open and load is not
connected.
EMF or Synchronous Impedance
Method
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Step 1: Start the motor and set the rated speed.
Step 2: Then slowly vary the excitation upto the rated voltage and plot the graph
Short Circuit Test:
Short all the terminals
Step 1: Vary the excitation and set the rated current.
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Zs= Eo/Isc
Open circuit voltage pe phase/Short Circuit Current
Xs=√(Zs2-Re2)
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This is called pesimistic method because the regulation
value is greater than normal value Because the
calculations are done on the unsaturated part.
Disadvantages of EMF:
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This method also requires the same data of the EMF
method:
If1= Field ampere turn require to produce rated voltage:
If2= Field ampere turn require to overcome the
demagentising effect of the armature reaction
MMF or Ampere Turn Method
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Unity power factor:
Procedure to find the Eo
From the phasor diagram the various magnitudes are
OA=If1 AB=If2 OB=Ifo
From the phasor diagram
Now find open circuit EMF Eo, using Ifo from open circuit
characteristics.
The Corresponding E0 is obtained form the graph
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Lagging Power Factor:
The Eo value is greater than terminal voltate and gives the positive regulation.
Similarly leading power factor gives the neagative regulation
This is called optimistic method because the regulation lesser than actual value.
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This method will give the regulation closer to the actual
value:
This requires an additional data called ZPF curve:
Zero Power Factor Method;
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1. Plot the open circuit characteristics.
2. Mark the field current corresponding to short circuit test as A along X axis.
3. Mark the field current required to produce rated voltage and rated current from ZPF test as P.
4. Join A and P to get a smooth curve called ZPF curve.
5. From P draw a line PQ equal and parallel to OA
6. Draw a tangent to OCC which is called as air line.
7. From Q draw a line parallel to air line to meet OCC at R.
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8. Join RP. Triangle QPR is called potier triangle.
9. From R draw a perpendicular line to QP to meet at S.
10. From potier triangle SP=If2=Field current required to overcome demagnetizing effect of armature reaction
11. From potier triangle RS =ILXL=Leakage reactance drop
In case of cylindrical rotor machines, Potier reactance is nearly equal to armature leakage reactance. In case of salient pole machines, the magnetizing circuit is more saturated and the armature leakage reactance is smaller than the Potier reactance.
After knowing the value of Potier reactance XL, find the regulation by using the following formulae.
1. E =
2. If0 =
Note: (+) sign for lagging power factor & (–) sign for leading power factor
If1 – Field current required to generate the phase e.m.f, E [measured from the
graph] (Amps).
If2 – Field current required for balancing armature reaction (Amps)
If0 – Total field current (Amps)
: The voltage corresponding to If0 is E0 [Measured from the graph]
3. Percentage Regulation %R =
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This method consider the partially saturated magnetic
circuit:
ASA Method
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1. In the graph draw a line from voltage E (calculated for given p.f in step 1 of ZPF method)
which is parallel to X axis which cuts the airgap line and OCC at points B and B’
respectively.
2. If3=Addition excitation required to take into account effect of partially saturated field
=BB’ from graph.
3. Adding If3 to If0 we get modified field current Ifm=If0+ If3 (Take the value If0 from step 3 of
ZPF).
4. From modified field current Ifm , the open circuit voltage E0 can be determined from OCC .
Now find the regulation by using %R= 0 100
E V
V
The results obtained by ASA method are reliable for both salient as well as non-salient pole machine.
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This curve indicate the maximum reactive power
loading for various active power loading:
Capabilitry Curves:
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