eece-165 basic electrical technology...
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EECE-165Basic Electrical Technology
References
1. A textbook of Electrical Technology (Vol.II)-B. L. Theraja -B. L. Theraja
2. Electronic Devices & Circuit Theory-R.L. Boylstad
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Introduction to Electrical EngineeringEngineering
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WELCOME TO THE LECTURE ON DC GENERATORON DC GENERATOR
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Faraday’s law of Electromagnetic Induction
• A voltage is induced in a conductor if the conductor cuts lines of magnetic flux.
N S
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Lenz’s Law
• When a conductor is moved through a magnetic fields a voltage is induced in the conductor .If the circuit is closed, the induced voltage will cause a current flow. The voltage will cause a current flow. The magnetic field produced by the current will always oppose the motion of the conductor.
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DC Generators
• An electrical Generator is a machine which convertsmechanical energy (or power) into electrical energy (orpower).
• Principle :It is based on the principle of production of dynamically (or motionally) induced e.m.f (Electromotive Force). Whenever a motionally) induced e.m.f (Electromotive Force). Whenever a conductor cuts magnetic flux, dynamically induced e.m.f. is produced in it according to Faraday's Laws of Electromagnetic Induction. This e.m.f. causes a current to flow if the conductor circuit is closed.
Hence, the basic essential parts of an electric generator are :• A magnetic field and• A conductor or conductors which can so move as to cut the flux.
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• A single-turn rectangular copper coil abcd moving about its own axis in a magnetic field provided by either permanent magnets or electromagnets. The two ends of the coil are joined to two split-rings which are insulated from each other and from the central shaft. Two collecting brushes (of carbon or copper) press against the slip rings.
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Split ring
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D. C. Generator
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Portable D. C. Generator
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D. C. Generator
Principle of Operation
When a conductor rotates in a magnetic field, When a conductor rotates in a magnetic field, dynamically induced e.m.f is produced in it according to Faraday’s law of electromagnetic induction
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Generated E.M.F./E.M.F. Equation of a Generator
Let φ Flux/Pole in Wb
Z Total No. of Armature Conductors
No. of Slots No. of Conductors per Slot
P No. of Generator poles
=
=
= ×
=P No. of Generator poles
A No. of Parallel Paths in Armature
N Armature rotation in rpm
E E.M.F. induced in any parallel path in Armature
Gener
=
=
=
=
gated E.M.F., E E.M.F. generated in any oneof the parallel paths i.e E=
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secN60
dt,revolution1forTime
N/60s/secRevolutionofNo.
WbφPdφ,revolution1intorcut/conducFluxNow,
voltdtdφ
ConductorGenerated/E.M.F.Average
=∴
=
=
=
Hence, according to Faraday’s Laws of electromagnetic induction,Hence, according to Faraday’s Laws of electromagnetic induction,
volt60
φPN60/NφP
voltdtdφ
conductorGenerated/E.M.F.
==
=
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For Wave wound Generator
No. of Parallel Paths = 2
No. of Conductors (in series) in 1 path = Z/2
volt120
φZPNvolt
260φPN
pathGenerated/E.M.F. =×=Z
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For Lap wound Generator
No. of Parallel Paths = P
No. of Conductors (in series) in 1 path = Z/P
volt60
φZNvolt
P60φPN
pathGenerated/E.M.F. =×=Z
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In General,
Generated E.M.F.
voltAP
60φZN
E g
=
windinglapforP
windingwavefor2Awhere,
=
=
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Also,
voltAP
πωφZ
voltAP
φZπN
πEg
=
=
2602
21
For a given D.C. Machine, Z, P and A are constants
Hence, Putting Hence, Putting
rps)inis(N
voltsφNk2πωφ
kE
get,we,AZP
k
aag
a
==
=
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Types of D.C. Generators
According to the way in which their fields are excited, generators are classified into :
i) Separately excited D.C. Generatorii) Self- excited D.C. Generator
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i) Separately excited D.C. Generators are those whose field magnets are energized from an independent source of D.C. Current
DropsBrushIREV ag −−=
Ra = Armature Resistance
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ii) Self excited D.C. Generators are those whose field magnets are energized by the currents produced by the generatorsthemselves.
There are 3 types of self-excited D.C. Generators named according tothe manner in which their field coils are connected to the armature.
These are :
• Shunt wound D.C. Generator• Series wound D.C. Generator• Compound wound D.C. Generator
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i) Shunt wound D.C. Generator
Rsh – Shunt Field ResistanceRa - Armature Resistance
sha III +=
DropsBrushRIEV aag −−=
shsh RIV =
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ii) Series wound D.C. Generator
DropsBrush)RR (IEV seaag −+−=
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iii) Compound wound D.C. Generator
Eg
LOAD
I
Shunt Field
VIa
Ish
Series Field
Short Shunt
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Eg
LOAD
I
Shunt Field VIa
Ish
Series Field
Long Shunt
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Ex.1 A D.C. Shunt Generator delivers 450A at 230V and the resistance of the shunt field and armature are 50Ω and 0.03 Ωrespectively. Calculate the generated EMF.
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Ex.2 An 8 - pole D.C. Shunt Generator with 778 wave wound armature conductors running at 500 rpm suppliesa load of 12.5Ω resistance at terminal voltage of 250V.The armature resistance is 0.24Ω and the field resistance is 250Ω .Find the armature current, the generated EMF and the flux per pole.
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IRON LOSS IN THE ARMATURE• Hysteresis Loss
– This loss is due to the reversal of magnetism of the armature core.
– (Every portion of the rotating core passes rotating core passes under N and S pole alternately, thereby attaining S and N polarity respectively)
– Review:Hysteresis Loss
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EDDY CURRENT LOSS• Eddy Current Loss
– The core material is electrically conductive.
– When it rotates, it also cuts the flux.
Solution:Lamination
7– Hence, an e.m.f. is induced in the body of the core.
– This e.m.f. sets up current in the body of the core
7
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TOTAL LOSS IN DC GENERATOR
Copper Loss Iron/Magnetic Loss Mechanical Loss
Total Loss
Armature Cu Loss Field Cu Loss
Copper Loss
Hysteresis Loss Eddy Current Loss
Iron/Magnetic Loss
Friction Windage
Mechanical Loss
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COPPER LOSS
• Copper losses (Cu losses)– Armature copper loss = – Field copper loss = – Loss due to brush contact resistance; usually included in the armature copper
2a aI R
2f fI R
usually included in the armature copper loss.
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MECHANICAL LOSS• Mechanical losses
– Friction loss at bearings and commutator– Air-friction or windage loss of rotating armature
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Different Losses
• Stray Losses: usually magnetic and mechanical losses are collectively known as Stray Losses.
• Constant Losses: , consists of stray W• Constant Losses: , consists of stray losses and shunt Cu losses.
• Variable Loss: varied with the load current -armature Cu loss.
cW
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GENERATOR POWER STAGES• Total Losses = Constant Losses + Variable Losses
g aE I= Watt
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EFFIECIENCY
g aE I= Watt
Mechanical Efficiency = B / AElectrical Efficiency = C / BOverall/Commercial Efficiency = C / A
g a Watt
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Example-1
• A long shunt dynamo running at 1000 r.p.m. supplies 22 kw at a terminal voltage of 220 V .The resistance of armature ,shunt field and the series field are .05 ohm,110 and .06 ohm respectively. The overall efficiency at the above respectively. The overall efficiency at the above load is 88%. Find
• Cu losses • Iron and friction losses • The torque exerted by the prime mover
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MATHS
• All the related examples of Theraja