I need the complete solution. 24. A separately excited generator with a speed of 1200 r.p.m., supplies a load of 200 A at 125 V.What will be its new armature current if speed is changed to 1000 r.p.m. keeping field excitationconstant. Assume R₁ = 0.04 2 and total brush drop of 2 V. Assume load resistance constant.=:(Ans. 166.16 A)23. A long shunt compound generator delivers 50 A load at 500 V. Find induced e.m.f. and thearmature current. Assume Ra 0.05 2. Rsc = 0.03 2 and Rsh 250 and brush drop of 1V/brush. If flux per pole is 25 mWb with 250 number of armature conductors. Calculate speed ofthe prime mover. The machine has 6 poles with wave type armature winding.If same generator is connected as short shunt type, to supply same load at same voltage, at whatspeed it should be driven.(Ans.: 506.16 V, 52 A, 1619.71 r.p.m., 1619.52 r.p.m.)32. A 4-pole lap wound armature running at 1500 r.p.m. delivers a current of 150 A and has 64commutator segments. The brush spans 1.2 segments and inductance of each armature coil is 0.05mH. Calculate the value of reactance voltage assuming i) linear commutation and ii) sinusoidalcommutation. Neglect mica thickness.(Ans.: 5V, 5.53 V)

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Answered: 24. A separately excited generator with…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

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6. The O.C.C. of a shunt generator when separately-excited and running at 1000 r.p.m. is given by : O.C.C. volt : 56 112 150 180 200 216 230 Field amp. : 0.5 1.0 1.5 2.0 2.5 3.0 3.5 If the generator is shunt-connected and runs at 1100 r.p.m. with a total field resistance of 80 2, determine (a) no-load e.m.f. (b) the output when the terminal voltage is 200 V if the armature resistance is 0.1 Q. (c) the terminal voltage of the generator when giving the maximum output current. Neglect the effect of armature reaction and of brush contact drop.
A 6 pole wave wound d.c. shunt generator has 500 conductors. A generator delivers 50 kW of power at 250 voltage at full load. The resistance of the field circuit is 125 2. Actual brush shift is 10°. Then find the demagnetizing and cross magnetizing ampere turns per pole and how many additional turns must be wound on each pole to eliminate the demagnetizing effect.
A short shunt compound generator supplies 100A at 110V. Armature resistance is 0.050 and the shunt field resistance is 570 and the series field of resistance is 0.042. if the SPL is 852, determine a)Eg b)Copper lossesin b.1)armature b.2)series b.3)shunt c)n
The terminal voltage of a 150 kW series generator is 600 V at rated load. The armature resistance is 0.06 ohms and the series field resistance is 0.04 ohms. Find generated emf.
A 500 V, 250 kW, long shunt compound generator induces an e.m.f. of 480 V whenrunning at 1000 r.p.m. no load. On full load the spped of the machine drops to 975r.p.m. the flux increases by 15% and the terminal voltage rises to 500 V. If theseries and shunt field resistances are 0.02 ohm and 100 ohms respectively,calculate the armature resistance. Assume a voltage drop of 1V per brush.[Ans.
al Power Technology A short-shunt d.c. compound generator supplies 250A at 50V. The resistance of armature, series field and shunt field windings are 0.02, 0.08 and 50 ohms respectively. Find the emf generated. The armature current la The generated voltage Eg An 8-pole d.c. generator has 455 armature conductors, and a useful flux of 44 mWb per pole. What will be the e.m.f. generated if it is lap-connected and runs at 1060 rpm? What must be the speed at which it is to driven produce the same e.m.f. if it is wave-wound?
1.Two identical shunt generators running in parallel, each with armature resistance of 0.02 ohms and field resistance of 50 ohms. The combined load current is 5000A. The field are so excited that the generated voltages of one machine is 610V and the other is 600V. The terminal voltage of this parallel combination will be. www Ish1 Rh1 a.350-360 V b.450-460 V c. 550-560V Rat www az G₂ Raz 5000 A Ish2
A shunt DC generator has no load terminal voltage of 140V. Armature resistance is 1ohm and shunt field resistance is 50ohm. Calculate the induced voltage.
The armature reaction occurs when a separately excited generator supplies rated load: Is always present Is always absent May be sometimes present None of the above
Q 5. A wave-wound armature of a 6-pole generator has 51 slots. Each slot contains 20 conductors. The voltage required to be generated is 250 V. What would be the speed of coupled prime mover if flux per pole is 0.07 Wb. If the armature is rewound as lap-wound machine and run by same prime mover, what will be the generated voltage? (Ans. 70 rpm; 83.3 V)
A 250 V d.c. shunt generator has 1250 watts constant loss. Find out load current at maximum efficiency. Take armature resistance as 0.1ohm.
7 A three-phase, 60-cycle, 32-pole synchronous generator has a sinusoidally distributed air-gap flux of 0.025 weber/pole. The armature core has 324 slots. The armature winding is Y-connected. There are two coil sides per slot and two turns per coil. The coil pitch is 9 slots. Find the generated voltage between the line terminals. Ans. 2,445 V

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