Quèstion 6A 10 KW full load output power of shunt generator having an armature circuitresistance of 0.75 Q and a field resistance of 125 Q, generates a terminalvoltage of 250 V at full load, Rotational losses is 800W the efficiency of the generator at full loadequals to8181%83.17%79.22%75 49%A Moving to another question will save this response.Question 6 of 8 >Type here to search

(6) Given, A dc shunt generator has, Output power (Pout) = 10 kW Armeture resistance, Ra= 0.75…

Answered: Quèstion 6 A 10 KW full load output…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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DC motr
With the aid of diagrams describe the basic topology of a wound field 3 phase synchronous generator and outline the relationship between the excitation voltage and rotor current. Q2 (a) (b) Outline with the aid of a suitable diagram the necessary power conversion stages required to interface a small permanent magnet (PM) generator to a stand alone DC system. A star connected 3 phase wound field synchronous generator with a synchronous reactance of 20 N is connected to a 6.6 kV (phase voltage) grid and supplies 1.5 MW at 0.95 lagging power factor at its terminals. Calculate the phase current and resultant voltage across the synchronous reactance (Vxs), and from a scaled phasor diagram graphically determine the required excitation voltage (Eph) and load angle (8). (c) The load is now increased to 3 MW with the Excitation Voltage kept constant. Using the phasor diagram drawn in part (c) graphically determine the resultant phase current, power factor and load angle. (d)
' A three phase, star connected, round rotor synchronous generator is rated 250 MW, 0.85 lagging power factor, 10.8 kV 50 Hz, and 1600 rpm. Each winding has an armature resistance of 1.5 mOHM and a synchronous reactance of 0.5 OHM 1)Determine the induced voltage for the condition of rated load and 0.85 power factor lagging. 2) Draw the phasor diagram with calculated values. 3) Determine the values of theta, gamma, delta, and torque angle

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