Proceedings ArticleDOI
Investigation on Loading Effect of a Series Resonance Circuit on Asynchronous Generator with AC-DC-AC Converter as a Load Balancer
K. Subramanian,K.K. Ray +1 more
- pp 453-457
TLDR
Effect of frequency variations on series resonance circuit and its effect on input side of the uncontrolled rectifier have been investigated experimentally and the result shows power factor has been improved even though load current is lagging behind the source voltage.Abstract:
This paper deals with the evaluation on loading effect of series resonance circuit at the point of common coupling (PCC) of an asynchronous generator. Effect of frequency variations on series resonance circuit and its effect on input side of the uncontrolled rectifier have been investigated experimentally. The result shows power factor has been improved even though load current is lagging behind the source voltage. Power factor angle is reduced when the inverter output frequency is below the resonance frequency. This reduction in power factor angle reflects the effect of leading Var injection into the source.read more
Citations
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Analysis of self-excited induction generators
TL;DR: An analytical technique using the `Newton-Raphson' method is presented to identify the saturated magnetising reactance and the generated frequency of a self-excited induction generator for a given capacitance, speed and load.
Electricity Generation from a Fuelless Engine in an Isolated Power Generation System
Abatan O.A,Adewale A.O +1 more
TL;DR: In this article, the authors focused on emergence of fuelless engine as a possible alternative for isolated power generation from renewable energy sources because of its low cost, low maintenance cost and rugged construction.
Proceedings ArticleDOI
Simulation of AC/DC/AC converter fed RLC series circuit with asynchronous generator using Mat lab/Simulink
TL;DR: In this paper, the simulation studies of a 3-0 self-excited asynchronous generator (SEASG) fed RL load in conjunction with an AC/DC/AC converter fed series RLC circuit are described.
Modeling and Simulation of an Asynchronous Generator with AC/DC/AC Converter Fed RLC Series Circuit in an Isolated Power Generation System
Jbv Subrahmanyam,P. K. Sahoo +1 more
TL;DR: In this paper, a self-excited asynchronous generator (SEASG) feeding RL load in conjunction with an AC/DC/AC converter fed RLC series circuit connected at the Point of Common Coupling (PCC) is simulated.
Electricity Generation from a Fuelless Engine in an Isolated Power Generation System
TL;DR: In this article, the authors focused on emergence of fuelless engine as a possible alternative for isolated power generation from renewable energy sources because of its low cost, low maintenance cost and rugged construction.
References
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Journal ArticleDOI
An active power factor correction technique for three-phase diode rectifiers
TL;DR: In this article, a novel active input power factor correction method for power supplies with three-phase front-end diode rectifiers is proposed and analyzed and the implementation of this method requires the use of an additional single switch boost chopper.
Analysis of self-excited induction generators
TL;DR: An analytical technique using the `Newton-Raphson' method is presented to identify the saturated magnetising reactance and the generated frequency of a self-excited induction generator for a given capacitance, speed and load.
Analysis of self-excited induction generators
TL;DR: In this article, an analytical technique using the ''Newton-Raphson'' method is presented to identify the saturated magnetising reactance and the generated frequency of a self-excited induction generator for a given capacitance, speed and load.
Journal ArticleDOI
Wind Energy Conversion Using A Self-Excited Induction Generator
G. Raina,Om P. Malik +1 more
TL;DR: In this article, a wind energy conversion scheme using an induction machine driven by a variable speed wind turbine is described, where a single value capacitor and a thyristor controlled inductor are employed for energy conversion.
Journal ArticleDOI
Steady State Analysis of Capacitor Self-Excited Induction Generators
TL;DR: In this paper, the steady state analysis of self-excited induction generators using balanced terminal capacitors is presented, where both operational and steady state equivalent circuits of the induction machine are employed to predict the steady-state performance under different load conditions.