Experimental study on self-excited induction generator for small-scale isolated rural electricity applications

Induction generators have been gaining popularity since the last few decades for the small -scale off-grid power generation renewable energy applications due to many inherent advantages. The IG is not a self-started generator in off-grid mode of operation to generate the required voltage because of...

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Bibliographic Details
Published in:Results in engineering 2023-06, Vol.18, p.101182, Article 101182
Main Authors: Murali Krishna, V.B., Sandeep, V., B.K., Narendra, Prasad, K.R.K.V.
Format: Article
Language:English
Subjects:
Induction generator (IG)
Loading capacity
Power quality
Reactive power (Var)
Self-excited induction generator (SEIG)
Voltage regulation (VR)
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Summary:Induction generators have been gaining popularity since the last few decades for the small -scale off-grid power generation renewable energy applications due to many inherent advantages. The IG is not a self-started generator in off-grid mode of operation to generate the required voltage because of isolation from the grid to supply the required amount of reactive power to the generator. In this context, the self-excitation process in the induction generator mainly depends on the amount of reactive power, then speed of the rotor, and load on the system. In this paper, the effect of these three parameters on the performance of the self-excited induction generator is experimentally studied. The focus of the paper is to identify the best configuration of generator operation to carry out the maximum loading capacity and economical operation. Further, the proposed study is extended for an extra initial excitation approach and verified the performance under the same source and load condition and derived some key aspects for utilization of the generator at its maximum loading capacity. A micro-hydro source driven turbine emulations used as an input source to the SEIG in this experimental work. •Demonstration of working phenomena and steady-state analysis of three-phase SEIG.•Investigations on possible configurations of SEIG under different load conditions.•Performance comparison of the SEIG with minimum and extra excitation approaches.
ISSN:2590-1230
2590-1230
DOI:10.1016/j.rineng.2023.101182