Journal of Power System Engineering (동력기계공학회지)

The Korean Society for Power System Engineering (한국동력기계공학회)
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Behavior Analysis of a Self Excited Induction Generator with Various Loads for a Hybrid Electric Propulsion System

하이브리드 전기추진시스템 구축을 위한 SEIG의 출력 특성 분석

  • Yang, Joo-Ho (Department of Mechanical System Engineering, PKNU) ;
  • Choi, Gyo-Ho (Department of Maritime Police & Technology, Gangwon State University) ;
  • Lee, Jae-Min (Department of Mechatronics, Graduate School, PKNU) ;
  • Jeong, Seok-Kwon (Department of Refrigeration and Air-conditioning Engineering, PKNU)
  • 양주호 (부경대학교 기계시스템공학과) ;
  • 최교호 (강원도립대학교 해양경찰과) ;
  • 이재민 (부경대학교 대학원 메카트로닉스 협동과정) ;
  • 정석권 (부경대학교 냉동공조공학과)
  • Received : 2017.10.17
  • Accepted : 2018.02.19
  • Published : 2018.02.28
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Abstract

This paper analyzes the output characteristics of a self excited induction generator with isolated mode according to change of its speeds and loads for building a hybrid electric propulsion system in special purpose ships by using power take off. The induction generators are being considered as an alternative choice to the well-developed generators because of their lower unit cost, inherent ruggedness, operational and maintenance simplicity. However, the generator working by stand alone has a few problems that the reactive power is required to establish the air gap magnetic flux, and the induced voltage and magnetizing current fluctuate when the load is varied. In spite of its advantages, basic design data of the capacitor bank and behaviors of the output characteristics of the generator are not sufficient for the system. Based on the operating condition(speed range of main engine) of the target boat, a reduced experimental equipment system was constructed to analyze the output characteristics of the SEIG. And a suitable capacitor bank of a stand-alone generator and its output characteristics under various loads was investigated in detail through these experiments. According to the experimental result, it was confirmed that the capacitor bank should be $70{\mu}F{\sim}100{\mu}F$, and the proper SEIG induced voltage should be DC 80 V ~ 250 V in order to storage electrical energy into a battery.

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References

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