Proceedings of the 1st Workshop on Multidisciplinary and Its Applications Part 1, WMA-01 2018, 19-20 January 2018, Aceh, Indonesia

Research Article

Performance of AFWR Synchronous Motor as Changing from AFWR Synchronous Generator

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  • @INPROCEEDINGS{10.4108/eai.20-1-2018.2281910,
        author={Abdul  Multi and M. Dwi  Trisno and Budiyanto  Budiyanto},
        title={Performance of AFWR Synchronous Motor as Changing from AFWR Synchronous Generator},
        proceedings={Proceedings of the 1st Workshop on Multidisciplinary and Its Applications Part 1, WMA-01 2018, 19-20 January 2018, Aceh, Indonesia},
        publisher={EAI},
        proceedings_a={WMA-1},
        year={2019},
        month={9},
        keywords={afwr generator motor efficiency},
        doi={10.4108/eai.20-1-2018.2281910}
    }
    
  • Abdul Multi
    M. Dwi Trisno
    Budiyanto Budiyanto
    Year: 2019
    Performance of AFWR Synchronous Motor as Changing from AFWR Synchronous Generator
    WMA-1
    EAI
    DOI: 10.4108/eai.20-1-2018.2281910
Abdul Multi1,*, M. Dwi Trisno1, Budiyanto Budiyanto2
  • 1: Institut Sains Dan Teknologi Nasional (ISTN), Jl.Moh Kahfi II Jagakarsa Jakarta Selatan, Jakarta, Indonesia
  • 2: Electrical Department, Jakarta Muhammadiyah University (UMJ), Jakarta, Indonesia
*Contact email: amulti@istn.ac.id

Abstract

The tests should be performed for the three phase synchronous generator of Axial Flux Wound Rotor (AFWR) which has been planned and constructed. The tests are also performed for the motor deriving from that AFWR generator. The behavior of the generator and the motor can be known after those testing. Hence, by using one machine, it can be operated for resulting electricity and for rotating mechanic. The load examining is applied for the synchronous machine. The electrical load can be attached to the generator after it is running and the testing output is achieved. Likewise, the mechanical load can be connected to the motor after it is supplied by the power source and the examining outcome is gained. The mesurement in those tests are executed the nominal load. From the testing output of AFWR synchronous generator at rated load having 0.5 mm air gap yielding the efficiency of 61.61% with the rotor voltage of 10.85 V. Whereas, from the examining outcome of AFWR synchronous motor with the terminal voltage 0f 380 V and the field voltage of 9.53 V is attained 73.58%.