Design and Simulation of A Single Current Sensor Maximum Power Point Tracker for Solar Hydrogen System

Authors

  • F. Zhang Author
  • S. Carr Author
  • K. Thanapalan Author
  • J. Maddy Author
  • A. Guwy Author

DOI:

https://doi.org/10.24084/repqj11.333

Keywords:

Solar, Hydrogen system, Maximum power point tracking, Single current sensor

Abstract

Renewable energy sources have attracted a lot of research interest in the past decade. Among these, solar energy is regarded as one of the promising energy sources and has been deployed worldwide with the installed capacity continually increasing. Solar-hydrogen systems have been under research for more than two decades. In such system, maximum power point tracking (MPPT) plays an important role to deliver maximum power from solar panels to the electrolyser. In this paper, two simple but effective MPPT methods are developed and evaluated. Differed from most of the existing methods, these methods are only reliant on a single current sensor input to locate the maximum power point of the solar panel.

Author Biographies

  • F. Zhang

    Sustainable Environment Research Centre (SERC) 
    Renewable Hydrogen Research and Demonstration Centre 
    University of Glamorgan 
    Baglan Energy Park, Baglan 
    Port Talbot, SA12 7AX, U.K. 

  • S. Carr

    Sustainable Environment Research Centre (SERC) Renewable Hydrogen Research and Demonstration Centre.
    University of Glamorgan. United Kingdom

  • K. Thanapalan

    Sustainable Environment Research Centre (SERC) Renewable Hydrogen Research and Demonstration Centre.
    University of Glamorgan. United Kingdom
    Sustainable Environment Research Centre. Faculty of Advanced Technology, University of Glamorgan. United Kingdom

  • J. Maddy

    Sustainable Environment Research Centre (SERC) Renewable Hydrogen Research and Demonstration Centre.
    University of Glamorgan. United Kingdom

  • A. Guwy

    Sustainable Environment Research Centre (SERC) Renewable Hydrogen Research and Demonstration Centre.
    University of Glamorgan. United Kingdom

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Published

2024-01-24

Issue

Vol. 11 No. 3 (2013)

Section

Articles