Cover
Vol. 7 No. 1 (2011)

Published: May 31, 2011

Pages: 55-59

Original Article

Development of a Prototype Renewable Energy System and its Modification to Suit Middle East Applications

Salman K Salman 1
1Independent Consultant
History
  • Received: March 31, 2011
  • Available Online: May 31, 2011
DOI

https://doi.org/10.37917/ijeee.7.1.10

Abstract

This paper concerns with exploitation of renewable energy sources for meeting energy requirements of remote locations. It presents an investigation which is based on a practical project that was executed in collaboration between academia and industry. It involves design and installation of a prototype integrated renewable energy system which consists of two 15 kW wind turbines, electrolyser, fuel cell system (FCS) and the associated control equipment. It was installed at the furthest island of Shetland, North of Scotland, U.K. The philosophy used in designing this system is summarised as follows: During times of high wind, the electricity generated by wind turbines is normally greater than that required by site electrical load. The excessive amount of generated electricity is stored into Hydrogen by utilising an electrolyser which is then used to generate the deficient electric power by the FCS at times of low wind.

References

  1. International Energy Agency, "Energy Technology Prospective", Paris, 2008.
  2. Greenpeace International and European Renewable Energy Council, "Energy [R]evolution: A Sustainable Global Energy Outlook", Amsterdam and Brussels, 2008.
  3. Global Wind Energy Council, "Global Wind Energy Outlook 2008", Brussels.
  4. Crispin Aubrey (ed.), Greenpeace & EPIA, "Solar Generation IV: Solar Electricity for Over One Billion People and Two Million Jobs by 2002", 2007.
  5. Arnaud Rte and Oystein Ulleberg, "The Utsira Wind-Hydrogen Demonstration System in Norway: Analysis and Optimisation Using Modelling Tools", EWEC 2009, Marseille.
  6. Tapan K. et al., "Stand-alone Renewable Energy System Based on Hydrogen Production", Canada, http://www.ieahia.org/pdfs/res_uquebec.pdf (accessed 29 January 2010).
  7. R. Gazey, S. K. Salman, D. D. Aklil-D’Halluin, "A Field Application Experience of Integrating Hydrogen Technology with Wind Power in a Remote Island Location", Elsevier Journal of Power Sources, POWER-D-05-01096, February 2006.
  8. S. Heier, *Grid Integration of Wind Energy Conversion System*, John Wiley & Sons Ltd., Chichester, UK, 1998.
  9. Proven Energy Ltd., "Proven WT15000 Wind Turbine, Advanced Technical Specifications", http://www.provenenergy.com/index.php?option=com_content&task=view&id=21&Itemid=37.
  10. Ross Gazy, "Design and Development of an Integrated Prototype Renewable Hydrogen Energy System", MPhil Thesis, Robert Gordon University, Aberdeen, U.K., 2006.