Energies (Jun 2019)

O&M Models for Ocean Energy Converters: Calibrating through Real Sea Data

  • Tianna Bloise Thomaz,
  • David Crooks,
  • Encarni Medina-Lopez,
  • Leonore van Velzen,
  • Henry Jeffrey,
  • Joseba Lopez Mendia,
  • Raul Rodriguez Arias,
  • Pablo Ruiz Minguela

DOI
https://doi.org/10.3390/en12132475
Journal volume & issue
Vol. 12, no. 13
p. 2475

Abstract

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Of the cost centres that combine to result in Levelised Cost of Energy (LCOE), O&M costs play a significant part. Several developers have calculated component costs, demonstrating how they can become commercially competitive with other forms of renewable energy. However, there are uncertainties relating to the O&M figures that can only be reduced through lessons learned at sea. This work presents an O&M model calibrated with data from real sea experience of a wave energy device deployed at the Biscay Marine energy Platform (BiMEP): the OPERA O&M Model. Two additional case studies, utilising two other O&M calculation methodologies, are presented for comparison with the OPERA O&M Model. The second case study assumes the inexistence of an O&M model, utilising a Simplified Approach. The third case study applies DTOcean’s (a design tool for ocean energy arrays) O&M module. The results illustrate the potential advantages of utilising real sea data for the calibration and development of an O&M model. The Simplified Approach was observed to overestimate LCOE when compared to the OPERA O&M Model. This work also shows that O&M models can be used for the definition of optimal maintenance plans to assist with OPEX reduction.

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