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Integration of a wave energy converter into the electricity supply of a remote Alaskan island

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  • Beatty, Scott J.
  • Wild, Peter
  • Buckham, Bradley J.

Abstract

The electrical power integration of a heaving point absorber wave energy converter to a remote island community of population 100 is investigated. A wave resource assessment, taking into account the local geography, is completed. The operational concept and specifications of the wave energy converter are presented. A detailed description of the frequency domain modelling and control approach used to estimate in situ performance of the wave energy converter is given. Time series comparisons are made between wave power capture and community electrical demand. Analyses of electrical grid penetration ratios suggest that a deployment of a single offshore wave energy converter of 100 kW capacity could be a feasible renewable electricity source for the island.

Suggested Citation

  • Beatty, Scott J. & Wild, Peter & Buckham, Bradley J., 2010. "Integration of a wave energy converter into the electricity supply of a remote Alaskan island," Renewable Energy, Elsevier, vol. 35(6), pages 1203-1213.
  • Handle: RePEc:eee:renene:v:35:y:2010:i:6:p:1203-1213
    DOI: 10.1016/j.renene.2009.11.040
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    3. Halliday, J. Ross & Dorrell, David G. & Wood, Alan R., 2011. "An application of the Fast Fourier Transform to the short-term prediction of sea wave behaviour," Renewable Energy, Elsevier, vol. 36(6), pages 1685-1692.
    4. O’Kelly-Lynch, Patrick & Long, Cian & McAuliffe, Fiona Devoy & Murphy, Jimmy & Pakrashi, Vikram, 2020. "Structural design implications of combining a point absorber with a wind turbine monopile for the east and west coast of Ireland," Renewable and Sustainable Energy Reviews, Elsevier, vol. 119(C).
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    6. Kasiulis, Egidijus & Punys, Petras & Kofoed, Jens Peter, 2015. "Assessment of theoretical near-shore wave power potential along the Lithuanian coast of the Baltic Sea," Renewable and Sustainable Energy Reviews, Elsevier, vol. 41(C), pages 134-142.
    7. William López-Castrillón & Héctor H. Sepúlveda & Cristian Mattar, 2021. "Off-Grid Hybrid Electrical Generation Systems in Remote Communities: Trends and Characteristics in Sustainability Solutions," Sustainability, MDPI, vol. 13(11), pages 1-29, May.
    8. Kuang, Yonghong & Zhang, Yongjun & Zhou, Bin & Li, Canbing & Cao, Yijia & Li, Lijuan & Zeng, Long, 2016. "A review of renewable energy utilization in islands," Renewable and Sustainable Energy Reviews, Elsevier, vol. 59(C), pages 504-513.
    9. Cui, Jingshi & Wu, Jiaman & Wu, Chenye & Moura, Scott, 2023. "Electric vehicles embedded virtual power plants dispatch mechanism design considering charging efficiencies," Applied Energy, Elsevier, vol. 352(C).
    10. Fadaeenejad, M. & Shamsipour, R. & Rokni, S.D. & Gomes, C., 2014. "New approaches in harnessing wave energy: With special attention to small islands," Renewable and Sustainable Energy Reviews, Elsevier, vol. 29(C), pages 345-354.
    11. Ozkop, Emre & Altas, Ismail H., 2017. "Control, power and electrical components in wave energy conversion systems: A review of the technologies," Renewable and Sustainable Energy Reviews, Elsevier, vol. 67(C), pages 106-115.
    12. Bhattacharya, Saptarshi & Pennock, Shona & Robertson, Bryson & Hanif, Sarmad & Alam, Md Jan E. & Bhatnagar, Dhruv & Preziuso, Danielle & O’Neil, Rebecca, 2021. "Timing value of marine renewable energy resources for potential grid applications," Applied Energy, Elsevier, vol. 299(C).
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