References

  1. V.J. Subiela, L. García-Rodríguez, B. Peñate Suárez, Configurations of reverse osmosis with variable energy consumption for off-grid wind-powered seawater desalination: system modelling and water cost, Desal. Wat. Treat., (2020) 1–15.
  2. IRENA, Electricity Storage and Renewables: Costs and Markets to 2030, International Renewable Energy Agency, November 2017. Available at: https://www.irena.org/-/media/Files/IRENA/Agency/Publication/2017/Oct/IRENA_Electricity_Storage_Costs_2017.pdf (accessed in February 2019).
  3. J.A. Carta, J. González, V.J. Subiela, Operational analysis of an innovative wind powered reverse osmosis system installed in the Canary Islands, Sol. Energy, 75 (2003) 153–168.
  4. J.A. Carta, J. González, C. Gómez, Operating results of a wind–diesel system which supplies the full energy needs of an isolated village community in the Canary Islands, Sol. Energy, 74 (2003) 53–63.
  5. ITC, Canary Islands Institute of Technology, Available at: http://www.itccanarias.org/web/index.jsp?lang=en.
  6. V.J. Subiela, J.A. de la Fuente, G. Piernavieja, B. Peñate, Canary Islands Institute of Technology (ITC) experiences in desalination with renewable energies (1996–2008), Desal. Wat. Treat., 7 (2009) 220–235.
  7. J.A. Carta, J. González, P. Cabrera, V.J. Subiela, Preliminary experimental analysis of a small-scale prototype SWRO desalination plant, designed for continuous adjustment of its energy consumption to the widely varying power generated by a stand-alone wind turbine, Appl. Energy, 137 (2015) 222–239.
  8. ENERCON GmBh, E44, Overview of Technical Details, Available at: https://www.enercon.de/en/products/ep-1/e-44/ Accessed May
  9. IRENA, IRENA Publications: The Power to Change. Solar and Wind Cost Reduction Potential to 2025, 2015. Available at: http://www.irena.org/publications/2016/Jun/The-Power-to-Change-Solar-and-Wind-Cost-Reduction-Potential-to-2025 [Accessed November 2017]
  10. M. Beaudin, H. Zareipour, A. Schellenberglabe, W. Rosehart, Energy storage for mitigating the variability of renewable electricity sources: an updated review, Energy Sustainable Dev., 14 (2010) 302–314.
  11. C. Moné, T. Stehly, B. Maples, E. Settle, 2014 Cost of Wind Energy Review, NREL Report. Available at: http://www.nrel.gov/docs/fy16osti/64281.pdf [Accessed December 2017].
  12. J. Díaz-Caneja, M. Fariñas, R. Rubial, Cost Estimation Briefing for Large Seawater Reverse Osmosis Facilities in Spain, January 2004.
  13. IRENA, Publications, 2012. Available at: https://www.irena.org/DocumentDownloads/Publications/IRENA-ETSAP%20Tech%20Brief%20E18%20Electricity-Storage.pdf
  14. ENF, Solar Inverter Directory, Available at: https://www.enfsolar.com/pv/inverter?page=1 [Accessed February 2018].
  15. IRENA, Renewable Power Generation Costs in 2017, (IRENA Publications), 2018. Available at: http://www.irena.org/publications [Accessed March 2018].
  16. X. Bernat, O. Gibert, R. Guiu, J. Tobella, C. Campos, The Economics of Desalination for Various Uses, in Re-thinking Paradigms: Water and Food, (4th Botín Foundation Water Workshop), L.G.A.L.G.E. Martínez Cortina, Ed., CRC Press, 2010.
  17. Apollo Power Systems, Available at: www.apollopowersystems. com [Accessed April 2018].
  18. ULPGC, Preliminary Design of Seawater Reverse Osmosis Desalination Systems Supplied by Wind Energy, TECOAGUA Project (Deliverable 11.3.3), CENIT Program, Department of Mechanical Engineering, Ministry of Sciences, Innovation and Universities, 2012.
  19. V. Yangali-Quintanilla, L. Olesen, J. Lorenzen, C. Rasmussen, H. Laursen, E. Vestergaard, K. Keiding, Lowering desalination costs by alternative desalination and water reuse scenarios, Desal. Wat. Treat., 55 (2015) 2437–2445.