Citas bibligráficas
Valenzuela, D., (2023). Evaluación del recurso eólico marino en el litoral peruano para la identificación de su potencial [Tesis, Universidad de Ingeniería y Tecnología]. https://hdl.handle.net/20.500.12815/388
Valenzuela, D., Evaluación del recurso eólico marino en el litoral peruano para la identificación de su potencial [Tesis]. PE: Universidad de Ingeniería y Tecnología; 2023. https://hdl.handle.net/20.500.12815/388
@misc{renati/230612,
title = "Evaluación del recurso eólico marino en el litoral peruano para la identificación de su potencial",
author = "Valenzuela Mena, Daniel Alejandro",
publisher = "Universidad de Ingeniería y Tecnología",
year = "2023"
}
Available information about offshore wind energy in Peru is currently limited. Only two studies have been developed and they share the fact of being mainly focused in wind velocities. As a response, this thesis tries to reduce the lack of information and integrate values of bathymetry, wind characterization, conservation areas, visual impacts and levelized cost of energy about implementing offshore wind energy in the front of the Peruvian coast. This way, the following remarkable results were obtained: The Peru-Chile marine trench limits the use of fixed-bottom foundations. According to the depths extracted from the offshore coast by GEBCO, there are areas less than 2 km away from the coast where floating foundations are needed. The ERA5 database used in the 1979-2018 period shows that the highest average speed in the Peruvian coast, 10.04 m/s at 100 m measurement height, is found in 27 km x 27 km pixel in front of the Paracas National Reserve. Only 40 km2 of surface between 10 km and 160 km off the coast coincide with being at the same time greater than average 7 m/s speed and require foundations bottom-fixed. Feasible areas for offshore wind energy development are located around three national reserves: Paracas, Islas Ballestas - Islas Chincha and San Fernando. The best feasible area, in front of Magdalena and Santiago de Cao districts, has no drawbacks related to visual impacts. The LCOE in above mentioned feasible zone is 112.66 $/MWh. This was calculated based on a Aerodyn 8.0 MW / 168 m turbine.
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