GA-Based Permutation Logic for Grid Integration of Offshore Multi-Source Renewable Parks
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- @Article{Rojas-Delgado:2022:machines,
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author = "Brenda Rojas-Delgado and Chisom Ekweoba and
George Lavidas and Irina Temiz",
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title = "{GA}-Based Permutation Logic for Grid Integration of
Offshore Multi-Source Renewable Parks",
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journal = "Machines",
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year = "2022",
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volume = "10",
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number = "12",
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pages = "Article number 1208",
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month = "13 " # dec,
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keywords = "genetic algorithms, genetic programming, distributed
energy resources, offshore renewables, permutation
control logic, point of common coupling",
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ISSN = "2075-1702",
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URL = "https://pure.tudelft.nl/ws/portalfiles/portal/141405874/machines_10_01208.pdf",
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URL = "https://www.mdpi.com/2075-1702/10/12/1208",
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DOI = "doi:10.3390/machines10121208",
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size = "22 pages",
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abstract = "We propose and analyze a genetic algorithm based
permutation control logic applied to the aggregator of
an offshore multi-source park. The energy losses at the
common coupling point are accounted for in the
feedback. This paper focuses on offshore distributed
energy resources, such as floating photovoltaic (PV),
wind, and wave power. The main contributions of this
research are the development of a control system that
is capable of tracking the set-point imposed by the
demand curve for each source individually, the
introduction of a capacity factor for combined offshore
floating PV/wind/wave power farms, and the unveiling of
pure offshore renewable sources as potential
storage-less flexibility service providers. The results
of a case study for a site near San Francisco showed
that energy losses and capacity factors are positively
influenced by implementing it",
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notes = "Also known as \cite{machines10121208}",
- }
Genetic Programming entries for
Brenda Rojas-Delgado
Chisom Ekweoba
George Lavidas
Irina Temiz
Citations