Global warming has focused attention on how the world produces the energy required to power the planet. It has driven a major need to move away from using fossil fuels for energy production toward cleaner and more sustainable methods of producing renewable energy. The development of offshore windfarms, which harness the power of the wind, is seen as a viable approach to creating renewable energy but they can be difficult to design efficiently. The complexity of their design can benefit significantly from the use of computational optimisation. The windfarm optimisation problem typically consists of two smaller optimisation problems: turbine placement and cable routing, which are generally solved separately. This paper aims to utilise selection hyper-heuristics to optimise both turbine placement and cable routing simultaneously within one optimisation problem. This paper identifies and confirms the feasibility of using selection hyper-heuristics within windfarm optimisation to consider both cabling and turbine positioning within the same single optimisation problem. Key results could not identify a conclusive advantage to combining this into one optimisation problem as opposed to considering both as two sequential optimisation problems.

Butterwick, T., Kheiri, A., Lulli, G., Gromicho, J., Kreeft, J. (2023). Application of selection hyper-heuristics to the simultaneous optimisation of turbines and cabling within an offshore windfarm. RENEWABLE ENERGY, 208(May 2023), 1-16 [10.1016/j.renene.2023.03.075].

Application of selection hyper-heuristics to the simultaneous optimisation of turbines and cabling within an offshore windfarm

Lulli G.;
2023

Abstract

Global warming has focused attention on how the world produces the energy required to power the planet. It has driven a major need to move away from using fossil fuels for energy production toward cleaner and more sustainable methods of producing renewable energy. The development of offshore windfarms, which harness the power of the wind, is seen as a viable approach to creating renewable energy but they can be difficult to design efficiently. The complexity of their design can benefit significantly from the use of computational optimisation. The windfarm optimisation problem typically consists of two smaller optimisation problems: turbine placement and cable routing, which are generally solved separately. This paper aims to utilise selection hyper-heuristics to optimise both turbine placement and cable routing simultaneously within one optimisation problem. This paper identifies and confirms the feasibility of using selection hyper-heuristics within windfarm optimisation to consider both cabling and turbine positioning within the same single optimisation problem. Key results could not identify a conclusive advantage to combining this into one optimisation problem as opposed to considering both as two sequential optimisation problems.
Articolo in rivista - Articolo scientifico
Hyper-heuristic; Metaheuristics; Optimisation; Windfarm;
English
17-mar-2023
2023
208
May 2023
1
16
open
Butterwick, T., Kheiri, A., Lulli, G., Gromicho, J., Kreeft, J. (2023). Application of selection hyper-heuristics to the simultaneous optimisation of turbines and cabling within an offshore windfarm. RENEWABLE ENERGY, 208(May 2023), 1-16 [10.1016/j.renene.2023.03.075].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/413628
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