Add to ORKGThis paper presents a new approach for optimising the design of tidal stream turbine farms. In this approach, the turbine farm is represented by a turbine density function that specifies the number of turbines per unit area and an associated continuous locally-enhanced bottom friction field. The farm design question is formulated as a mathematical optimisation problem constrained by the shallow water equations and solved with efficient, gradient-based optimisation methods. The resulting method is accurate, computationally efficient, allows complex installation constraints, and supports different goal quantities such as to maximise power or profit. The outputs of the optimisation are the optimal number of turbines, their location within the ...
Tidal currents are a promising source of clean and renewable power in many locations worldwide. In ...
A newly developed cost model for tidal stream turbines is presented. The model is based on (a) an ex...
Tidal stream currents change in magnitude and direction during flood and ebb tides. Setting the most...
This paper presents a new approach for optimising the design of tidal stream turbine farms. In this ...
Tidal stream turbines are devices that convert the momentum of tidally induced marine currents to el...
As an important form of renewable energy, tidal energy is challenged by many factors including its h...
Tidal current turbines have the potential to provide a proportion of global energy requirements. Ins...
Tidal stream power generation represents a promising source of renewable energy. In order to extract...
This paper proposes a multipole optimization as introduced by Holl et al. (2016) for the requirement...
The new and costly nature of tidal stream energy extraction technologies can lead to narrow margins ...
International audienceIn the next years, tidal farm will increase in size and density of devices to ...
For tidal-stream energy to become a competitive renewable energy source, clustering multiple turbine...
Tidal stream power generation is attractive for a number of reasons. However, this will only be dep...
An array of ten 1 MW turbines, with a one diameter inter-turbine spacing, is simulated in a hypothet...
The optimum operation strategy of a tidal turbine is calculated for a generic problem which consist...
Tidal currents are a promising source of clean and renewable power in many locations worldwide. In ...
A newly developed cost model for tidal stream turbines is presented. The model is based on (a) an ex...
Tidal stream currents change in magnitude and direction during flood and ebb tides. Setting the most...
This paper presents a new approach for optimising the design of tidal stream turbine farms. In this ...
Tidal stream turbines are devices that convert the momentum of tidally induced marine currents to el...
As an important form of renewable energy, tidal energy is challenged by many factors including its h...
Tidal current turbines have the potential to provide a proportion of global energy requirements. Ins...
Tidal stream power generation represents a promising source of renewable energy. In order to extract...
This paper proposes a multipole optimization as introduced by Holl et al. (2016) for the requirement...
The new and costly nature of tidal stream energy extraction technologies can lead to narrow margins ...
International audienceIn the next years, tidal farm will increase in size and density of devices to ...
For tidal-stream energy to become a competitive renewable energy source, clustering multiple turbine...
Tidal stream power generation is attractive for a number of reasons. However, this will only be dep...
An array of ten 1 MW turbines, with a one diameter inter-turbine spacing, is simulated in a hypothet...
The optimum operation strategy of a tidal turbine is calculated for a generic problem which consist...
Tidal currents are a promising source of clean and renewable power in many locations worldwide. In ...
A newly developed cost model for tidal stream turbines is presented. The model is based on (a) an ex...
Tidal stream currents change in magnitude and direction during flood and ebb tides. Setting the most...