Abstract
Wind energy is becoming a significant alternative solution for future energy production. Modern turbines now benefit from engineering expertise, and a large variety of different models exists, depending on the context and needs. However, classical wind turbines are designed to operate within a narrow zone centred around their optimal working point. This limitation prevents the use of sites with variable wind to harvest energy, involving significant energetic and economic losses. Here, we present a new type of bioinspired wind turbine using elastic blades, which passively deform through the air loading and centrifugal effects. This work is inspired from recent studies on insect flight and plant reconfiguration, which show the ability of elastic wings or leaves to adapt to the wind conditions and thereby to optimize performance. We show that in the context of energy production, the reconfiguration of the elastic blades significantly extends the range of operating regimes using only passive, non-consuming mechanisms. The versatility of the new turbine model leads to a large increase of the converted energy rate, up to 35%. The fluid/elasticity mechanisms involved for the reconfiguration capability of the new blades are analysed in detail, using experimental observations and modelling.
Highlights
IntroductionThe global energy demand for the decades will be based on renewable energies
To a large extent, the global energy demand for the decades will be based on renewable energies
Recent scenarios for 2050 reported by the International Energy Agency (IEA) or the Organization for Economic Co-operation and Development (OECD) predict that wind energy will represent 12% of the electricity produced on the planet
Summary
The global energy demand for the decades will be based on renewable energies. Recent scenarios for 2050 reported by the International Energy Agency (IEA) or the Organization for Economic Co-operation and Development (OECD) predict that wind energy will represent 12% of the electricity produced on the planet. The total amount produced by wind turbines covers less than 4%, meaning that the main effort in developing wind energy is still to come. Current wind turbines are efficient at specific working points [1]. This limitation is mainly due to the fact that for a given blade design (setting local angles of attack and aerodynamic coefficients along the blade), the turbine reaches its best performance over a narrow band of oncoming wind speeds and turbine loads [1,2]
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