초록 ▼

The wind turbine (1) comprises a rotor (2) with a number of blades mounted for rotation about a mainly horizontal axis, and the pitch of the blades of the wind turbine is controlled dependence on measured parameters to optimize the operation of the wind turbine with respect to produced energy under

The wind turbine (1) comprises a rotor (2) with a number of blades mounted for rotation about a mainly horizontal axis, and the pitch of the blades of the wind turbine is controlled dependence on measured parameters to optimize the operation of the wind turbine with respect to produced energy under varying weather and wind conditions. By measuring mechanical loads on the blades (7, 8), and controlling the pitch of the blades of the wind turbine in such a way, that the measured mechanical loads are maintained below certain limits during operation, the control can be performed closer to the mechanical load limits of the blades without risk of exceeding these limits.

대표청구항 ▼

1. A method of controlling (4) the operations of a wind turbine (1) comprising a rotor (2) with a number of blades mounted for rotation about a mainly horizontal axis (3), said method comprising a) controlling (4) the pitch of the blades of the wind turbine (1) in dependence on measured parameter

1. A method of controlling (4) the operations of a wind turbine (1) comprising a rotor (2) with a number of blades mounted for rotation about a mainly horizontal axis (3), said method comprising a) controlling (4) the pitch of the blades of the wind turbine (1) in dependence on measured parameters in order to optimize the operation of the wind turbine (1) with respect to produced energy under varying weather and wind conditions, and b) measuring (7,8) mechanical loads on the blades, characterized by further comprising using the measured (7,8) mechanical loads to calculate the positions of the blade tips and adjusting the control (4) of the wind turbine (1) in order to maintain a certain safety distance between the blades and a tower (5). 2. A method in accordance with claim 1, characterized by further comprising controlling (4) the pitch of the blades of the wind turbine (1) in such a way that the measured mechanical loads are maintained below certain limits during operation. 3. A method in accordance with claim 1, characterized by comprising using the measured mechanical loads to deduce information on the character of the wind field and adapting the control of the wind turbine in dependence thereof. 4. A method in accordance with claim 1, characterized by further comprising controlling the pitch of the blades of the wind turbine individually in dependence on the measured mechanical loads of the blades. 5. A method in accordance with claim 1, characterized by further comprising using the measured mechanical loads to ensure safe operation of the wind turbine at reduced energy production at higher winds, where wind turbines would normally be stopped. 6. A method in accordance with claim 1, characterized by further comprising collecting statistical information on the measured mechanical loads on the blades. 7. A wind turbine, comprising a rotor with a number of blades mounted for rotation about a mainly horizontal axis, means for controlling the pitch of the blades in dependence on measured parameters, mechanical load sensors mounted to measure the mechanical loads on the blades and connected to influence the means for controlling the pitch of the blades, characterized by the mechanical load sensors being connected to a controller comprising means for calculating the positions of the blade tips and influencing the control of the individual blade pitch angles in order to maintain a certain safety distance between the blades and a tower. 8. A wind turbine (1) in accordance with claim 7, characterized by the controller (4) further comprising means for controlling (4) the pitch of the blades of the wind turbine (1) in such a way that the measured mechanical loads are maintained below certain limits during operation. 9. A wind turbine in accordance with claim 7, characterized by the controller further comprising means for deducing information on the character of the wind field and influencing the control of the wind turbine in dependence thereof.