Patent application number | Description | Published |
20110031763 | UPWIND WIND TURBINE WITH BLADES SUPPORTED ON THE LEEWARD SIDE - A wind turbine comprising a number of blades extending substantially radially from a rigid hub on a main shaft having a substantially horizontal axis. The blades together with the hub constituting a rotor with a rotor plane, which can be put into rotation by wind. The main shaft is pivotally mounted in a nacelle mounted on top of a tower, the nacelle being able to pivot around a vertical axis in relation to the tower, hereby being able to adjust the rotor plane of the blades in relation to a direction of the wind. The wind turbine is an upwind machine in that the rotor during normal use of the wind turbine is positioned on the upwind side of the tower. The rotor during normal use of the wind turbine having a windward side and a leeward side, and each blade having an innermost part comprising a root section of the blade and an outermost part comprising a tip section of the blade. Each blade is supported on the leeward side by at least a first leeward supporting means having a first end and a second end, the first end being connected to the blade at a first leeward mounting point positioned in a radial distance from the horizontal axis, and the second end being connected to a second leeward mounting point at a rotatable part of the wind turbine, the second leeward mounting point being positioned in an axial distance from the rotor plane on the leeward side of the rotor. | 02-10-2011 |
20120057984 | WIND TURBINE BLADE PROVIDED WITH FLOW ALTERING DEVICES - A blade for a rotor of a wind turbine is divided into a root region closest to the hub and an airfoil region with a lift generating profile furthest away from the hub and a transition region. A base part of the transition region has an axial induction factor, which without flow altering device deviates at least 5% from a target axial induction factor. A number of first flow altering devices are arranged so as to adjust the aerodynamic properties of a longitudinal segment of the transition region to substantially meet the target axial induction factor. | 03-08-2012 |
20120057987 | WIND TURBINE BLADE WITH BASE PART HAVING NON-POSITIVE CAMBER - A blade, for a rotor of a wind turbine has a profiled contour in a radial direction is divided into a root region with a substantially circular or elliptical profile closest to the hub and an airfoil region with a lift generating profile furthest away from the hub. A transition region between the root region and the airfoil region has a profile gradually changing in the radial direction from the circular or elliptical profile of the root region to the lift generating profile of the airfoil region, and the airfoil region comprises at least a first longitudinal segment extending at least 20% of a longitudinal extent of the airfoil region. The first longitudinal segment has a first base part with a cross-sectional profile such that, when impacted by an incident airflow at an angle of attack of 0 degrees has a lift coefficient, which is 0 or less. | 03-08-2012 |
20120063910 | WIND TURBINE BLADE WITH BASE PART HAVING INHERENT NON-IDEAL TWIST - A blade for a rotor of a wind turbine is divided into a root region closest to the hub and an airfoil region with a lift generating profile furthest away from the hub. A transition region has a profile gradually changing in the radial direction from the circular or elliptical profile of the root region to the lift generating profile of the airfoil region, and includes at least a first longitudinal segment extending along at least 20% of a longitudinal extent of the airfoil region. A base part has an inherent non-ideal twist, such as no twist, or a reduced twist compared to a target blade twist, so that an axial induction factor of the first base part at a design point deviates from a target axial induction factor. A number of flow altering devices are arranged so as to adjust the aerodynamic properties of the first longitudinal segment. | 03-15-2012 |
20120070281 | METHOD OF OPERATING A WIND TURBINE - A wind turbine is operated with a blade in which a transition region is provided between a root region with a substantially circular or elliptical profile closest to a hub and an airfoil region with a lift generating profile furthest away from the hub. The transition region has a base part with an inherent non-ideal aerodynamic design so that a substantial longitudinal part of the base part without flow altering devices at a design point deviates from a target axial induction factor. A pitch of the blade and a rotational speed are adjusted to meet the target axial induction factor of the second longitudinal segment, and flow altering devices are provided so as to meet the target axial induction factor of the first longitudinal segment. | 03-22-2012 |
20120070299 | WIND TURBINE BLADE - A blade for a rotor of a wind turbine has a root region with a substantially circular or elliptical profile closest to the hub and an airfoil region with a lift generating profile furthest away from the hub. A transition region has a base part with an inner dimension that varies linearly in the radial direction of the blade in such a way that an induction factor of the first base part without flow altering devices at a rotor design point deviates from a target induction factor. The first longitudinal segment is provided with a number of first flow altering devices arranged so as to adjust the aerodynamic properties of the first longitudinal segment to substantially meet the target induction factor at the design point. | 03-22-2012 |
20120229792 | WIND TURBINE BLADE PROVIDED WITH OPTICAL WIND VELOCITY MEASUREMENT SYSTEM - A wind turbine includes a number of blades and an optical measurement system comprising a light source, such as a laser, an optical transmitter part, an optical receiver part, and a signal processor. The light source is optically coupled to the optical transmitter part, which includes an emission point for emitting light in a probing direction. The optical receiver part comprises a receiving point and a detector. The optical receiver part is adapted for receiving a reflected part of light from a probing region along the probing direction and directing the reflected part of light to the detector to generate a signal used to determine a first velocity component of the inflow. The emission point is located in a first blade at a first radial distance from a center axis, and the receiving point is located in the first blade at a second radial distance from the center axis. | 09-13-2012 |
20150064005 | WIND TURBINE BLADE PROVIDED WITH OPTICAL WIND VELOCITY MEASUREMENT SYSTEM - A wind turbine includes a number of blades and an optical measurement system comprising a light source, such as a laser, an optical transmitter part, an optical receiver part, and a signal processor. The light source is optically coupled to the optical transmitter part, which includes an emission point for emitting light in a probing direction. The optical receiver part comprises a receiving point and a detector. The optical receiver part is adapted for receiving a reflected part of light from a probing region along the probing direction and directing the reflected part of light to the detector to generate a signal used to determine a first velocity component of the inflow. The emission point is located in a first blade at a first radial distance from a center axis, and the receiving point is located in the first blade at a second radial distance from the center axis. | 03-05-2015 |