Patent application number | Description | Published |
20090148289 | ACTIVE DAMPER AGAINST GENERATOR BASE FRAME VIBRATIONS - A damper system for damping base frame vibrations of a wind turbine having a tower, a nacelle, a frame in the nacelle, at least one rotor blade, and a generator, the damper system includes a mass for damping vibrations of the frame, wherein the mass is positioned outside a vibration center and at least one drive mechanism adapted for actively controlling a movement of the mass. A method for reducing frame vibrations of a wind turbine is provided. | 06-11-2009 |
20100013224 | USE OF PITCH BATTERY POWER TO START WIND TURBINE DURING GRID LOSS/BLACK START CAPABILITY - The disclosure concerns a wind power plant and its operation during grid loss, wherein the wind power plant comprises a plurality of rotor blades, a blade pitch drive, a rotor shaft, an electric generator, and a control unit for controlling the operations of the wind power plant, wherein the plurality of rotor blades are rotatably connected to the rotor shaft, such that the pitch of the rotor blades can be adjusted by the blade pitch drive under the control of the control unit, and wherein the rotor shaft is operatively connected to the electric generator for generating electric energy, the wind power plant further comprising an energy storing unit for powering the blade pitch drive, wherein the control unit comprises a control module for adjusting the rotor blades and for entering a self-sustaining mode of operation of the wind power plant. With the self-sustaining mode of operation basic functions of the wind power plant, in particular safety and security functions as well as lubrication of the rotatable parts of the wind power plant are sustained even for long periods of a grid loss. | 01-21-2010 |
20100124497 | METHOD FOR MOUNTING COMPONENTS AT A WIND TURBINE - A method for mounting components at a wind turbine support unit of a wind turbine is provided. The method includes the steps of providing a captive bolt gun, providing a fastening means, inserting a captive bolt into the fastening means, and shooting the captive bolt into the wind turbine support unit by means of the captive bolt gun such that the fastening means is fixed at the wind turbine support unit. | 05-20-2010 |
20110064573 | SYSTEM AND METHODS FOR DETERMINING A MONITOR SET POINT LIMIT FOR A WIND TURBINE - A method for controlling operation of a wind turbine is described. The wind turbine includes a rotor having a plurality of rotor blades. The method includes measuring an atmospheric condition associated with the environment surrounding the wind turbine, providing the measured atmospheric condition to a processor, and determining at least one monitor set point limit based at least partially on the measured atmospheric condition. The method also includes applying the at least one monitor set point limit to wind turbine operation. | 03-17-2011 |
20110140424 | METHOD FOR OPERATING A WIND TURBINE, METHOD FOR DETERMINING THE TEMPERATURE OF A PERMANENT MAGNET AND CONTROLLER FOR A WIND TURBINE - The disclosure concerns a method for operating a wind turbine having an electrical system, the electrical system comprises a permanent magnet generator having a rotor and a stator, and a power electronic device electrically connected to the permanent magnet generator, wherein the power electronic device and a circuit breaker are electrically disposed in series between the permanent magnet generator and a grid, wherein the permanent magnet generator has permanent magnets and a generator winding into which a voltage is induced by the permanent magnets when the rotor is rotating, the method comprising: generating a signal for tripping the circuit breaker based on a field modification that is modifying the field of the permanent magnets of the permanent magnet generator. Further, the disclosure concerns a method for determining the temperature of at least one permanent magnet of a permanent magnet machine and a controller for a wind turbine. | 06-16-2011 |
20110291416 | USE OF PITCH BATTERY POWER TO START WIND TURBINE DURING GRID LOSS/BLACK START CAPABILITY - A method of operating a wind power plant during grid loss is disclosed. The method includes powering a blade pitch drive of the wind power plant by an energy storing unit, and adjusting the pitch of the rotor blades of the wind power plant by means of the blade pitch drive, wherein a rotor shaft keeps rotating and the wind power plant enters a self-sustaining power generating mode upon adjustment of the pitch of the blades. | 12-01-2011 |
20130138257 | SYSTEM FOR OPERATING AN ELECTRIC POWER SYSTEM AND METHOD OF OPERATING THE SAME - A protection and control system for an electric power system includes at least one electric power generation device and at least one voltage measurement device. The system also includes at least one memory device coupled to the voltage measurement device. The memory device is configured to store a plurality of voltage measurements of the electric power system. The system further includes at least one processor coupled in communication with the memory device. The processor is programmed to determine a change of voltage induced by an electric power generation device, and, determine an approximate location of an electrical fault as a function of the change of voltage induced by the electric power generation device. | 05-30-2013 |
20130243590 | SYSTEMS AND METHODS FOR DETERMINING THRUST ON A WIND TURBINE - Systems and methods for determining thrust on a wind turbine are disclosed. In one aspect, a system is described that can be comprised of a wind turbine comprising a rotor, wherein one or more rotor blades of the wind turbine are affixed to the rotor; and one or more sensors located on or within the rotor, wherein the one or more sensors measure deflection of the rotor. In one aspect, the measured deflection is correlated with thrust on the wind turbine and the measured thrust can be used to determine at least in part a pitch angle for at least one of the one or more rotor blades during peak shaving. | 09-19-2013 |
20140257751 | METHODS FOR SCHEDULING THE REPLACEMENT OF WIND TURBINE BATTERIES AND RELATED SYSTEMS - A method for scheduling the replacement of wind turbine batteries is disclosed. The method may include monitoring an air temperature of a location at which a battery is stored within a wind turbine, determining with a controller a predicted lifetime for the battery based on the air temperature and determining when to replace the battery based at least in part on the predicted lifetime. | 09-11-2014 |