Patent application number | Description | Published |
20120043758 | METHOD OF DETERMINING A PHASE VALUE OF A PHASE ASSOCIATED WITH AN OSCILLATORY TOWER MOVEMENT OF A TOWER OF A WIND TURBINE, DEVICE FOR DETERMINING A PHASE VALUE OF A PHASE ASSOCIATED WITH AN OSCILLATORY TOWER MOVEMENT OF A TOWER OF A WIND TURBINE, AND METHOD OF OPERATING A WIND TURBINE - A method is provided of determining a phase value of a phase associated with an oscillatory tower movement of a tower of a wind turbine. The method includes measuring a quantity representative of the oscillatory tower movement, and determining the phase value based on the measured quantity. In an exemplary embodiment, the determination of the phase value is includes applying a Fourier Transformation on the measured quantity. | 02-23-2012 |
20120068462 | Method of and device for determining a common blade frequency of a rotor of a wind turbine, and method of operating a wind turbine - A method of determining a common blade frequency of a rotor of a wind turbine is provided. The method includes measuring a vibration quantity representative of a vibration of a component of the wind turbine, and determining the common blade frequency based the measured vibration quantity. | 03-22-2012 |
20120076651 | Method of and device for determining a mass condition of a rotor of a wind turbine, and method of operating a wind turbine - A method of determining a mass condition of a rotor of a wind turbine is disclosed. The method includes initiating a change of a quantity value of a quantity acting on the rotor, measuring a change of another quantity value of another quantity representative of a momentum of the rotor during a time interval, and determining the mass condition of the rotor based on the determined change of the another quantity value in relation with the initiated change of the quantity value. | 03-29-2012 |
20120173172 | Determination of a vibrational frequency of a wind turbine rotor blade with a sensor device being placed at a structural component being assigned to and/or being part of the rotor - A system for determining a vibrational frequency of a blade being attached to a structural component of a wind turbine is described. The blade is vibrating within a rotational plane of the rotor. A sensor sensitive to a movement along a sensor direction is placed at the structural component so the sensor direction and the direction of the longitudinal extension of the blade have a fixed angular relationship with respect to each other. The sensor is configured to provide a sensor output signal being indicative for the movement of the structural component along the sensor direction. A data processing unit is connected with the sensor and configured to determine the vibrational frequency of the blade based on the sensor output signal and on the fixed angular relationship. Corresponding wind turbine equipped with such a system, method for determining a vibrational frequency of a blade and computer program are provided. | 07-05-2012 |
20120313374 | ELECTRIC GENERATOR FOR A WIND TURBINE, WIND TURBINE AND METHOD OF DRIVING A WIND TURBINE - An electric generator for a wind turbine, a wind turbine including such an electric generator and a method of driving such a wind turbine are provided. The electric generator includes a generator rotor and a generator stator concentrically arranged around a generator axis and at a distance from each other. The electric generator further includes a distance sensor arrangement including at least one distance sensor adapted to sense the distance between the generator rotor and the generator stator and to provide a sensor signal including an information about the sensed distance. | 12-13-2012 |
20120323543 | METHOD AND DETECTION ASSEMBLY FOR THE DETECTION OF CHANGES IN A BUILDING STRUCTURE OF A WIND TURBINE - A method for detecting changes in a building structure of a first wind turbine is provided. A reference value representing the eigenfrequency of the first wind turbine is monitored over time, whereby substantial changes in the reference value are used as an indication of changes in the building structure. Further, a detection assembly for such detections is provided. | 12-20-2012 |
20130030772 | Optimisation of a wind turbine - A method of optimising a construction of a basis of a wind turbine is provided. A local load environment situation of a construction location is analysed, which results in local load-relevant environment data, based on which construction instructions are generated. These are further based on a set of predefined rules for processing the local load-relevant environment data, such that in a first selected region of the basis along a circumference of the tower and/or in a first selected region of the foundation the carrying structure of the basis is weakened in at least one selected horizontal cross-section with respect to possible maximum loads in comparison with a second region of the basis in the selected cross-section. | 01-31-2013 |
20130031966 | METHOD AND SYSTEM FOR DETERMINING A MASS CHANGE AT A ROTATING BLADE OF A WIND TURBINE - A method for determining a mass change at a rotating blade of a wind turbine is provided. The method includes measuring a vibration quantity representative of a vibration of the wind turbine, measuring an azimuthal quantity representative of a rotation angle of the blade, determining a frequency quantity representative of a vibration frequency of the blade from the vibration quantity and the azimuthal quantity, and determining the mass change at the blade based on the frequency quantity. | 02-07-2013 |
20130125546 | THERMAL ENERGY STORAGE AND RECOVERY SYSTEM COMPRISING A STORAGE ARRANGEMENT AND A CHARGING/DISCHARGING ARRANGEMENT BEING CONNECTED VIA A HEAT EXCHANGER - A thermal energy storage and recovery system including a storage arrangement having a thermal energy storage device for temporarily storing thermal energy, a charging/discharging arrangement having a fluid energy machine for exchanging mechanical work with a working fluid cycling through the charging/discharging arrangement, and a heat exchanger which is arranged between the storage arrangement and the charging/discharging arrangement and which thermodynamically couples a heat transfer fluid cycling through the storage arrangement with the working fluid is provided. The storage arrangement is configured in such a manner that the heat transfer fluid is under a first pressure and the charging/discharging arrangement is configured in such a manner that the working fluid is at least partially under a second pressure, wherein the second pressure is higher than the first pressure. | 05-23-2013 |
20130125632 | DETERMINING AN ACCUMULATED LOAD OF A WIND TURBINE IN ANGULAR SECTORS - A method for determining a total mechanical load of a wind turbine is provided. A present load signal indicative of a present load of a wind turbine base structure is obtained, wherein the present load acts in a present angular direction. A first present load and a second present load are derived based upon the present load signal and the present angular direction, wherein the first present load is associated with a first angular sector of the turbine and the second present load is associated with a second angular sector of the turbine. Further, a total mechanical load is derived based upon the first present load and the second present load. | 05-23-2013 |
20130136595 | METHOD FOR OPERATING A WIND TURBINE - A method for operating a wind turbine is provided. At least one temperature information indicating the temperature of at least one component of the wind turbine is generated. The temperature information is used for determining at least one material property information indicating at least one component specific, temperature dependent mechanical property of the respective component. At least one operational parameter of the wind turbine is adjusted in consideration of the at least one material property information. | 05-30-2013 |
20130161952 | Method for controlling a wind turbine - A method for controlling a wind turbine with a rotor and at least one rotor blade, and a control unit are disclosed. The method is characterised in adjusting a pitch angle of the rotor blade and determining the limit of an input value based on the adjusted pitch angle, wherein the input value includes information about the turbine rotational speed. | 06-27-2013 |
20130204447 | WIND TURBINE WITH PRICE-OPTIMISED TURBINE LOAD CONTROL - A method of controlling the load of a wind turbine is provided. A rate of wear experienced by the wind turbine as a result of the current operating conditions of the wind turbine is determined. A control vector for controlling the wind turbine is determined based on the determined rate of wear. The load of the wind turbine is controlled in accordance with the determined control vector. Determining the control vector includes weighting the determined rate of wear by a cost of electricity value and determining the control vector based on the weighted rate of wear. | 08-08-2013 |
20130241209 | METHOD AND ARRANGEMENT FOR OPERATING A WIND TURBINE TAKING INTO ACCOUNT POWER LOSSES - A method for operating a wind turbine is proposed. The wind turbine has a rotor, a wind turbine converter and a wind turbine output terminal connected to a utility grid. The converter has a converter output terminal upstream of the wind turbine output terminal. An input signal related to an action output of the wind turbine is obtained at a location between the rotor and the wind turbine output terminal. A power difference is estimated between the power associated with the action output at the location and the output power at the converter output terminal. The converter is controlled based on the input signal and the estimated power difference. | 09-19-2013 |
20130264823 | METHOD FOR OPERATING A WIND TURBINE HAVING A ROTOR HUB SUPPORTING AT LEAST ONE ROTOR BLADE - A method for operating a wind turbine which includes a rotor hub supporting a rotor blade is disclosed. The method includes: a) detecting changes in the aerodynamic performance of the rotor blade; b) determining a first control rule; c) determining a first power output information indicating a first power output based on the first control rule; d) changing an operational parameter and choosing a second control rule such that the first control rule is replaced by the second control rule; e) determining a second power output information indicating a second power output based on the second control rule. c) comparing the first and second power output information. If the second power output exceeds the first power output, repeating a)-f) with the second control rule being used as the first control rule in b); otherwise repeating a)-f), whereby a different second control rule is applied in d). | 10-10-2013 |
20130323007 | FACILITATED HANDLING OF WIND TURBINE BLADES - A device for facilitating handling of a wind turbine blade is provided. The device includes an inflatable member adapted to be arranged at the wind turbine blade such that the inflatable member covers at least a part of the wind turbine blade, wherein, when the inflatable member is arranged at the wind turbine blade and inflated, an aerodynamic drag coefficient of the wind turbine blade with the arranged inflatable member is less than an aerodynamic drag coefficient of the wind turbine blade. Further, there is described a system for handling a wind turbine blade, and a method of facilitating handling of a wind turbine blade. | 12-05-2013 |
20140020465 | MONITORING ARRANGEMENT - Provided is an arrangement for monitoring movements of components of a wind turbine, which includes a nacelle supported at an upper end of a tower, a rotor including wind turbine blades, and a hub section, at which the rotor is mounted. The arrangement is arrangeable in the hub section and includes an accelerometer adapted to measure a first acceleration of the hub section in a first direction and a second acceleration in a second direction, an azimuth angle measuring element to measure the azimuth angle of the rotor, an estimation unit to estimate movements, in a direction transversal to a wind direction, of components of the wind turbine based on the azimuth angle, the first acceleration and the second acceleration, and a monitoring unit to monitor the movements of the components of the wind turbine based on a signal received from the estimation unit being indicative for the estimated movements. | 01-23-2014 |
20140056706 | OPERATING A WIND TURBINE WITH MULTIPLE TEMPERATURE SENSORS - A method of operating a wind turbine and a wind turbine employing this method are provided. The method includes measuring an operating temperature in a plurality of components of the wind turbine yielding a plurality of measured operating temperatures. Each measured operating temperature is subtracted from a predefined maximum allowable operating temperature for the corresponding component of the wind turbine thereby yielding a plurality of operating temperature margins. A minimum operating temperature margin among the plurality of operating temperature margins is determined and at least one operating parameter of the wind turbine is set in accordance with the minimum operating temperature margin. | 02-27-2014 |
20140190659 | THERMAL ENERGY STORAGE AND RECOVERY ARRANGEMENT - A thermal energy storage and recovery arrangement is provided. The arrangement has a first thermal energy storage, a compression and expansion unit coupled thereto, and a second thermal energy storage coupled to the compression and expansion unit. The first and second thermal energy storage are adapted to work at a temperature equal to or higher than ambient temperature. In a charging mode, the first thermal energy storage is adapted for receiving and releasing thermal energy to a received working medium. The compression and expansion unit is adapted for receiving and compressing the working medium from the first thermal energy storage. The second thermal energy storage is adapted for receiving the compressed working medium and thermal energy therefrom and storing at least part of this energy. The compression and expansion unit is adapted for receiving the compressed working medium from the second thermal energy storage and expanding the compressed working medium. | 07-10-2014 |
20140284021 | STORAGE AND RECOVERY OF THERMAL ENERGY USING HEAT STORAGE MATERIAL BEING FILLED IN A PLURALITY OF ENCLOSURES - A thermal energy storage and recovery device is provided including a container having a first fluid terminal for inserting heat transfer medium into the interior of the container and a second fluid terminal for extracting heat transfer medium from the interior of the container, a heat storage material for receiving thermal energy from the heat transfer medium when in a first operational mode and releasing thermal energy to the heat transfer medium when in a second operational mode, and a plurality of enclosures each filled at least partially with a part of the heat storage material. The enclosures are spatially arranged within the container so a flow of the heat transfer medium is guidable between the first and second fluid terminals and a direct thermal contact between the heat transfer medium and the enclosures is achievable as the heat transfer medium flows between the first and second fluid terminals. | 09-25-2014 |