Patent application number | Description | Published |
20090160187 | CONTROL SYSTEM AND METHOD FOR OPERATING A WIND FARM IN A BALANCED STATE - A method for operating a wind farm which includes a wind farm control system and at least two wind turbines, which are connected via an internal grid, is provided. The method includes determining the actual power consumption of the wind farm; and adjusting the power production of at least one of the wind turbines so that the actual power production and actual power consumption of the wind farm are substantially equal. Further, a method for operating a wind farm which includes a wind farm control system and several power sources, are connected via an internal grid, is provided. At least two of the power sources are wind turbines and at least one power source is an additional power source selected from a group consisting of a fuel power source, a battery-based power source and a solar power source. The method includes determining the actual power consumption of the wind farm; and adjusting the power production of at least one of the power sources so that the actual power production and actual power consumption of the wind farm are substantially equal. Furthermore, a wind farm control system arranged for balancing the power production and consumption of a wind farm is provided. | 06-25-2009 |
20090162202 | BRAKING AND POSITIONING SYSTEM FOR A WIND TURBINE ROTOR - A method of positioning a wind turbine rotor comprises defining a predetermined angular position in a main rotation plane of the rotor and controlling a rate of deceleration of the rotor, such as to stop the rotor at the predetermined angular position. | 06-25-2009 |
20090211172 | PREASSEMBLED TOWER SECTION OF A WIND POWER PLANT - The present invention relates to a preassembled tower section of a wind power plant and a method of transporting a tower section of a wind power plant, the method comprising the steps providing the tower section at a preassembly site, preassembling at least one electronic subsystem of the wind power plant onto the tower section, transporting the preassembled tower section from the preassembly site to an installation site. In effect transport thereof is considerably simplified and a higher degree of modular design and preassembly is achieved. | 08-27-2009 |
20090230681 | MODEL BASED WIND TURBINE DRIVE TRAIN VIBRATION DAMPER - The invention concerns a method for reducing mechanical oscillation in a wind power plant which comprises a plurality of rotor blades, a wind turbine drive train and a generator, wherein the rotor blades are rotatably connected to the generator by the wind turbine drive train. The method comprises the steps: mathematically modeling the dynamical response and/or transfer function of a group of rotatable parts of the wind power plant, the group of rotatable parts comprising at least the wind turbine drive train, and determining dynamical response and/or transfer function of the group; in operation of the wind power plant, determining a first parameter characteristic of the mechanical oscillation at a first location, controlling the operation of at least one rotatable part in response to the dynamical response and/or transfer function of the group and at least the first parameter. In effect, resonance induced mechanical wear is reduced which leads to an increased life time of the wind power plant. | 09-17-2009 |
20100056315 | FLUIDIC SYSTEM, A DRIVE TRAIN FOR A WIND TURBINE AND A METHOD FOR ACTUATING A MECHANICAL COMPONENT - A fluidic system mechanically coupled to a mechanical component is provided. The fluidic system comprises a first pump of a first type coupled to the mechanical component and a second pump of a second type in fluid communication with the first pump. The fluidic system can operate in a pumping mode in which at least the first pump feeds a fluid through the fluidic system. The fluidic system can further operate in an actuating mode in which the second pump feeds the fluid through the fluidic system and the first pump extracts energy from the fluid flow. Further, a drive train for a wind turbine and method for actuating a mechanical component are provided. | 03-04-2010 |
20100060000 | WIND TURBINE HAVING A MAIN POWER CONVERTER AND AN AUXILIARY POWER CONVERTER AND A METHOD FOR THE CONTROL THEREOF - A wind turbine comprising a main generator, a main power converter connected to the main generator and adapted to convert the electrical output power of the main generator to an electrical power to be fed into the utility grid up to a first rated converter output power and an auxiliary power converter connected to the main generator and adapted to convert the electrical output power of the main generator to an electrical power up to a second rated converter output power which is lower than the first rated converter output power is provided. Further, a control architecture for controlling the power balance of a wind turbine and a method for operating a wind turbine are provided. | 03-11-2010 |
20100092291 | METHOD FOR CONTROLLING A WIND TUBINE USING A WIND FLOW MODEL - A control device is provided which is adapted for controlling at least one operational parameter of a wind turbine including a machine nacelle and a rotor having at least one rotor blade. The control device includes an input adapted for inputting a signal which is indicative of environmental data of the wind turbine, an evaluation unit adapted for generating at least one control signal on the basis of currently acquired environmental data and on the basis of previously acquired environmental data, and an output adapted to output the control signal adapted for adjusting the at least one operational parameter of the wind turbine. | 04-15-2010 |
20100133815 | Method and Apparatus for Operating a Wind Turbine During a Loss of Communication - A method for operating a wind turbine during a loss of communication is described that includes coupling a pitch controller to at least one wind turbine blade and to a wind turbine controller, establishing communication between the pitch controller and the wind turbine controller, and detecting a loss of communication between the pitch controller and the wind turbine controller. After a loss of communication is detected, the method further includes waiting for a first predetermined amount of time to elapse, independently pitching the at least one wind turbine blade to a predetermined position, waiting for a second predetermined amount of time to elapse, and maintaining the at least one wind turbine blade in the predetermined position until a rotation of the at least one wind turbine blade stops. | 06-03-2010 |
20100133821 | METHOD AND SYSTEM FOR EXTRACTING INERTIAL ENERGY FROM A WIND TURBINE - A system for operating a wind turbine during a curtailment operation is described. The wind turbine includes a generator and a wind turbine rotor having at least one rotor blade. The wind turbine also includes a drive train that includes at least one shaft coupled to the wind turbine rotor and configured to drive the generator. The system includes a control system configured to increase a speed of rotation of the rotor beyond an optimum rated speed during the curtailment operation of the wind turbine, and an extraction device configured to extract inertial energy stored in the drive train upon release of the curtailment operation. | 06-03-2010 |
20100133831 | METHOD AND APPARATUS FOR CONTROLLING A WIND TURBINE - A control system for a wind turbine, the control system having at least one measurement device configured to measure at least one operating condition of the wind turbine and a first controller. The first controller is configured to calculate an operating limit of the wind turbine based on the measured operating condition and to adjust the operating limit based on a limiting condition of a component of the wind turbine. | 06-03-2010 |
20100140939 | METHOD AND APPARATUS FOR CONTROLLING A WIND TURBINE - A power system for a wind turbine having a measurement device configured to detect an overfrequency condition within an electrical system and a controller communicatively coupled to the measurement device. The controller is configured to switch the wind turbine between a power generation mode and a power consumption mode based on an existence of a detected overfrequency condition. | 06-10-2010 |
20100280872 | METHODS AND SYSTEMS FOR MONITORING AND SCHEDULING OPERATIONS AND MAINTENANCE ACTIVITIES - A system for monitoring and scheduling operations and maintenance (O&M) activities for a facility that includes a plurality of machines is described. The system includes a user computer, a memory device for storing O&M data and resource availability data for the plurality of machines, and a processor coupled to the memory device. The processor is programmed to communicate with the user computer via an electronic data communication device. The processor is programmed to receive data corresponding to at least one completed O&M activity via the user computer and to determine at least one recommended O&M activity based at least partially on the stored O&M data and the completed O&M activity data. The processor is also configured to analyze resource availability data and to schedule the recommended O&M activity based on resource availability data. | 11-04-2010 |
20110135469 | METHOD FOR MEASURING A ROTATIONAL POSITION OF A ROTOR BLADE OF A WIND TURBINE AND MEASURING DEVICE - The present disclosure is related to a method and a measuring device adapted for determining a rotational position of at least one rotor blade of a wind turbine. The method includes a step of measuring a gravity induced blade moment of the at least one rotor blade. Then, an actual rotational position of the rotor blade is determined from the measured gravity induced blade moment. | 06-09-2011 |
20110140420 | METHODS AND SYSTEMS FOR OPERATING A WIND TURBINE - A method for controlling operation of a floating wind turbine is described. The floating wind turbine includes a wind turbine generator coupled to a support tower. The method includes measuring a tower inclination, determining an operating parameter control value based on at least the measured tower inclination, and adjusting wind turbine operation based at least partially on the operating parameter control value. | 06-16-2011 |
20110140421 | METHOD FOR OPERATING A WIND TURBINE, COIL ARRANGEMENT FOR AN ELECTRIC MACHINE, AND CONTROLLER FOR A WIND TURBINE - The disclosure concerns a method for operating a wind turbine having a generator, the generator having for each phase a plurality of coils, wherein the plurality of coils of each phase includes at least one group of coils including at least two coils, the group of coils including at least two subgroups including at least one coil, wherein the generator has a first state in which the coils of the group of coils are electrically connected in series, and, the generator has a second state in which the at least two subgroups are switched electrically in parallel; the method including: changing the state of the generator. Further, the disclosure concerns a coil arrangement for an electric machine for a wind turbine, the electrical machine having for each phase a plurality of coils, wherein the plurality of coils of each phase includes at least one group of coils including at least two coils, the group of coils including at least two subgroups including at least one coil, wherein the electrical machine has a first state in which the coils of the group of coils are electrically connected in series, and, the electrical machine has a second state in which the at least two subgroups are switched electrically in parallel. | 06-16-2011 |
20110144774 | SYSTEM AND METHOD FOR CONTROLLING A MACHINE - A system for controlling a machine includes a first controller, a second controller, and a comparator. During a first cycle, the first controller generates a control signal to the machine while the second controller generates a predicted parameter signal. During the first cycle, the comparator transmits a feedback signal to the second controller if a predetermined threshold is not met. A method for controlling a machine includes transmitting a control signal from a first controller to the machine and generating a predicted parameter value in a second controller. The method further includes transmitting a feedback signal to the second controller if a predetermined threshold is not met. | 06-16-2011 |
20110145811 | METHOD AND SYSTEM FOR SOFTWARE UPDATE OF WIND ENERGY HARDWARE COMPONENTS - A method for installing software data at at least one hardware component of a wind energy device is provided. The at least one hardware component is adapted to operate on the basis of the software data. The method includes providing the software data, detecting a network parameter indicating an operational condition of a network, determining, on the basis of the network parameter, whether the network is in an appropriate network download condition, if the network is in an appropriate network download condition, downloading of the software data from a download server to a data center, detecting an operation parameter indicating an operational condition of the at least one hardware component, determining, on the basis of the operation parameter, whether the at least one hardware component is ready for software installation, and if the at least one hardware component is ready for software installation, installing the software data from the data center at the at least one hardware component. | 06-16-2011 |
20110204636 | WIND TURBINE AND OPERATING SAME - A method for operating a wind turbine erected in a body of water, comprising: measuring vibrations of the wind turbine during operation; identifying at least one periodic component of said measured vibrations, wherein said periodic component is associated with interaction of said body of water and said wind turbine; and, operating at least one controller of said wind turbine so that water-induced vibrations are reduced. | 08-25-2011 |
20110210551 | METHOD AND SYSTEM FOR TESTING A MECHANICAL BRAKE OF A WIND ROTOR SHAFT OF A WIND TURBINE - The present disclosure relates to a method for testing a mechanical brake of a wind rotor shaft of a wind turbine, including: applying a predetermined desired brake torque to the mechanical brake; applying a predetermined drive torque to the wind rotor shaft by a motor; and, measuring a parameter indicative the rotational speed of the wind rotor shaft; and, determining the performance based on the measured value of parameter indicative for the rotational speed. | 09-01-2011 |
20110268568 | APPARATUS AND METHOD FOR ADJUSTING THE YAW OF A NACELLE OF A WIND ENERGY SYSTEM - The present disclosure relates to a hydraulic pressure system for providing fluid pressure to actuate at least one hydraulic yaw motor for adjusting the yaw of a nacelle of a wind energy system independently of electrical power. The hydraulic pressure system includes a connection portion connectable to a main drive train of the wind energy system, the main drive train transmitting kinetic energy generated by wind energy. The hydraulic pressure system is adapted to be driven by the kinetic energy of the main drive train via the connection portion to provide the fluid pressure. The present disclosure further relates to a hydraulic yaw adjustment system for adjusting the yaw of a nacelle of a wind energy system independently of electrical power, the hydraulic yaw adjustment system including the hydraulic pressure system. The present disclosure further relates to a wind energy system including the hydraulic yaw adjustment system, to a non-electrical control system, and to a method of adjusting the yaw of the nacelle of the wind energy system independently of electrical power. | 11-03-2011 |
20110268569 | METHOD FOR CONTROLLING A WIND TURBINE, AND WIND TURBINE ARRANGEMENT - The present disclosure relates to a method for controlling a wind turbine, the wind turbine including at least one movable portion which is movable during operation of the wind turbine and at least one movable portion device including at least one of a movable portion transmitter or a movable portion receiver, the movable portion transmitter or the movable portion receiver being disposed at the least one movable portion; the method including: at least one of sending to or receiving from at least three reference points at least one signal by at least one of the movable portion transmitter or movable portion receiver; and determining at least one operational parameter of the wind turbine depending on at least one characteristic of the at least one received signal. Further the present disclosure relates to a wind turbine arrangement and a system for controlling a wind turbine, comprising a controller of the wind turbine and a movable portion. | 11-03-2011 |
20120027586 | METHODS AND APPARATUS FOR CONTROLLING WIND TURBINE THRUST - A wind turbine and methods for controlling wind turbine thrust are disclosed. In one embodiment, the method includes measuring a tilt angle of a wind turbine in a loaded position using a measuring device. The wind turbine includes a tower, a nacelle mounted on the tower, a rotor coupled to the nacelle, and a plurality of rotor blades coupled to the rotor. The method further includes comparing the tilt angle to a predetermined tilt angle for the wind turbine and, if the tilt angle exceeds the predetermined tilt angle, adjusting a pitch of at least one of the plurality of rotor blades such that the tilt angle is less than or equal to the predetermined tilt angle. | 02-02-2012 |
20120078390 | SYSTEM AND METHOD FOR CONTROLLING A MACHINE - A system for controlling a machine includes a first model, a second model, a controller, and a comparator. During a first cycle, the first model generates a response signal to the controller while the second model generates a predicted parameter signal. During the first cycle, the comparator transmits a feedback signal to the second model if a predetermined threshold is not met. A method for controlling a machine includes transmitting a response signal from a first model to a controller, generating a control signal to the machine, and generating a predicted parameter value in a second model. The method further includes transmitting a feedback signal to the second model if a predetermined threshold is not met. | 03-29-2012 |
20130280066 | METHODS AND SYSTEMS FOR OPERATING A WIND TURBINE IN NOISE REDUCED OPERATION MODES - According to the present disclosure, a method of operating a wind turbine including operating the wind turbine in a noise reduction mode based on at least one set point of a wind turbine parameter such that noise produced by said wind turbine remains below a predefined noise emission level, obtaining an actual air density related value, and applying a correction factor to the at least one set point of a wind turbine parameter is provided. The correction factor is determined in dependence of said actual air density related value. | 10-24-2013 |
20130334817 | WIND TURBINE ROTOR CONTROL - A method for operating a wind turbine is provided. The method includes determining a wind condition, determining for the wind condition expected azimuthal positions of a rotating wind rotor of the wind turbine, and determining for the wind condition desired azimuthal positions of the rotating wind rotor so that at least one of a load balance of the rotating wind rotor and a power uptake of the rotating wind rotor is improved compared to the expected azimuthal positions. | 12-19-2013 |