Patents by Inventor Fabio CAPONETTI
Fabio CAPONETTI has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Publication number: 20180171983Abstract: A sensor system for a wind turbine, comprising: a blade load sensor; a blade temperature sensor configured to provide a temperature measurement of an associated blade; a load calculation module configured to output a temperature-corrected blade load value; and a processing unit interfaced with the temperature sensor. The processing unit includes a temperature estimator configured to determine an estimated temperature of the wind turbine blade based on at least one wind turbine parameter; and a comparator configured to generate a fault signal based on a comparison between the blade temperature measurement and the estimated blade temperature. The invention also resides in a corresponding method.Type: ApplicationFiled: June 17, 2016Publication date: June 21, 2018Inventors: Fabio CAPONETTI, Dan HILTON
-
Publication number: 20180156200Abstract: A method for determining the load on a wind turbine blade, comprising: measuring the blade load by way of a wind turbine blade load sensor; estimating the temperature of the blade; and determining, based on the estimated temperature and the measured load, a temperature-corrected value for the load on the wind turbine blade. The invention also relates to a sensor system for a wind turbine blade, the system comprising a load sensor; a processing unit interfaced with the load sensor and configured to provide a temperature-corrected load parameter as an output, wherein the processing unit includes: a temperature estimation module that determines an estimated temperature of the blade in the vicinity of the load sensor based on at least one wind turbine parameter; and a load compensation module that determines the temperature-corrected load parameter based on the estimated temperature and the measurement of the load sensor.Type: ApplicationFiled: June 17, 2016Publication date: June 7, 2018Inventors: Fabio CAPONETTI, Dan HILTON
-
Publication number: 20180135601Abstract: A method of calibrating load sensors of a wind turbine, and a wind turbine for such load sensor calibration, are disclosed. The wind turbine comprises a rotor, a plurality of rotor blades, and a plurality of load sensors associated with the rotor blades. While the rotor is rotating, at least one of the rotor blades is moved from a first calibration position to a second calibration position, and load values from the load sensors are measured. The number of rotor blades being moved is at least one fewer than the number of the plurality of rotor blades. The rotation of the rotor may be during idling of the wind turbine. The movement of the blade(s) may be to change the pitch angle of the blade(s). At least one of the rotor blades not being moved to a calibration position may also be moved, for example to control the rotational speed of the rotor.Type: ApplicationFiled: June 17, 2016Publication date: May 17, 2018Inventors: Fabio CAPONETTI, Kasper Zinck OSTERGAARD, Dan HILTON
-
Patent number: 9909569Abstract: The preset invention relates to wind turbines and, in particular inclining a wind turbine from the vertical position. A tower (102) of a wind turbine may be inclined from the vertical position in order to reduce the loads on the tower (102).Type: GrantFiled: July 26, 2013Date of Patent: March 6, 2018Assignee: VESTAS WIND SYSTEMS A/SInventors: Keld Hammerum, Elk Herbsleb, Lars Finn Sloth Larsen, Fabio Caponetti
-
Publication number: 20180010577Abstract: The invention relates to a method for controlling a wind turbine in partial and full load. In order to avoid disadvantages of switching between partial and full load controllers, the wind turbine control system is configured so that both the partial and full load controller provides control action during partial and full load. For that purpose, the partial and full load controllers are configured with variable gains, wherein gain scheduling is performed so that the gain of partial load controller is larger than the gain of the full load controller during partial load and vice verso so that the gain of the full load controller is larger than the gain of the partial load controller during full load.Type: ApplicationFiled: January 27, 2016Publication date: January 11, 2018Inventors: Fabio CAPONETTI, Jesper Sandberg THOMSEN, Jacob Deleuran GRUNNET
-
Publication number: 20170241405Abstract: An apparatus and method is disclosed for over-rating a wind turbine using turbulence prediction. Weather forecast information is used to determine whether there is a risk of turbulent conditions occurring at the site of the wind turbine. The wind turbine is over-rated if turbulent conditions are not predicted, and conversely over-rating is cancelled or reduced if turbulent conditions are expected. This allows an increase in the annual energy production of the wind turbine to be realised. The weather forecast information may be combined with real time measurements of operating conditions to supplement the predictions.Type: ApplicationFiled: July 24, 2015Publication date: August 24, 2017Inventors: Thomas KRÜGER, Fabio CAPONETTI
-
Publication number: 20170226988Abstract: The invention relates to a method for wind turbine generators for reducing electrical disturbances in the form of power variations which are caused by damping controllers arranged the compensate structural oscillations by inducing shaft torque variations. The shaft torque variations are generated by imposing corresponding variations in a generator set-point, e.g. a power or torque set-point. Variations in the generator set-point cause undesired variations in the power injected to the grid by one or more wind turbine generators. According to an embodiment of the invention the electrical disturbances may be reduced by limiting a damping controller's control action. The amount of limitation or restriction of the damping controller may be determined on basis on electrical disturbance information determined from power measured e.g. at a location on the grid.Type: ApplicationFiled: October 8, 2015Publication date: August 10, 2017Applicant: VESTAS WIND SYSTEMS A/SInventors: Martin Ansbjerg KJÆR, Fabio CAPONETTI, Ian COUCHMAN, Jesper Sandberg THOMSEN, Thomas KRÜGER, Jorge Martinez GARCIA
-
Patent number: 9702343Abstract: The present invention relates to a method for regulating a flow of power between a wind power facility and a power grid connected thereto. The method comprises the steps of determining whether power is to be delivered to or absorbed from the power grid, and at least partly disabling or at least partly enabling one or more power consuming auxiliary systems in response to said determination. Moreover, an arrangement for delivering additional power to a power grid is provided.Type: GrantFiled: December 4, 2013Date of Patent: July 11, 2017Assignee: VESTAS WIND SYSTEMS A/SInventors: Thomas Krüger, Fabio Caponetti
-
Publication number: 20170184077Abstract: The invention relates to a method for determining dynamic parameters associated with damping properties of a wind turbine. The method involves active excitation of tower oscillations by adjusting the pitch or rotor torque. After the active excitation, the parameters can be determined from the passive decay of the excited oscillations. Alternatively, the oscillations can be actively damped, so that the parameters can be determined from the active decay of the excited oscillations. The method for promoting oscillations may be triggered in response to different events or in response to predetermined times for determining the actual dynamic parameters.Type: ApplicationFiled: June 5, 2015Publication date: June 29, 2017Applicant: Vestas Wind Systems A/SInventors: Fabio CAPONETTI, Ian COUCHMAN, Jacob Deleuran GRUNNET, Ilias Konstantinos ARISTON, Poul Brandt CHRISTENSEN
-
Publication number: 20170009739Abstract: A method of detecting a fault mode of a sensor is provided. The sensor may be, for example, a bending moment sensor and may sense a bending moment of a blade on a wind turbine generator (WTG). The method includes comparing data output by a first sensor with reference data indicating what is expected to be output by the first sensor to produce a first comparison result and comparing data output by the first sensor with data output by a second sensor to produce a second comparison result. A determination of whether the first sensor has entered a fault mode is made based at least in part on the first and second comparison results.Type: ApplicationFiled: September 19, 2016Publication date: January 12, 2017Inventors: Fabio CAPONETTI, Per BRATH, Keld HAMMERUM, Johnny NIELSEN
-
Publication number: 20160377057Abstract: The invention presents a method for operating a horizontal axis wind turbine (1), the wind turbine comprising a tower (2) and a rotor (5) with at least one rotor blade (51), the rotor being connected to the tower, and being adapted to drive a generator (6) connected to a utility grid (8), wherein a pitch angle (A) of each rotor blade is adjustable, the method comprising detecting (905, 911), when the wind turbine is in an idling power producing situation in relation to the utility grid, a tower oscillation, and controlling (907, 913, 914, 915), when the wind turbine is in the idling power producing situation, the pitch angle of the at least one rotor blade so as to produce aerodynamic forces counteracting the detected tower oscillation.Type: ApplicationFiled: December 3, 2014Publication date: December 29, 2016Inventors: Fabio CAPONETTI, Martin BRØDSGAARD, Thomas KRÜGER
-
Publication number: 20160377058Abstract: The present invention refers to a method for operating a wind turbine, the wind turbine particularly comprising a tower and a rotor with rotor blades. The pitch angles of the rotor blades are adjusted to generate a force on the rotor and the tower. The force is adjusted to counteract and damp an oscillation. The adjustment is enabled by an activation decision unit, if the activation decision unit decides that certain parameters characterising the oscillation or loads of the tower indicate a requirement and/or if the activation decision unit determines that the generated force is sufficient to counteract an oscillation of the tower.Type: ApplicationFiled: December 5, 2014Publication date: December 29, 2016Inventors: Fabio CAPONETTI, Thomas KRÜGER, Ian COUCHMAN, Ilias Konstantinos ARISTON, Martin BRØDSGAARD, Jacob Deleuran GRUNNET, Jesper Sandberg THOMSEN, Peter Mortensen SIGFRED
-
Publication number: 20160305402Abstract: The invention relates to a control apparatus and method for controlling the rotor blades of a wind turbine, and in particular to controlling the rotor blades during an extreme wind event. An extended mode of operation of the wind turbine rotor beyond the cut-out wind speed is provided. In the extended mode of operation, the pitch of the wind turbine blades is actively controlled so that the rotor and the generator idle at a designated rotational speed. The rotational speed may be relatively high, say 15 to 20% of the nominal speed, compared with minimal speeds experienced by purely feathered wind turbine blades, and may be further controlled as a function of the incident wind speed. Output power control in the extended mode may be zero but is preferably a low, but non-zero value. The output power so produced may then be used as an auxiliary power source for controlling the wind turbine in situations where the utility grid fails.Type: ApplicationFiled: November 19, 2014Publication date: October 20, 2016Inventors: Fabio CAPONETTI, Ian COUCHMAN, Thomas KRÜGER, Ali ZAIB, Carsten Nørlund THOMSEN
-
Patent number: 9447778Abstract: A method of detecting a fault mode of a sensor is provided. The sensor may be, for example, a bending moment sensor and may sense a bending moment of a blade on a wind turbine generator (WTG). The method includes comparing data output by a first sensor with reference data indicating what is expected to be output by the first sensor to produce a first comparison result and comparing data output by the first sensor with data output by a second sensor to produce a second comparison result. A determination of whether the first sensor has entered a fault mode is made based at least in part on the first and second comparison results.Type: GrantFiled: November 2, 2011Date of Patent: September 20, 2016Assignee: VESTAS WIND SYSTEMS A/SInventors: Fabio Caponetti, Per Brath, Keld Hammerum, Johnny Nielsen
-
Publication number: 20150369214Abstract: The invention relates to a controller configured to determine one or more future values of blade control references and/or a generator control references for a wind turbine generator. The first of the future values of the control references are used for control purposes. The future control references are determined from a physical model of a system of the wind turbine generator by solving an optimization problem which includes at least one cost function and at least one constraint.Type: ApplicationFiled: February 4, 2014Publication date: December 24, 2015Inventors: Eik HERBSLEB, Fabiano DAHER ADEGAS, Poul Brandt CHRISTENSEN, Robert BOWYER, Fabio CAPONETTI, Ian COUCHMAN, Lars Finn SLOTH LARSEN
-
Publication number: 20150330363Abstract: The present invention relates to a method for regulating a flow of power between a wind power facility and a power grid connected thereto. The method comprises the steps of determining whether power is to be delivered to or absorbed from the power grid, and at least partly disabling or at least partly enabling one or more power consuming auxiliary systems in response to said determination. Moreover, an arrangement for delivering additional power to a power grid is provided.Type: ApplicationFiled: December 4, 2013Publication date: November 19, 2015Applicant: VESTAS WIND SYSTEMS A/SInventors: Thomas KRÜGER, Fabio CAPONETTI
-
Publication number: 20150322926Abstract: A method of controlling a wind turbine is described. The method involves forecasting the temperature evolution of a component of the wind turbine based upon the current operating parameters of the wind turbine and upon a required power output; predicting from the temperature forecast a future alarm event caused by the temperature of the component exceeding a first threshold level or falling below a second threshold level; and adjusting the operating parameters of the wind turbine to control the temperature evolution of the component thereby to avoid or delay the predicted alarm event.Type: ApplicationFiled: January 25, 2013Publication date: November 12, 2015Applicant: VESTAS WIND SYSTEMS A/SInventors: Fabio CAPONETTI, Martin Ansbjerg KJÆR
-
Publication number: 20150167646Abstract: The preset invention relates to wind turbines and, in particular inclining a wind turbine from the vertical position. A tower (102) of a wind turbine may be inclined from the vertical position in order to reduce the loads on the tower (102).Type: ApplicationFiled: July 26, 2013Publication date: June 18, 2015Inventors: Keld Hammerum, Elk Herbsleb, Lars Finn Sloth Larsen, Fabio Caponetti
-
Publication number: 20130110414Abstract: A method of detecting a fault mode of a sensor is provided. The sensor may be, for example, a bending moment sensor and may sense a bending moment of a blade on a wind turbine generator (WTG). The method includes comparing data output by a first sensor with reference data indicating what is expected to be output by the first sensor to produce a first comparison result and comparing data output by the first sensor with data output by a second sensor to produce a second comparison result. A determination of whether the first sensor has entered a fault mode is made based at least in part on the first and second comparison results.Type: ApplicationFiled: November 2, 2011Publication date: May 2, 2013Applicant: VESTAS WIND SYSTEMS A/SInventors: Fabio CAPONETTI, Per BRATH, Keld HAMMERUM, Johnny NIELSEN