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458
results.
Updated on
27/04/2025 [07:05:00]
Results 100 to 125 of 458
Absstract of: WO2025082681A1
According to an embodiment, the method is for operating a wind turbine (100) having a rotatable component (1 to 4) and N drives (di) for rotating the rotatable component by exerting torques, wherein N ≥ 2. The method comprises a step of providing first information (I1) which is representative of at least one operation parameter (P_i) of each drive. In a further step, second information (I2) is determined depending on the first information. The second information is representative of an operation parameter average (Pa, Pa_I, Pa_II) averaged over at least two drives. Third information (I3) is determined depending on the first and the second information, wherein the third information is representative of whether the operation parameter of at least one drive differs from the operation parameter average by more than a defined threshold (T). If this is the case, a first measure (M1) is executed. The first measure is configured to cause maintenance of the at least one drive. Additionally or alternatively, the first measure is configured to cause a change of the operation of the wind turbine.
Absstract of: WO2025082671A1
A method for detecting at least one property of a component (13, 27, 36) of or for a wind turbine blade (3), comprising: inducing (S1), by applying a primary magnetic field (25), a current (24) in a microwire (15) integrated in the component (13, 27, 36), measuring (S2) a secondary magnetic field (26) generated by the current (24) induced in the microwire (15), and determine (S1), based on the measured secondary magnetic field (26), the at least one property of the component (13, 27, 36). The method provides for efficient contactless structural health monitoring.
Absstract of: WO2025085048A1
A method of operating a grid forming inverter-based resource includes receiving, via a controller, one or more grid operating conditions of grid forming inverter-based resource. The method also includes selecting, via the controller, one of a grid forming power injection mode and a grid forming load following mode for operating the grid forming inverter-based resource based on the one or more grid operating conditions of grid forming inverter-based resource. Further, the method includes operating, via the controller, the grid forming inverter-based resource in the selected operating mode to coordinate demands of grid loads with an available power of the grid forming inverter-based resource.
Absstract of: DE102023004287A1
Durch Stufenlose Drehzahlwandler (1), wird Kräfte und Drehzahlen ohne einer Kraftunterbrechung geregelt und zum steuern von Generatoren die niedrige und schwankende Antriebkräften-Drehzahlen besitzen eingesetzt ist, bestehend aus mit einer Eingangskopplung 3, einer Ausgangskopplung 6 und einer Steuerkopplung 9, in einem eingeschlossenen Kreislauf in Reihe angeordneten drei Differentialgetrieben und zwischen der Ausgangkopplung (6) und Steuerkopplung (9), wird einem weiteren Differentialgetriebe (2x) als Rückkopplung-Mittkopplung angeordnet.Durch der Stufenlosregelbare Drehzahlwandler, wird unabhängig von Drehzahlen-Kräften der Getriebeeingang Konstante Ausgangdrehzahlen realisiert und optimale Kraft-Drehzahl Anpassung zwischen Antrieb und Last mit Hohe Steuerung-Effizient gewährleistet ist.
Absstract of: WO2025082388A1
The present invention relates to a method for preparing a spar cap for a wind turbine blade, the method comprising the steps of a) preparing a polyurethane-based pultruded strip by a pultrusion molding process; b) stacking a plurality of polyurethane-based pultruded strips in a vacuum infusion mold; c) bonding the polyurethane-based pultruded strips with a resin by vacuum infusion; and d) curing the infused resin. The present invention further provides a spar cap for a wind turbine blade, the spar cap comprising: i) a plurality of polyurethane-based pultruded strips;and ii) a resin for bonding the polyurethane-based pultruded strips.
Absstract of: WO2025083515A1
A strut application station (210) is suitable for applying struts (25) to a collar (170) of a large floater (10), in particular for wind turbines. The station comprises a working region (500), support means suitable for supporting the collar (170), constraining means suitable for forcing the collar (170) to rotate in order to obtain a circular shape, and actuating means suitable for rotating the collar (170) about the vertical axis (V). Picking means are also provided for picking up a strut (25) and positioning it close to a predefined target position of the inner side surface of the collar. Lastly, positioning means are provided for positioning the strut in the target position against the inner side surface of the collar, and spot-welding means for performing spot-welding of the strut in the target position of the inner side surface of the collar.
Absstract of: WO2025083465A1
The present invention relates to a method of bonding at least two-component containing epoxy paste adhesive composites, wherein at least one magnetic field responsible particle is dispersed within adhesive. The method further comprises the step of obtaining a mixture of at least an epoxy resin with magnetic particles which reacts with at least one amine hardener by applying an electromagnetic field of given strength alternating at a given frequency to the adhesive to allow fast bonding of the material. This method is especially useful for adhering components of wind turbines.
Absstract of: WO2025084931A1
A system for monitoring a structural response of at least two blades of a wind turbine and a method of installing such system. Each blade has a length measured from a hub end of said blade to an opposite end of said blade. At least one MOMS acceleration sensor is positioned on each blade. A communication connection is arranged between the at least two sensors and a monitoring system. Each sensor is positioned at a same respective position measured along the length of the respective blade of said sensor.
Absstract of: WO2025083172A1
The invention relates to a tower segment (1) for a tower of a wind turbine, comprising a tower segment shell (5) for shielding an inner chamber (6) of the tower segment (1) from an environment of the tower and a horizontally arranged first holding structure (9). The first holding structure (9) has a first longitudinal end section (11) and a second longitudinal end section (12), wherein the first longitudinal end section (11) is fixedly attached to a first shell section (13) of the tower segment shell (5), wherein the second longitudinal end section (12) is moveably arranged at a second shell section (14) of the tower segment shell (5). The invention further relates to a method for manufacturing a tower of a wind turbine.
Absstract of: WO2025082578A1
The invention provides a method for handling a blade (11) of a horizontal axis wind turbine (1), wherein the wind turbine comprises a tower (14), a nacelle (15) mounted on the tower, and a rotor hub (18) mounted to the nacelle, wherein the blade is elongated and extends from a blade root (111) to a blade tip (112), wherein, when the blade is mounted to the hub, a circular blade mounting flange (182) of the hub is in contact with the blade root (111), the method comprising a blade mounting procedure comprising - fixing in relation to the hub (18) a plurality of blade guide devices (411-414) so as to be distributed in a circumferential direction of the blade mounting flange (182), each blade guiding device protruding in a direction away from the hub (18) and in a non-zero angle to a plane formed by the mounting flange, - engaging a blade supporting arrangement (301) with the blade (11), - supporting the blade (11) by means of the engaged blade supporting arrangement (301), - providing contact between contact surfaces (4101) of the fixed blade guide devices (411-414) and the supported blade (11), at the blade root (111), and - moving, with the contact surfaces (4101) of the blade guide devices (411-414) in contact with the supported blade (11), at least one of the contact surfaces in a radial direction of the blade mounting flange (182).
Absstract of: WO2025082577A1
The invention provides a method for handling a blade (11) of a horizontal axis wind turbine (1), wherein the wind turbine comprises a tower (14), a nacelle (15) mounted on the tower, and a rotor hub (18) mounted to the nacelle, wherein the blade is elongated and extends from a blade root (111) to a blade tip (112), wherein, when the blade is mounted to the hub, a circular blade mounting flange (182) of the hub is in contact with the blade root (111), the method comprising - arranging a plurality of blade guide devices (411-414) so as to be fixed in relation to the hub (18), and distributed in a circumferential direction of the blade mounting flange (182), and so that contacts are provided between the blade (11) and contact devices (4105) of the blade guide devices (411-414), which contacts are provided at the blade root (111), - engaging a blade supporting arrangement (301) with the blade (11), - supporting the blade (11) by means of the engaged blade supporting arrangement (301), - driving at least one of the contact devices (4105) which are in contact with the blade so as to move the supported blade towards or away from the blade mounting flange (182).
Absstract of: WO2025083517A1
The present application describes an Outdoor Luminaire for Street Lighting with integrated AC Electrical Vehicle Charging Station. The outdoor luminaire (1) for street lighting, comprising a lighting system (10), is characterized by comprising at least one internal charger controller (11) configured to enable the charge and management of electrical vehicles by means of at least one electrical outlet socket or cable outlet.
Absstract of: WO2025082792A1
It is described a method of at least partially installing at least one wind turbine at an offshore site (5), the method comprising: loading at least one lower tower portion (3) of a wind turbine onto a vessel, the lower tower portion (3) spanning less than an entire wind turbine tower; transporting the lower tower portion (3) to the offshore site (5); lifting and guiding the lower tower portion (3) such that a lower end (7) approaches a tower connection portion (7) provided at an offshore foundation; connecting the lower tower portion (3) at the lower end (7) with the tower connection portion (8).
Absstract of: WO2025082694A1
The invention relates to a drive assembly (101, 301) for a wind turbine, comprising a main shaft, a housing (103), a nacelle-fixed supporting structure (105) and at least one spring element (107, 109); wherein the main shaft is mounted completely in the housing (103); and wherein the housing (103) is resiliently mounted in the supporting structure (105) by means of the at least one spring element (107, 109). The at least one spring element (107, 109) has at least one resilient membrane (403).
Absstract of: WO2025084503A1
The present invention relates to an offshore floating body that is easily towed, the offshore floating body comprising: a plurality of legs disposed at intervals from one another; connection bars connected between any one of the legs and another leg; and a cover member arranged to partially surround at least one outer surface of a leg, wherein when towing is performed at sea, the flow of seawater is guided to the outside of the legs by contact with the cover member and thus the flow of seawater between any one of the legs and another leg is suppressed, reducing the resistance caused by seawater.
Absstract of: WO2025084451A2
The present invention relates to a wind power tower apparatus for a large-capacity floating wind power generator and a wind power generator construction method using same, and in particular, to a wind power tower apparatus and a wind power generator construction method using same, wherein the wind power tower apparatus enables easier work because installation and maintenance of the wind power generator can be carried out on a floating body itself through rails and a transport plate which are provided to be vertically moved between a plurality of towers. The wind power tower apparatus for a large-capacity floating wind power generator, according to an embodiment of the present invention, comprises a floating body which floats on the sea and is provided to support a structure installed on the upper portion thereof; a plurality of towers which are fixed at the center of the top of the floating body at certain distances from each other; a wind power generator which is fixed to the upper ends of the towers and is provided to generate electricity using wind power; and jacking equipment comprising rails respectively formed on the side surfaces of the plurality of towers and a transport plate which has a plate shape and is provided to transport an object while vertically moving along the rails among the plurality of towers.
Absstract of: WO2025081571A1
Provided in the present application are a blade with a lightning protection system and a forming method therefor. The blade with the lightning protection system comprises a blade body, a down-conductor structure and an air-termination assembly, the down-conductor structure being attached to the surface of the blade body. The air-termination assembly comprises a first air-termination member and a second air-termination member which are arranged away from each other, the first air-termination member being connected to the down-conductor structure and being exposed out of the surface of the blade body, and the second air-termination member being arranged at the blade tip of the blade body and being connected to the down-conductor structure by means of a conductive member. In the structure, since the down-conductor structure is attached to the surface of the blade body, structural modifications to the blade body caused by providing the air-termination assembly and the down-conductor structure are reduced, and the blade with the lightning protection system has relatively good structural integrity, thereby helping to improve the reliability of quality of the blade with the lightning protection system.
Absstract of: WO2025081869A1
The present invention relates to an intelligent online voiceprint monitoring method and system for icing conditions of fan blades. The method comprises the specific steps of: collecting high-fidelity broadband audio by means of a high-fidelity audio collection device; pre-processing the collected high-fidelity broadband audio by means of a low-frequency filter, so as to filter out low-frequency noise; extracting blade audio signal features by means of a pre-trained automatic codec based on a sequence neural network, and representing audio signal features of fan blades in the form of spectrograms; cutting the spectrograms to obtain air-blowing sections and air-blowing interval sections of different fan blades, and segmentation point coordinates; enhancing the local contrast of the spectrograms by means of a grayscale histogram equalization algorithm, and then generating an average spectrogram in an air-blowing state on the basis of spectrograms in all air-blowing sections of each fan blade; and determining an operating state on the basis of the average spectrogram of each fan blade, and raising an intelligent alarm on the basis of a preset rule.
Absstract of: WO2025081269A1
A mobile electric vehicle (EV) charging station features a towable trailer with one or more selectively erectable wind turbines each repositionable between an erect working position standing upright from the trailer and a laid-down transport position of lesser upstanding relation to the trailer. A rechargeable power store on the trailer is electrically coupled to the one or more selectively erectable wind turbines for charging thereby. One or more EV charging bays on the trailer are electrically connected to the power store for powering of the EV charging bays therefrom to enable charging of an EV vehicle by each charging bay using stored electrical power derived from the wind turbines. The trailer can serve remote or underserved geographic areas lacking sufficient EV charging infrastructure, and allows existing businesses with available parking lot space to add EV charging capability to their location.
Absstract of: US2025129767A1
A floating type offshore wind structure having improved structural strength and reduced weight, including a floating body having buoyancy in the seat; and a wind power generation unit fixed to the floating body, wherein the floating body includes a plurality of columns disposed at the vertex positions of a triangle, respectively, and a plurality of pontoon units disposed in the form of a triangle, so as to connect the plurality of columns, the wind power generation unit is placed at any one of the plurality of columns, each of the plurality of columns includes a first side in contact with a first pontoon unit which is any one of the plurality of pontoon units, and a second side in contact with a second pontoon unit which is another one of the plurality of pontoon units, and each of the first side and the second side is a planar surface.
Absstract of: US2025129766A1
The present invention relates to a device for the support and foundation of a wind turbine tower. Said device comprises a main body (1) made at least partially of concrete. It also comprises a transition part (2) attached to the main body (1) and a plurality of installation elements (3) located on the main body. The transition part (2) comprises a housing (4) for installing a wind turbine tower, and each installation element (3) comprises a through hole (5) for installing an anchoring tendon.
Absstract of: US2025132605A1
A wind turbine with a power beaming apparatus is provided, wherein the power beaming apparatus includes at least one receiving antenna for receiving electromagnetic radiation and converting the received electromagnetic radiation into current, and the wind turbine comprises one or more electrical devices electrically connected with the at least one receiving antenna for supplying the current from the receiving antenna to the one or more electrical devices. The one or more electrical devices of the wind turbine can be supplied with electrical power by power beaming even in the case that a generator of the wind turbine does not generate electrical power. In particular, neither an electrical cable connection of the wind turbine nor a large storage unit for storing electrical energy at the wind turbine are necessary.
Absstract of: US2025132535A1
A slip ring assembly includes: at least one first conductor group, and at least one second conductor group. Each first conductor group includes a first conductor and a second conductor, and the first conductor and the second conductor are configured as annular shapes, respectively. Each second conductor group includes a third conductor and a fourth conductor, the third conductor and the fourth conductor are configured as annular shapes, respectively. The first conductor, the second conductor, the third conductor and the fourth conductor are arranged to be apart from each other. A first current having a first phase and a first amplitude is configured to flow through the first conductor, a second current having a second phase and a second amplitude is configured to flow through the second conductor, a third current having a third phase and a third amplitude is configured to flow through the third conductor.
Absstract of: US2025132566A1
The present application discloses a method and apparatus for adjusting a reactive power in a wind farm and an electronic device. The method for adjusting a reactive power in a wind farm includes: acquiring a wind farm reactive control parameter issued by a grid to the wind farm; calculating an average reactive control parameter for each of wind turbines in the wind farm according to the wind farm reactive control parameter; modifying, for each of the wind turbines, the average reactive control parameter according to a difference between a voltage of the wind turbine at a point of common coupling and a preset voltage limit to obtain wind turbine reactive control parameters of the respective wind turbines; and outputting the wind turbine reactive control parameters to the respective wind turbines.
Nº publicación: US2025132567A1 24/04/2025
Applicant:
GOLDWIND SCIENCE & TECH CO LTD [CN]
GOLDWIND SCIENCE & TECHNOLOGY CO., LTD
Absstract of: US2025132567A1
A wind turbine generator set, and a control method and apparatus for a wind power converter are provided. The control method includes extracting a super-synchronous oscillation component of a grid-side voltage of a wind power converter and a super-synchronous oscillation component of a grid-side current of the wind power converter. The control method also includes determining a phase angle of equivalent impedance of the wind power converter based on the super-synchronous oscillation component of the grid-side voltage and the super-synchronous oscillation component of the grid-side current. The control method further includes setting an operation mode of the wind power converter based on the super-synchronous oscillation component of the grid-side voltage and/or the super-synchronous oscillation component of the grid-side current, and the phase angle.
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