Energía eólica

METHOD AND APPARATUS FOR EVALUATING VULNERABILITY OF MONO-PILE FOUNDATION OF OFFSHORE WIND TURBINE

Resumen de: US2025165659A1

A method and apparatus for evaluating vulnerability of monopile foundations of offshore wind turbines are provided. The method includes collecting offshore wind farm location data and wind-wave characteristic data, and simulating a wind-wave time course according to the offshore wind farm location data and the wind-wave characteristic data; determining a wind-wave dynamic load based on the wind-wave course; obtaining lateral soil resistance data of monopile foundations with a plurality of rock-soil strength parameters, and inputting the wind-wave dynamic load into a 3D finite element model; using the lateral soil resistance data of monopile foundations with a plurality of rock-soil strength parameters as boundary conditions of the 3D finite element model; and giving a limit state of monopile foundations, and determining vulnerability of monopile foundations on basis of the dynamic response result of the monopile foundations and the limit state of monopile foundations.

BLITZABLEITER FÜR EIN SCHWER ORTBARES FAHRZEUG UND SELBIGES

Resumen de: DE102023132129A1

Es wird ein Blitzableiter (10) für ein schwer ortbares Fahrzeug (1), insbesondere Tarnkappenluftfahrzeug, vorgeschlagen, mit einer Stützstruktur (14) aus einer ersten Metalllegierung mit hoher Temperaturbeständigkeit und mit einer zumindest abschnittsweise in der Stützstruktur (14) aufgenommenen Ableitstruktur (15) aus einer zweiten Metalllegierung mit hoher elektrischer Leitfähigkeit, sowie ein Fahrzeug (1), insbesondere Tarnkappenluftfahrzeug, mit wenigstens einem solchen Blitzableiter (10).

BUILDING MANAGEMENT AND APPLIANCE CONTROL SYSTEM

Resumen de: US2025167554A1

The present disclosure is directed to energy storage and supply management system. The system may include one or more of a control unit, which is in communication with the power grid, and an energy storage unit that stores power for use at a later time. The system may be used with traditional utility provided power as well as locally generated solar, wind, and any other types of power generation technology. In some embodiments, the energy storage unit and the control unit are housed in the same chassis. In other embodiments, the energy storage unit and the control unit are separate. In another embodiment, the energy storage unit is integrated into the chassis of an appliance itself.

WIND ROUTERS FOR VERTICAL WIND TURBINES

Resumen de: US2025163883A1

Wind turbines for vertical wind turbines, that is, self-adjusting stationary blades and wind routers which further enhance the operation and efficiency of each wind turbine on the main axis of the turbine. Depending on the height of the turbine, there may be one or more routers, depending on the height of the turbine, taking into account the rotor height of about 3 meters, it would have 3 wind routers of 1 m each.

Method of assembling a tubular floating structure and its use

Resumen de: US2025162696A1

A first and a second tubular member are welded to opposite sides of a stiffening ring in order to obtain a double-segment. Further segments can be added to form a tubular multi-segment with stiffening rings in between adjacent tubular members. The resulting multi-segment is used as a tubular buoyancy module in a floating offshore structure.

FLOATING-TYPE OFFSHORE WIND POWER MOORING SYSTEM CAPABLE OF REDUCING YAW MOTION

Resumen de: US2025162691A1

A floating-type offshore wind power mooring system capable of reducing a yaw motion including a floating body having three columns, disposed at the vertices of a triangle, respectively, and three pontoon units, disposed in a triangular shape to connect the multiple columns; and a wind power generation unit disposed in any one of the three columns and including a mooring unit. The mooring unit includes first, second, and third mooring lines, and a connection unit. The first mooring line has one end connected to any one of the three columns; the second mooring line has one end connected to another of the three columns; the third mooring line has one end connected to the seabed. The connection unit connects the other end of the first, second and third mooring lines so that the first mooring line, the second mooring line, and the third mooring line are arranged in a Y-shape.

MULTI-TOWER LINKAGE TYPE AERIAL HOISTING PLATFORM

Resumen de: US2025162845A1

A multi-tower linkage type aerial hoisting platform includes: four tower crane body lifting/lowering parts respectively disposed in an outer periphery of a building to form a rectangle through enclosure, and including a tower crane body and a self-climbing lifting/lowering system that is capable of climbing or descending step by step along the tower crane body; four tower-crane-body-connected support beams, respectively disposed on two opposite self-climbing lifting/lowering systems, where a hoisting platform enclosed by the tower-crane-body-connected support beams is driven by the self-climbing lifting/lowering systems to move up and down synchronously; and four movable tower crane bases, respectively disposed at lower ends of the four tower crane body lifting/lowering parts, including movable chassis that are used as movable supports with a variable platform angle and support parts disposed on the movable chassis, where four corners of the support parts are respectively provided with rotary drilling fastening parts.

System and Method for Controlling a Stand-Alone Direct Current Power System

Resumen de: US2025165022A1

Various implementations described herein are directed to systems, apparatuses and methods for operating stand-alone power systems. The systems may include power generators (e.g., photovoltaic generators and/or wind turbines), storage devices (e.g., batteries and/or flywheels), power modules (e.g., power converters) and loads. The methods may include various methods for monitoring, determining, controlling and/or predicting system power generation, system power storage and system power consumption.

SYSTEMS AND METHOD FOR STABILIZER CONTROL

Resumen de: US2025165021A1

A method, apparatus, system and computer program is provided for controlling an electric power system, including implementation of a voltage control and conservation (VCC) system used to optimally control the independent voltage and capacitor banks using a linear optimization methodology to minimize the losses in the EEDCS and the EUS. An energy validation process system (EVP) is provided which is used to document the savings of the VCC and an EPP is used to optimize improvements to the EEDCS for continuously improving the energy losses in the EEDS. The EVP system measures the improvement in the EEDS a result of operating the VCC system in the “ON” state determining the level of energy conservation achieved by the VCC system. In addition the VCC system monitors pattern recognition events and compares them to the report-by-exception data to detect HVL events. If one is detected the VCC optimizes the capacity of the EEDS to respond to the HVL events by centering the piecewise linear solution maximizing the ability of the EDDS to absorb the HVL event. The VCC stabilizer function integrates voltage data from AMI meters and assess the state of the grid and initiates appropriate voltage control actions to hedge against predictable voltage risks.

LOW-WIND RIDE-THROUGH OF A WIND TURBINE

Resumen de: US2025163885A1

A method of controlling a wind turbine is provided including a generator system, an energy storage system and auxiliary equipment, the method including, in particular during a low wind condition: controlling the generator system in order to provide power from the generator system to the auxiliary equipment, in particular such that a rotor speed does not decrease; controlling the energy storage system in order to provide power from the energy storage system to the auxiliary equipment, if required to meet a power requirement of the auxiliary equipment; in particular keeping the wind turbine in operation.

Method of operating a wind turbine

Resumen de: US2025163888A1

A method of operating a wind turbine is provided. The wind turbine is operable in plural different operating modes that differ by at least one of lifetime consumption of the wind turbine and energy production by the wind turbine. A sequence of operating modes is determined for a future period of time, wherein an optimization parameter is estimated based on at least one estimated external parameter. The method further includes obtaining a current value for the at least one external parameter and determining an actual operating mode for the wind turbine for a current point in time, wherein the determining of the actual operating mode comprises estimating an adjusted optimization parameter for plural sequences and for the current value of the at least one external parameter, and selecting the actual operating mode based on the estimated adjusted optimization parameters. The wind turbine is operated in the determined actual operating mode.

METHOD OF OPERATING A WIND TURBINE

Resumen de: US2025163886A1

A method of operating a wind turbine is provided. The method includes steps of monitoring the temperature of a component of the wind turbine to obtain a temperature progression for that component; determining the gradient of the temperature progression; and curtailing the power output of the wind turbine on the basis of the temperature progression gradient. The disclosed further describes a wind turbine including a curtailment module configured to curtail the power output of the wind turbine on the basis of a temperature progression gradient.

METHOD OF CONTROLLING TONAL NOISE FROM A WIND TURBINE

Resumen de: US2025163887A1

A method of controlling airborne tonal noise which originates from a component of a wind turbine, the wind turbine comprising a vibration control system comprising a plurality of actuators. The method comprising identifying a first operating state of the wind turbine; and selecting a first set of one or more of the actuators on the basis of the identified first operating state. Each actuator of the first set is operated to apply a vibration control oscillation to the component in phase opposition to a vibration of the component, thereby damping the vibration of the component and in turn reducing airborne tonal noise originating from the component. A change of the wind turbine to a second operating state is detected, then a second set of one or more of the actuators is selected on the basis of the identified second operating state. Each actuator of the second set is operated to apply a vibration control oscillation to the component in phase opposition to a vibration of the component, thereby damping the vibration of the component and in turn reducing airborne tonal noise originating from the component.

METHOD OF CONTROLLING A WIND TURBINE

Resumen de: US2025163894A1

A method of controlling a wind turbine is provided including at least one fan-cooled unit with a fan adapted to circulate air inside a housing of the fan-cooled unit, which method includes operating the fan-cooled unit in a dryout mode by: disabling a thermal energy reduction the fan-cooled unit, which thermal energy reduction means is adapted to reduce thermal energy of air inside the housing during a normal operation mode of the fan-cooled unit; actuating a fan of the fan-cooled unit to circulate the quantity of air contained in the housing; and monitoring a climate parameter until a target climate condition has been reached. A wind turbine configured to execute the steps of the inventive method is also provided.

A WIND TURBINE COMPRISING A LIQUID COOLER AND A METHOD FOR COOLING A LIQUID

Resumen de: US2025163893A1

A wind turbine has a wind turbine gearbox, a generator and/or a converter arranged inside a nacelle of the wind turbine. The wind turbine further has a liquid cooler arranged to cool a liquid flowing through the wind turbine gearbox, the generator and/or the converter by way of air ambient to the nacelle. The liquid cooler includes a first liquid cooler part having a first part cooling capacity and a second liquid cooler part having a second part cooling capacity, wherein the second part cooling capacity is greater than the first part cooling capacity. The liquid cooler also includes a bypass conduit arranged to guide a liquid from the first liquid cooler part past the second liquid cooler part, and valve means arranged to control flow through the bypass conduit, wherein the valve means are controlled based on at least one characteristic of the liquid flowing through the liquid cooler. A method for cooling a liquid is also provided.

Wind Turbine Blade Lifter

Resumen de: US2025163891A1

A vacuum material handler (10) is adapted to lift a wind turbine rotor blade for connection to a wind turbine tower. A first and second vacuum system (60) are connected to a main beam (30) of the handler and include a vacuum tank (61), valves (67), and vacuum lifting pads (21). Each lifting pad or pair of pads is in communication with one of the vacuum tanks (60A or 60B) and adjacent lifting pads or pairs of pads are in communication with the other vacuum tank (60B or 60A). Each lifting pad pivots in a upward and a downward direction fore and aft and side to side to accommodate and conform to the contour of the blade. The handler is lighter in weight than cradle and gripper systems, can be delivered by hotshot trailer, and does not require a cradle or the like to support the blade.

TORQUE LIMITER BASED ON CURRENT TORQUE VALUE

Resumen de: US2025163884A1

The present invention relates to control of a wind turbine where a torque limit is set on a control signal. A current torque value of a rotor of the wind turbine is determined and compared to an upper torque limit value and the control signal is modified if the current torque value is larger than the upper torque limit value. The upper torque limit value is based on a lower envelope signal which tracks the current torque value if the current torque value is lower than or equal to the previous lower envelope value and is set as a rising signal if the current torque value is higher than the previous lower envelope value. The upper torque limit is set to be a first amount higher than the lower envelope signal.

CONFIGURABLE WHEEL FOR A VEHICLE

Resumen de: US2025163890A1

A wheel for a vehicle includes a wheel hub unit comprising, in turn, a stator portion to be coupled to a body of the vehicle by means of suspensions, a rotor portion and supporting means supporting the rotor portion on the stator portion in a rotatable manner about a rotation axis, a plurality of blades for a power absorbing turbomachine, and a deployment mechanism carried by a portion between the rotor portion and the stator portion and configured to conduct the blades between a deployed configuration, in which the blades are arranged so as to form an array of compressor blades adapted to compress an air flow along the rotation axis during the use of the vehicle, thereby resulting in a drag on the vehicle, and a rest configuration, in which the blades result in less drag on the vehicle than the deployed configuration.

SYSTEM AND METHOD FOR ASSESSING AND OPTIMIZING WIND FARMS USING MACHINE LEARNING

Resumen de: US2025163889A1

A computing system identifies a geographical region of interest. The computing system generates a background numerical weather prediction using a mesoscale numerical weather prediction model. The computing system identifies information associated with wind farms for inclusion in the geographical region of interest. For each wind farm, the computing system determines a wake effect of neighboring farms to the first wind farm by projecting wind deficits for the neighboring farms to generate a plurality of wake effects for the geographical region. The computing system generates an estimated power output for the wind farms in the geographical region of interest based on the plurality of wake effects.

Controller, Terminal Device, Management System, and Management Method

Resumen de: US2025163892A1

A detection unit acquires detection data of a wind turbine generator. A controller generates maintenance information of the wind turbine generator based on the detection data. The controller transmits maintenance information to a maintenance terminal.

THERMAL ENERGY STORAGE SYSTEM COUPLED WITH STEAM CRACKING SYSTEM

Resumen de: US2025163831A1

An energy storage system (TES) converts variable renewable electricity (VRE) to continuous heat at over 1000° C. Intermittent electrical energy heats a solid medium. Heat from the solid medium is delivered continuously on demand. Heat delivery via flowing gas establishes a thermocline which maintains high outlet temperature throughout discharge. The delivered heat which may be used for processes including power generation and cogeneration. In one application, the energy storage system provides higher-temperature heat to a steam cracking furnace system for converting a hydrocarbon feedstock into cracked gas, thereby increasing the efficiency of the temperature control.

WIND POWER PLANT AND METHOD FOR OPERATING A WIND POWER PLANT

Resumen de: US2025163593A1

A wind power plant is provided, including: one or more generator devices for generating electrical power from wind power; a plurality of hydrogen production units for producing hydrogen from the generated electrical power; a plurality of DC-DC converters each being electrically connected with the one or more generator devices and with a respective one of the plurality of hydrogen production units, and each DC-DC converter being configured for supplying power with a tunable output voltage to the respective hydrogen production unit; and a control device for controlling the power supplied by each DC-DC converter to the respective hydrogen production unit based on a current power output of the one or more generator devices. With the proposed wind turbine plant the supply of power to the plurality of hydrogen production units can be improved.

Thermal Energy Storage System with Deep Discharge

Resumen de: US2025163830A1

An energy storage system converts variable renewable electricity (VRE) to continuous heat at over 1000° C. Intermittent electrical energy heats a solid medium. Heat from the solid medium is delivered continuously on demand. An array of bricks incorporating internal radiation cavities is directly heated by thermal radiation. The cavities facilitate rapid, uniform heating via reradiation. Heat delivery via flowing gas establishes a thermocline which maintains high outlet temperature throughout discharge. Gas flows through structured pathways within the array, delivering heat which may be used for processes including calcination, hydrogen electrolysis, steam generation, and thermal power generation and cogeneration. Groups of thermal storage arrays may be controlled and operated at high temperatures without thermal runaway via deep-discharge sequencing. Forecast-based control enables continuous, year-round heat supply using current and advance information of weather and VRE availability. High-voltage DC power conversion and distribution circuitry improves the efficiency of VRE power transfer into the system.

WIND-POWERED ELECTROLYSIS ARRANGEMENT

Resumen de: US2025163592A1

A wind-powered electrolysis arrangement is provided including a plurality of wind turbines of an offshore wind park; a distributed electrolyzer plant including a plurality of electrolyzers, wherein each electrolyzer is arranged on a wind turbine platform; a balance of plant of the distributed electrolyzer plant, installed on a main platform in the wind park; and a plurality of product pipelines, wherein each product pipeline is arranged to convey a number of products between the balance of plant and a distributed electrolyzer. A method of operating such a wind-powered electrolysis arrangement is also provided.

DIGITAL TWINNING METHOD FOR MONITORING OPERATION STATE OF TOWER OF WIND TURBINE GENERATOR SYSTEM ONLINE

Nº publicación: US2025165673A1 22/05/2025

Solicitante:

ZHEJIANG UNIV OF TECHNOLOGY [CN]
ZHEJIANG UNIVERSITY OF TECHNOLOGY

Resumen de: US2025165673A1

Disclosed is a digital twinning method for monitoring an operation state of a tower of a wind turbine generator system online. The method includes: 1) constructing a simplified model of the tower of the wind turbine generator system, and discretizing the simplified model according to a finite element method to obtain a finite element model; 2) reducing an order of the finite element model of the tower according to proper orthogonal decomposition, analyzing precision of a reduced-order model under different orders, and selecting the reduced-order model having a smallest reduced order as a final reduced-order model on the premise that the precision satisfies actual engineering requirements; and 3) programming upper computer software in a computer, deploying the reduced-order model to the upper computer software, further building a physical entity of the tower, and monitoring a stress and a strain of the physical entity online through the reduced-order model.