Energía eólica

电能制氢及氢能发电的联合装置

Resumen de: EP1000000A1

The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.

一种煤矿用安全通风系统和通风方法

Resumen de: EP1000000A1

The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.

用于利用撞击在垂直表面上的风能的系统和方法

Resumen de: EP1000000A1

The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.

包括闪电连接器组件和传导组件的翼梁帽结构

Resumen de: EP1000000A1

The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.

用于借助振动分析来监控风能设备的状态的方法和装置

Resumen de: EP1000000A1

The invention relates to an apparatus (1) for manufacturing green bricks from clay for the brick manufacturing industry, comprising a circulating conveyor (3) carrying mould containers combined to mould container parts (4), a reservoir (5) for clay arranged above the mould containers, means for carrying clay out of the reservoir (5) into the mould containers, means (9) for pressing and trimming clay in the mould containers, means (11) for supplying and placing take-off plates for the green bricks (13) and means for discharging green bricks released from the mould containers, characterized in that the apparatus further comprises means (22) for moving the mould container parts (4) filled with green bricks such that a protruding edge is formed on at least one side of the green bricks.

WIND TURBINE BLADE CORE ASSEMBLY AND METHOD FOR ITS MANUFACTURE

Resumen de: WO2026073898A1

There is provided a kit of parts for manufacturing at least part of a cellular core of a wind turbine blade The kit of parts includes a plurality of core sections (102, 104) composed of cellular material, each core section (102, 104) having a peripheral surface (111) which comprises a first side face (106), a second side face (108) and a third side face (110). Each core section (102, 104) has at least one hole (126) extending inwardly from at least one of first and second end faces (122, 124). The kit of parts further includes at least one dowel (130) composed of cellular material, the dowel (130) being shaped and dimensioned to fit within a respective hole of each of two adjacent core sections (102, 104) so that the at least one dowel (130) connects together the two adjacent core sections (102, 104).

OFFSHORE ELECTROLYSIS SYSTEM, AND METHOD FOR OPERATING AN OFFSHORE ELECTROLYSIS SYSTEM

Resumen de: AU2024352319A1

The invention relates to an offshore electrolysis system (100) comprising: a wind turbine (1) having a platform (3) and an electrolysis plant (5) which is arranged on the platform (3) and is connected to the wind turbine (1) in order to supply electrolysis current; and a water supply device (7) which is connected to the electrolysis plant (5) and has a water collector (13) which is designed such that it is possible, without relying on seawater, to obtain water with little or no salt content which can be used as feed water for operating the electrolysis plant (5). The invention also relates to a method for operating a corresponding offshore electrolysis system (100), wherein, without relying on seawater, water is obtained in a water collector (13), the obtained water being of a quality with little or no salt content.

METHOD FOR CONSTRUCTING SPAR-TYPE FLOATING BODY AND STEEL-CONCRETE COMPOSITE STRUCTURE PART OF OFFSHORE WIND POWER GENERATION EQUIPMENT

Resumen de: WO2026074679A1

Problem To enable efficient and low-cost construction of a spar-type floating body and to simultaneously solve problems such as thermal cracking and bending cracking of concrete. Solution In a spar-type floating body 4, the lower half side is a steel-concrete composite structure part 4A in which concrete C is cast in a predetermined thickness on the inner surface side of an outer shell steel member 10 covering the outer periphery. In the steel-concrete composite structure part 4A, reinforcing bars placed in the concrete C include polygonal first reinforcing bars 35 and second reinforcing bars 36 disposed alternately in a staggered manner at intervals in the longitudinal direction of the floating body, the first reinforcing bars 35 and the second reinforcing bars 36 being constituted by a large number of joint parts a welded to the outer shell steel member 10 over a predetermined length range and at predetermined intervals in the circumferential direction of the outer shell steel member 10, and chord parts b linearly connecting ends of adjacent joint parts a, a. At the center position of each chord part b of the first reinforcing bars 35 and the second reinforcing bars 36, a predetermined cover to the outer surface of the concrete is ensured.

SPAR-TYPE FLOATING BODY FOR OFFSHORE WIND POWER GENERATION FACILITY AND CONSTRUCTION METHOD FOR STEEL-CONCRETE COMPOSITE STRUCTURE PART

Resumen de: WO2026074680A1

Problem To efficiently construct a spar-type floating body at a low cost, and to simultaneously solve issues such as concrete temperature cracks and bending cracks. Solution A spar-type floating body 4 with the lower half thereof being imparted as a steel-concrete composite structure part 4A in which concrete C is cast to a prescribed thickness on the inner surface of an outer-shell steel member 10 that covers the outer periphery, and the upper half thereof having an outer-shell steel member 12 that covers the outer periphery and being imparted as a steel structure part 4B made entirely of steel members. In the steel-concrete composite structure part 4A, reinforcing bars embedded in the concrete C are formed by arranging assembly reinforcing bars 35 spaced at an interval P along the longitudinal direction of the floating body, each assembly reinforcement 35 comprising: an inner circumferential bar 36A arranged parallel to the outer-shell steel member 10 in a state of maintaining a prescribed cover K with respect to the concrete outer surface; and a zigzag-shaped truss bar 36B arranged so as to alternately connect, over each prescribed length, the inner circumferential bar 36A and the outer-shell steel member 10.

WIND TURBINE FOUNDATION AND CONSTRUCTION METHOD

Resumen de: WO2026074214A1

The invention relates to a wind turbine foundation and a construction method, the foundation comprising a bottom slab with a plurality of rectangular arms, optionally ending in footings; a core with means for securing a wind turbine tower on the central part of the bottom slab; and a plurality of arms comprising two flat parallel vertical side walls, the space between the two walls being filled up to the upper edge with one or more filler materials. The foundation may optionally include an upper closure slab on each pair of side walls and/or an external wall with anchors. The invention allows simple and efficient assembly with conventional auxiliary assembly means, using a smaller volume of concrete and steel to be able to withstand the same stresses as equivalent conventional foundations, by designing the arms with a structurally highly efficient hollow cross-section and optionally filling same with earth or other filler materials as counterweight.

ASSEMBLY AND METHOD FOR CONNECTING A STEEL WIND TURBINE TOWER TO A CONCRETE FOUNDATION

Resumen de: US20260098518A1

A cable head ring for use in connecting a wind turbine tower to a concrete foundation. The cable head ring includes an annular plate for connecting to the upper end of the concrete foundation, an inner tubular web extending axially from the annular plate and an outer tubular web extending axially from the annular plate. An annular gap is formed between the inner and outer tubular webs for receiving a tubular wind turbine component. The annular plate has a plurality of passages extending axially therethrough for receiving tensioning tendons of the concrete foundation. The inner and outer tubular webs include holes extending radially therethrough. The positions of the holes in the inner tubular web correspond to the positions of the holes in the outer tubular web such that a fastener can extend radially through a hole in the inner tubular web and a hole in the outer tubular web.

PERMANENT MAGNET GENERATOR

Resumen de: US20260100620A1

The disclosed is a permanent magnet generator, comprising: a base; a stator having an internal ventilation duct, wherein the outer circumference of a clamping ring of the stator is in interference fit with the base using shrink fitting, to form a circumferential air duct between the base and the outer circumference of a stator core; a rotor arranged inside the stator, and provided with a rotor magnetic pole having finned ventilation ducts; and a cooler arranged at a top of the base. The disclosed uses a new air-water cooling method in which cooling water circulates outside the generator, and air circulates inside the generator. The pressure head for circulation inside the generator is provided by means of the rotation of the rotor having finned ventilation ducts. A top drive fan at a top of the cooler provides kinetic energy for an internal-circulation air path.

BASE ASSEMBLY FOR A TOWER MOUNTED CRANE

Resumen de: US20260097934A1

0000 A base assembly configured to support a tower mounted crane on a nacelle of the wind turbine, said tower mounted crane being of the kind comprising a base portion and a boom arm, where the boom arm is arranged rotatably about a vertical axis relative to the base portion during normal operation of the tower mounted crane, said base assembly includes a base structure adapted to be mounted to the nacelle, and a support structure configured to engage with the tower mounted crane and support the tower mounted crane in an upright position. In an engagement of the tower mounted crane with the base assembly, a base portion of the tower mounted crane is attached to the support structure. The support structure is movably coupled to the base structure and is adapted to be displaced linearly relative to the base structure in a direction substantially parallel to a longitudinal axis of the nacelle to arrange the tower mounted crane at a plurality of crane mounting positions relative to the nacelle.

ROTOR STAND

Resumen de: US20260098520A1

A rotor stand for a wind turbine rotor includes: an interface plate configured to secure thereto a rotor hub of the wind turbine rotor; a plurality of legs connected to and extending radially outward from the interface plate, at least one of the legs radially extendible to permit changing a length of the extendible leg; and, a plurality of support shoes connected to the plurality of legs, the support shoes configured to support the rotor stand on a horizontal surface with the interface plate oriented substantially parallel to the horizontal surface.

TRANSPORTING WIND TURBINE COMPONENTS

Resumen de: US20260098519A1

0000 A transport structure (42) for transporting a set of wind turbine components (22) on a vehicle (92, 94). The transport structure (42) comprises: a support structure (44), comprising at least one frame (46); and a set of locking interfaces arranged on the support structure (44) for releasably securing the transport structure (42) when in transit. Said at least one frame (46) comprises attachment means configured for releasably securing at least one wind turbine component (22) of the set of wind turbine components to said at least one frame (46).

CONCRETE SEGMENT OF A SECTION OF A WIND TURBINE TOWER AND A MOULD CONFIGURED TO CAST A CONCRETE SEGMENT

Resumen de: US20260098517A1

0000 The object of the invention is a concrete segment of a section of a wind turbine tower which minimizes the undesirable local effects in the connection area between adjacent concrete sections, a section comprising at least two concrete segments, a set comprising two adjacent sections and a joint disposed between the two adjacent sections, a tower comprising at least one set and a mould configured to cast a concrete segment.

DRIVE TRAIN FOR A WIND TURBINE AND SERIES OF DRIVE TRAINS

Resumen de: US20260098521A1

0000 A drive train designed for a requirement profile includes a transmission to transmit and convert torque from a rotor shaft of a rotor. The transmission includes an Input transmission component which is unmounted on a rotor side for introducing the torque into the transmission and which partially protrudes on the rotor side out of a transmission housing and/or a ring gear of the transmission. The drive train further includes a coupling unit which is separate from the rotor shaft, from the rotor bearing arrangement and from the transmission, for permitting a torque-transmitting and rotationally rigid coupling of the rotor shaft to the input transmission component within the coupling unit. The coupling unit includes a bearing to mount the unmounted input transmission component within the coupling unit, with the input transmission component being mounted on the rotor side exclusively only by the bearing within the coupling unit.

METHOD FOR OPERATING A WIND TURBINE, CONTROL SYSTEM AND WIND TURBINE

Resumen de: US20260098516A1

The method is for operating a wind turbine having a rotor with at least two rotor blades, a tower and a pitch setting system. First information representative for bending moments of the at least two rotor blades and the assigned positions of the blades is provided. Second information representative for maximum allowed bending moments of blades when in a critical sector close to the tower is provided. Third information is determined depending on the first and second information representative for whether the bending moment of at least one rotor blade exceeds the maximum allowed bending moment when the blade is in the critical sector. If so, an output signal configured to cause the pitch setting system to individually change the pitch angles of the rotor blades in order to reduce a deflection of the blades towards the tower when they pass the tower is generated.

Wind Turbine

Resumen de: US20260098515A1

The invention provides for a turbine, which includes a duct that may provide an elongate circular internal passage that may have an open upstream end forming an intake and an open downstream end forming an exhaust. The turbine may further include a turbine rotor that may be rotatably mounted in and coaxially with the internal passage and may have at least one rotor blade extending helically along the internal passage so that airflow through the internal passage from the intake to the exhaust may impinge on the rotor blade and may drive the turbine rotor to turn. The duct may further provide at least one intermediate inlet disposed between the intake and the exhaust and part way along the rotor blade.

IMAGING ARRAY FOR BIRD OR BAT DETECTION AND IDENTIFICATION

Resumen de: US20260096551A1

0000 An automated system for mitigating risk from a wind farm. The automated system may include an array of a plurality of image capturing devices independently mounted in a wind farm. The array may include a plurality of low resolution cameras and at least one high resolution camera. The plurality of low resolution cameras may be interconnected and may detect a spherical field surrounding the wind farm. A server is in communication with the array of image capturing devices. The server may automatically analyze images to classify an airborne object captured by the array of image capturing devices in response to receiving the images.

ELECTROLYSIS SYSTEM, AND METHOD FOR OPERATING AN ELECTROLYSIS SYSTEM

Resumen de: AU2024352615A1

The invention relates to an electrolysis system (100) comprising: a wind turbine (1); an electrolysis plant (5) which is connected to the wind turbine (1) in order to supply electrolysis current, wherein an island network is implemented without connection to a power supply network; and a heat supply device (7) which is coupled to the electrolysis plant (5) and can be operated with a working medium (23), and which has an evaporator (13) and a condenser (11), and which is designed in such a way that, during a standstill mode, condensation heat of the working medium (23) can be transferred to the electrolysis plant (5) by means of the condenser (11) so as to maintain the temperature above a minimum temperature. During a standstill mode, the heat supply device (7) evaporates a working medium and condenses the evaporated working medium (23), condensation heat being generated and transferred to the electrolysis plant (5) so as to maintain the temperature above a minimum temperature and prevent freezing of water-carrying components of the electrolysis plant (5).

STABILIZED WIND TURBINES, OUTRIGGER STRUCTURES, AND CABLE ARRANGEMENTS FOR STABILIZING WIND TURBINES

Resumen de: WO2026073536A1

A wind turbine (10) includes a tower (12) that defines a tower axis (24). The wind turbine (10) further includes an energy generating unit (14) disposed on the tower (12) and configured to produce electrical energy from wind (40). The tower (12) has a tower radius and a plurality of cables (20). Each cable (20) is anchored to the earth at one end and to an outrigger structure (18) at the opposing end. The outrigger structure (18) is coupled to the tower (12) and includes a plurality of tension/compression bars (60a, 60b, 62a, 62b, 64a, 64b) extending outwardly from the tower (12). At least one of the tension/compression bars (60a, 60b, 62a, 62b, 64a, 64b) has an outrigger apex (60c, 62c, 64c) at a cable interface radius from the tower axis (24). A cable (20) is coupled to the tension/compression bar (60a, 60b, 62a, 62b, 64a, 64b) proximate the outrigger apex (60c, 62c, 64c). A ratio of the cable interface radius to the tower radius is at least 1.2.

INSTALLATION ASSEMBLY

Resumen de: EP4722527A1

0001 The invention describes an installation assembly (1) for use in installing a secondary nacelle structure (20S) underneath a wind turbine nacelle (20), which installation assembly (1) comprises a winch assembly comprising at least a winch cable (16) and a winch (18); a means (10, 11) of connecting the winch cable (16) to the secondary nacelle structure (20S); a bracket (12) adapted for installation at the mounting height of the secondary nacelle structure (20S); and a means (10, 102, 122, 14) of connecting the bracket (12) to the secondary nacelle structure (20S) after raising the secondary nacelle structure (20S) to its mounting height using the winch assembly (16, 18). The invention further describes a method of mounting a secondary nacelle structure (20S) underneath a wind turbine nacelle (20) using a number of such installation assemblies (1).

Hardware and system for supporting subsea flexible lines such as cables, umbilicals and risers

Resumen de: GB2644373A

A jacket assembly 100 is provided for attachment to a subsea flexible line for facilitating passive control of movement of the flexible line. The jacket assembly comprises a plurality of jackets (FIG 14, 110). Each jacket comprises a fluid displacing buoyancy element extending longitudinally between a first edge and a second edge and has a circumferential interior surface between the first edge and the second edge, the circumferential interior surface configured to bound a first inner cylindrical volume. The plurality of fluid displacing buoyancy elements comprises a first subset of fluid displacing buoyancy elements and a second subset of fluid displacing buoyancy elements. The first subset of the plurality of fluid displacing buoyancy elements has a first buoyancy value the second subset of the plurality of fluid displacing buoyancy elements has a second buoyancy value different from the first buoyancy value.

WIND TURBINE GENERATORS WITH FAULT RIDE THROUGH

Nº publicación: EP4722529A1 08/04/2026

Solicitante:

NORDEX ENERGY SE & CO KG [DE]

Resumen de: EP4722529A1

A method comprising: monitoring active power provided by at least one wind turbine generator, WTG, prior to a fault event that causes at least one fault affecting the at least one WTG in a predetermined time duration, each fault of the at least one fault causing a voltage reduction; determining a voltage reduction parameter indicative of the voltage reduction of at least one fault in the fault event when the fault event occurs; and determining an active power ramp up control strategy for the at least one WTG at least based on the active power and the voltage reduction parameter. Also, a computing device or system, a wind turbine generator or a wind farm, and a computer program.