Energía eólica

MOORING SYSTEM

Resumen de: US20260022686A1

The invention relates to a mooring system comprising a floating platform (1) with a plurality of mooring lines (7) configured to fix or anchor the floating platform (1) to the seabed by means of a bottom section (71) of each mooring line (7), wherein each mooring line (7) also comprises a central section (72) joined to a counterweight (8), wherein tilting arms (2) are joined by means of an articulated joint (3) to a main structure (4) of the floating platform (1), wherein each tilting arm (2) comprises an inner section (21) and an outer section (22), wherein the bottom section (71) and the central section (72) of each mooring line (7) are respectively joined to a terminal end of the outer section (22) and to a terminal end of the inner section (21) of each tilting arm (2).

SEMI-SUBMERSIBLE PLATFORM FOR A WIND TURBINE SUPPORT

Resumen de: US20260022687A1

A semi-submersible platform for supporting wind turbines comprising a mixed structure with two portions: a first concrete caisson-type structure, which serves as hydrodynamic stability and flotation of the platform, consisting of: a hollow, closed base plate, and cylindrical and/or frustoconical-shaped bodies, the bases of which are embedded in the base plate, in areas close to the vertices thereof, which are closed at the top by covers; and, a second structure formed by a transition piece that connects the base plate to the lower end of the tower of the wind turbine at connection points, located on each side of the base plate, distributing the service loads of the wind turbine towards the concrete caisson-type structure.

TORQUE TRANSMISSION SYSTEM FOR A SLIP RING UNIT OF A WIND TURBINE AND METHOD OF ASSEMBLY OF A SLIP RING UNIT

Resumen de: US20260022688A1

The present disclosure is related to a torque transmission system (203) for a slip ring unit (200) The slip ring unit (200) is configured for being mounted along a rotational axis (30) of the wind turbine rotor (18). The slip ring unit (200) comprises an encoder, a rotating part (201) configured for connection to a rotating component of the wind turbine and a static part (202) configured for connection to a static component of the wind turbine. The torque transmission system (203) is configured for connecting the rotating part (201) of the slip ring unit (200) to the rotating component of the wind turbine while having a degree of freedom in an axial and/or in a radial direction. Furthermore, the torque transmission system (203) is configured to prevent relative displacement between the rotating part (201) of the slip ring unit (200) and the rotating component of the wind turbine in a tangential direction. The present disclosure also relates to methods (100) of assembly of a slip ring unit (200) in a wind turbine.

Segmentierte Gleitlagerung und Windkraftanlage

Resumen de: DE102024120562A1

Eine segmentierte Gleitlagerung (1), insbesondere einer Windkraftanlage (10), umfasst ein zumindest abschnittsweise sphärisch gekrümmtes Rotationsteil (2), welches eine Mehrzahl an gehäuseseitigen Gleitlagersegmenten (11) kontaktiert. Zwischen einer ersten Reihe (8) an als Gleitlagersegmenten vorgesehenen Gleitlagerpads (11) und einer hierzu parallelen zweiten Reihe (9) an Gleitlagerpads (11) ist ein Montageraum (13) zur Anbringung mindestens einer weiteren Reihe (14) an Gleitlagerpads (11) gebildet.

WIND POWERED GENERATION SYSTEM

Resumen de: US20260022685A1

A diversely useful wind power generation system for use with an existing structure such as a building. The system has one or more wind capture funnels located at a first location of the existing structure such as at or adjacent its roof. An air pressure powered rotor mechanically coupled to a generator at a second location of the existing structure, such as inside or at ground level. A conduit fluidly connects the one or more wind capture funnels at the first location to the air pressure powered rotor at the second location of the existing structure.

POWER GENERATION SYSTEM ASSEMBLY USING SOLAR AND WIND POWER

Resumen de: US20260025094A1

Provided is a power generation system assembly using solar and wind power including: a first power generation structure where a first power generator using solar power is disposed and which is formed by a combined structure of a first upper panel, a first lower panel, and a first support; a second power generation structure where a second power generator using wind power is disposed and which is formed by a combined structure of a second upper panel, a second lower panel, and a second support such that the second power generator is disposed in or separated from an inner space of the first power generation structure; and a support member provided between the first lower panel and the second lower panel to prevent the second lower panel from sagging due to a weight of the second power generator.

WIND TURBINE FOUNDATION STRUCTURE, AND METHOD FOR PRODUCING A WIND TURBINE FOUNDATION STRUCTURE

Resumen de: US20260022529A1

A wind turbine foundation structure comprising a hollow structural member having a longitudinally extending circumferential wall, the wall being bounded at the top by a top end face and bounded at the bottom by a bottom end face, wherein the wall is formed from a mineral building material and in that a wall thickness of the wall tapers from the top end face towards the bottom end face.

TORQUE TRANSMISSION SYSTEM FOR A SLIP RING UNIT OF A WIND TURBINE AND METHOD OF ASSEMBLY OF A SLIP RING UNIT

Resumen de: EP4682377A1

The present disclosure is related to a torque transmission system (203) for a slip ring unit (200) The slip ring unit (200) is configured for being mounted along a rotational axis (30) of the wind turbine rotor (18). The slip ring unit (200) comprises an encoder, a rotating part (201) configured for connection to a rotating component of the wind turbine and a static part (202) configured for connection to a static component of the wind turbine. The torque transmission system (203) is configured for connecting the rotating part (201) of the slip ring unit (200) to the rotating component of the wind turbine while having a degree of freedom in an axial and/or in a radial direction. Furthermore, the torque transmission system (203) is configured to prevent relative displacement between the rotating part (201) of the slip ring unit (200) and the rotating component of the wind turbine in a tangential direction. The present disclosure also relates to methods (100) of assembly of a slip ring unit (200) in a wind turbine.

TRANSPORT SYSTEM FOR WIND TURBINE COMPONENTS

Resumen de: TW202509347A

The present invention relates to a transport system (1) for a wind turbine component (2), comprising a base platform (3) for providing a support area for supporting the wind turbine component (2), a carrier device (4) for carrying the base platform (3) and a lifting device (5) for lifting the base platform (3), wherein the base platform (3) comprises a plurality of first adapters (6) and the lifting device (5) comprises a plurality of second adapters (7), wherein the first adapters (6) are configured for engaging with the second adapters (7) for holding the base platform (3) at the lifting device (5), wherein the lifting device (5) is arranged at the carrier device (4). The first adapters (6) are arranged at opposite side surfaces (8) of the base platform (3). The invention also relates to a method for handling a wind turbine component (2).

SEGMENTED WIND TURBINE BLADE, METHOD FOR ASSEMBLING A SEGMENTED WIND TURBINE BLADE AND WIND TURBINE

Resumen de: WO2024251471A1

A segmented wind turbine blade (30) is provided. The segmented wind turbine blade comprises at least a first blade segment (10) and a second blade segment (20). The segmented wind turbine blade further comprises a first recess (11) formed on the outer contour of the first blade segment (10), and a first protruding cap (12) protruding from the cross-section of the second blade segment (20). The first protruding cap (12) is flush with the outer contour of the second blade segment (20). The first recess (11) is configured for housing the first protruding cap (12), and the first recess (11) and the first protruding cap (12) are configured to be connected to each other such as to assemble the first segmented blade (10) and the second segmented blade (20) to form the segmented wind turbine blade (30).

SPAR CAP, WIND TURBINE BLADE AS WELL AS METHOD OF MANUFACTURING A SPAR CAP

Resumen de: WO2024235624A1

Spar cap, wind turbine blade as well as method of manufacturing a spar cap The invention relates to a spar cap (1), a wind turbine blade (200) and a method of manufacturing a spar cap (1) for a wind turbine blade (200). The spar cap (1) comprises a plurality of plate-shaped pultruded main bodies (21, 22, 23, 24) which are arranged one above the other in a stacking direction (SD) to form a main body stack (10). Furthermore, the spar cap (1) comprises at a first end face (11) of the main body stack (10) a first main body end (21a) of a first main body (21) of the plurality of main bodies (21, 22, 23, 24) which is arranged offset in the longitudinal direction (LD) of the spar cap (1) relative to a first main body end (22a) of a second main body (22) of the plurality of main bodies (21, 22, 23, 24) on an upper side of the second main body (22) in such a manner that a transition portion is formed by the second main body (22) between the first main body end (21a) of the first main body (21) and the first main body end (22a) of the second main body (22), wherein the second main body (22) is arranged adjacent to the first main body (21). In addition, the spar cap comprises at least a first stiffening body (31, 32), wherein the at least one first stiffening body (31, 32) is arranged at least at the first main body end (21a) of the first main body (21) and at least partially at an upper side (22c) of the second main body (22) in the transition portion formed by the second main body (22

A PITCH CONTROLLED WIND TURBINE

Resumen de: WO2024193779A1

A pitch controlled wind turbine has a tower, a nacelle mounted on the tower, a hub mounted rotatably on the nacelle, and at least three wind turbine blades. Each wind turbine blade extends between a root end connected to the hub via a pitch mechanism, and a tip end. The wind turbine has at least three blade connecting members, each blade connecting member extending from a connection point on one wind turbine blade towards a connection point on a neighbouring wind turbine blade. The connection point on a given wind turbine blade is arranged at a distance from the root end and at a distance from the tip end of the wind turbine blade. Each wind turbine blade has a leading edge, a leading edge extension, and a blade shell defining a suction side and a pressure side around the blade. The leading edge extension extends forward of the leading edge, and the connection point of the respective wind turbine blade is located forward of the leading edge and adjacent the pressure side on the leading edge extension. Each wind turbine blade has a respective fairing extending over at least the leading edge extension, wherein the fairing has a profile which is twisted nose down with respect to a profile of the blade shell adjacent the fairing.

REINFORCEMENT SYSTEM FOR A TOWER OF A WIND TURBINE, TOWER OF A WIND TURBINE AND METHOD OF REINFORCING A TOWER OF A WIND TURBINE

Resumen de: MX2025010935A

The present invention relates to a reinforcement system for a tower (1) of a wind turbine that avoids the appearance or propagation of cracks or openings in the surface of a concrete element of the tower of the wind turbine once the tower is subjected to post-tensioning forces, exerting a radial compression force to the concrete element, wherein the invention also relates to a tower (1) of a wind turbine comprising at least one reinforcement system (2,3) and to a method of reinforcing a tower of a wind turbine.

WIND POWER GENERATION APPARATUS

Resumen de: EP4682376A1

A wind power generation apparatus of the present invention comprises: a frame part including a plurality of upper horizontal frames each being connected by one end and the other end thereof so as to be arranged in a pentagonal structure, a plurality of upper support frames each having one end connected to each vertex of the upper horizontal frames and having the other ends gathered together in the upward direction and connected, side frames each having one end connected to each vertex of the upper horizontal frames and arranged in the downward direction, a plurality of lower horizontal frames each being connected by one end and the other end thereof so as to be arranged in a pentagonal structure, being arranged to be spaced apart below the upper horizontal frames, and having respective vertices to which each of the other ends of the side frames is connected, and a plurality of lower support frames each having one end connected to each vertex of the lower horizontal frames and having the other ends gathered together in the downward direction and connected; a rotary shaft to which the other ends of the upper support frames and the other ends of the upper support frames are connected, and which rotates integrally with the frame part by means of the wind; and a generator for generating electricity by means of the rotation of the rotary shaft.

USE OF HYDROXY SUBSTITUTED URONES AS CURE ACCELERATORS

Resumen de: GB2628339A

An accelerator for the curing of resins comprising a urone compound containing at least 2 orthohydroxyphenyl urea units wherein the urea units are coupled via a divalent or multivalent bridging group consisting of a linear, branched or cyclo aliphatic hydrocarbon which is optionally hetero interrupted. Also disclosed is use of the accelerator as an accelerator for curatives for epoxy resins; a composition comprising the urone with an epoxy, a polyisocyanate and a phenolic resin. Further disclosed is a moulding material comprising the composition in combination with a fibrous reinforcement material; a prepreg comprising the moulding material; a stack of prepregs. Also disclosed is a process to produce an article comprising curing the prepreg; and a process for the production of wind turbine components, and aerospace components.

TRANSPORT SYSTEM FOR A ROTOR BLADE OF A WIND TURBINE

Resumen de: AU2024236576A1

According to an embodiment, the transport system comprises a root support element (10) which is configured to be connected to the root end (31) of a rotor blade (3). Furthermore, the transport system comprises a clamping element (20) which is configured to clamp a section (32) of the rotor blade distant from the root end. The transport system enables the transport of a rotor blade for a wind turbine with the pressure side (33) of the rotor blade up when the root end of the rotor blade is connected to the root support element and when the section of the rotor blade is clamped in the clamping element.

TENDON FOR A TENSION LEG PLATFORM AND TENSION LEG PLATFORM INCLUDING SUCH TENDON

Resumen de: AU2024234263A1

A tendon (224) for a tension leg platform (202), TLP, is provided. The TLP comprises a foundation (206), connectable to a bottom (208) of a body of water, and a buoyant hull (216). The tendon has a length, a proximal end (223), and a distal end (225). The tendon comprises a proximal end fitting at the proximal end and a distal end fitting at the distal end. The tendon is connectable with the proximal end fitting to the hull and with the distal end to the foundation to provide a pulling force on the hull. The length of the tendon is at least 300 meters. The tendon comprises basalt fibres for transferring the pulling force from the proximal end fitting to the distal end fitting.

SPREADER BEAM, CRANE AND VESSEL

Resumen de: WO2024189076A1

The invention relates to a spreader beam (50) for distributing a lifting force of a hoisting crane (20) over a load (31) to be lifted. The spreader beam comprises at the first end (52a), a first lug (53a) for attachment to a first elongate hoisting assembly (54a); at the second end (52b), a second lug (53b) for attachment to a second elongate hoisting assembly (54b); a first mechanical linkage (57a) arranged at the first end of the spreader beam and having a first actuator (59a); and a second mechanical linkage (57b) arranged at the second end of the spreader beam and having a second actuator (59b). The first and second lugs are mounted to the first respectively second linkage. The first and second actuators are configured to act on the first respectively second linkage for moving the first respectively second lug relative to the beam. The first and second adjustment mechanisms are configured to be operative independently from each other.

METHOD FOR CONTROLLING A WIND POWER PLANT, COMPUTER PROGRAM PRODUCT AND WIND POWER PLANT

Resumen de: CN120814135A

A method for controlling a wind power plant (1), the wind power plant (1) comprising one or more generator devices (14) and a grid building component (5) electrically connected to an output terminal (17) of the one or more generator devices (14), the wind power plant (1) comprising an electrical power grid and/or being electrically connected to an electrical power grid (4), and the method comprises: a) determining (S4) a frequency deviation (Delta F) of a current frequency (FC) of the respective electrical power grid (4) from a nominal frequency (FN), b) determining (S6) a droop characteristic (27, 28) of the grid building component (5) based on a current power output (PGC) of the one or more generator devices (14), and c) controlling (S7) the power output (PB) of the grid building component (5) based on the determined frequency deviation (Delta F) and the determined droop characteristic (27, 28). Therefore, the frequency regulation of the power grid can be improved.

PORTABLE FAN

Resumen de: EP4682388A2

A portable fan includes: a housing, having an air inlet portion and an air outlet portion; a mix-flow fan, arranged inside the housing and configured to rotate to generate an airflow; a booster, arranged inside the housing and surrounding a periphery of the mix-flow fan. The mix-flow fan has an air inlet side disposed near the air inlet portion of the housing; the air inlet side has a first air inlet area; the booster has an air inlet opening disposed near the air inlet portion of the housing, the air inlet opening has a second air inlet area, the air is capable of being intaken to the mix-flow fan by passing through the air inlet opening of the booster and the air inlet side of the mix-flow fan sequentially. The first air inlet area is slightly smaller than the second air inlet area.

BEND STIFFENER ELEMENT, SUPPORT BODY AND STRUCTURE

Resumen de: WO2024194615A1

A method and apparatus for locating an elongate flexible member at a desired location with respect to an aperture in a wall of a structure are disclosed. The apparatus comprises: a support body comprising a through passageway that extends through the support body from a first end of the support body to a further end of the support body; and a bend stiffener element securable at the first end; wherein a longitudinal axis of the bend stiffener element, for at least a portion of a whole length of the bend stiffener element, is curved.

一种风电机变桨轴承组件

Resumen de: CN223814132U

本实用新型涉及风机变桨技术领域，尤其为一种风电机变桨轴承组件，包括外侧环和内侧环，所述外侧环一侧设置有内侧环，所述外侧环和内侧环之间滚动连接有滚珠，所述滚珠的两侧均设置有缓冲组件，两侧的所述缓冲组件分别与外侧环和内侧环呈固定连接；所述滚珠的两侧均设置有弧形部，所述弧形部的外侧分别与外侧环和内侧环呈固定连接；本实用新型将传统的设置在外侧环和内侧环内部的左右分布的滚珠腔改变为上下分布的滚珠腔，此时在外侧环和内侧环发生来回颤动时，能有效减轻外侧环和内侧环与滚珠的作用力，有效保证轴承的正常使用寿命。

一种风电场的辅助决策方法、装置、电子设备及介质

Resumen de: CN121365731A

本发明公开了一种风电场的辅助决策方法、装置、电子设备及介质，涉及人工智能与风电运维技术领域，本方案通过实时获取风电场的多源异构信息，并将其转换为结构化的Markdown格式文档，以从风电领域知识库与案例库中提取对应的知识片段，最后将知识片段拼接为提示模板并输入预训练大语言模型中，即可得到预训练大语言模型输出的辅助决策内容，相比于传统依赖人工的经验，更加准确，且依靠风电领域知识库与案例库和预训练大语言模型，最终输出的辅助决策内容更加贴合风电场的实际问题，错误率更低，效率更高。

野外作业电源车的发电储能集成装置

Resumen de: CN223816010U

本实用新型涉及一种野外作业电源车的发电储能集成装置，包括方舱、发电模组、储能模组和集成框架，方舱固设于电源车的载车上；发电模组包括柴油发电模组和风电模组，储能模组、柴油发电模组和风电模组设置于集成框架内，集成框架设置于方舱内的底板上，柴油发电模组和风电模组分别与储能模组连接；风电模组包括底座、伸缩杆和风扇发电部，底座固设于方舱内，伸缩杆的两端分别连接底座和风扇发电部，伸缩杆沿方舱的高度方向设置，方舱的顶部设置有容许伸缩杆和风扇发电部进出的开口。本实用新型中的储能模组、柴油发电模组和风电模组集成设置于集成框架内，集成框架固定在方舱内，因集成程度高，因而利于安装和测试，节约了人力和时间。

一种风力发电机塔筒底座锚板孔定位装置

Nº publicación: CN223814130U 20/01/2026

Solicitante:

青岛诚兴新能源环保科技有限公司

Resumen de: CN223814130U

本实用新型提供一种风力发电机塔筒底座锚板孔定位装置，包括：上壳、以及活动槽，所述上壳内侧设有用于对内定位座进行固定限位的上固定环，所述上固定环内侧设有用于对风力发电机塔筒底座进行定位的内定位座，所述内定位座上端设有若干组用于与活动座进行活动限位嵌合的安装嵌座，所述安装嵌座上端设有用于调节定位位置的活动座，与现有技术相比，本实用新型具有如下的有益效果：通过使用夹持柱来对风力发电机塔筒底座进行多面夹持，通过使用内嵌座来对风力发电机塔筒底座底部的内径进行夹持调节，通过使用安装嵌座以及活动座来便于工作人员确定夹持角度、夹持件数量以及多面稳定效果，通过使用若干组活动栓来对夹持柱位置进行限定。