Abstract: A wind turbine which is configured to be disposed in or above a sea floor is provided. The wind turbine includes a tower configured to protrude from a sea level and having a transmitter configured to transmit an electromagnetic wave to be reflected on the sea level and a receiver configured to receive the reflected electromagnetic wave, wherein at least one of the transmitter and the receiver includes a leaky feeder; and a processing unit being in communication with the receiver and configured to analyse the reflected electromagnetic wave such that a wave characteristic of the sea level is determined.

Abstract: A wind turbine has an object position and/or speed detection device including: at least one leaky feeder, at least one electromagnetic transmitter connected to the least one leaky feeder for transmitting a first electromagnetic signal along the at least one leaky feeder towards a target object, whose position is to be detected, at least one electromagnetic receiver connected to the least one leaky feeder for receiving from the at least one leaky feeder a second electromagnetic signal, the second electromagnetic signal reflected from the target object when the first electromagnetic signal hits the target object, a processing unit connected to the electromagnetic transmitter and the electromagnetic receiver and configured to analyze the first electromagnetic signal and the second electromagnetic signal for determining the position and/or speed and/or direction and/or the size of the target object.

Abstract: Provided is a wind turbine, including a hollow tower carrying a nacelle, and at least one power electronics component emitting electromagnetic waves during operation, in particular an inverter located at the bottom of the tower, wherein the tower acts as a wave guide for an electromagnetic wave generated by the power electronics component, wherein the tower comprises at least one absorber element at least reducing the transport of the electromagnetic wave of the power electronics component along the tower.

Abstract: A wind turbine including a plurality of elements including a tower, a nacelle mounted to the tower and a plurality of blades rotatable mounted to the nacelle is provided. At least one element of the tower, the nacelle and the blades includes a coaxial impedance member coaxially arranged about an axis of the element.

Abstract: Provided is an arrangement for releasing fluid from a deformable container adapted to modify a state of an adaptable flow regulating device of a wind turbine rotor blade, the arrangement including: a valve connectable to the container; an exhaust tube connected to the valve, wherein the valve is adjustable to allow fluid communication between a lumen of the container and a lumen of the exhaust tube.

Abstract: Provided is a wind turbine including a generator enclosed in a generator housing, the generator housing including a rotating housing and a stationary housing, whereby the rotating housing is separated from the stationary housing by a first gap; a canopy mounted on a tower and including an electrical connection to a down conductor of the tower, wherein the canopy is separated from the generator housing by a second gap; a lightning current path provided by a plurality of brush assemblies mounted on the stationary housing, wherein a brush assembly includes a brush holder mounted on the stationary housing such that a carbon brush extends across the first gap to make electrical contact with the rotating housing; and an electrical connector extending across the second gap to electrically connect the brush holder to the canopy. Also provided is a method of providing a lightning current path for such a wind turbine.

Abstract: Provided is an apparatus for detecting properties of a rotor blade of a wind turbine the apparatus including: at least one leaky feeder configured to be arranged around the tower, an electromagnetic transmitter connected to the at least one leaky feeder and configured for transmitting a first electromagnetic signal along the at least one leaky feeder, a reflector for diverting and/or focusing the first electromagnetic signal in a predetermined direction, thereby forming a reflected first electromagnetic signal, an electromagnetic receiver connected to the at least one leaky feeder and configured for receiving a second electromagnetic signal from the at least one leaky feeder, the second electromagnetic signal being reflected from the rotor blade, and a processing unit connected to the electromagnetic transmitter and the electromagnetic receiver and configured to determine the properties of the rotor blade by analysing the first electromagnetic signal and the second electromagnetic signal.

Abstract: A system for detecting rotor blade position and/or rotor blade speed during operation of a wind turbine (1) is provided, the wind turbine (1) including a tower (2) and at least one rotor blade (4). The system comprises a leaky feeder arrangement (10) configured to be mounted at the tower (2) of the wind turbine (1), an RF unit (20) coupled to the leaky feeder arrangement (10) and configured to supply a first radar signal (100) to the leaky feeder arrangement (10) and to receive a second radar signal (200) from the leaky feeder arrangement (10), wherein the second radar signal (200) is reflected from the rotor blade (4) when the first radar signal (100) hits the rotor blade (4), a processing unit (30), and an optical link arrangement (40) interconnecting the processing unit (30) and the RF unit (20).

Abstract: Provided is a measurement and monitoring device including: at least one leaky feeder, at least one electromagnetic transmitter connected to the least one leaky feeder for transmitting a first electromagnetic signal towards a target object, at least one electromagnetic receiver connected to the least one leaky feeder for a second electromagnetic signal reflected from the target object when the first electromagnetic signal hits the target object, a hardware circuit including: a processing unit for determining properties of the target object, a signal processing module receiving as input the first electromagnetic signal and/or the second electromagnetic signal for generating a spectral information in the frequency and/or time domain of the first electromagnetic signal and/or the second electromagnetic signal, a storage unit connected to the processing unit.

Abstract: A wind turbine which is configured to be disposed in or above a sea floor is provided. The wind turbine includes a tower configured to protrude from a sea level and having a transmitter configured to transmit an electromagnetic wave to be reflected on the sea level and a receiver configured to receive the reflected electromagnetic wave, wherein at least one of the transmitter and the receiver includes a leaky feeder; and a processing unit being in communication with the receiver and configured to analyse the reflected electromagnetic wave such that a wave characteristic of the sea level is determined.

Abstract: An apparatus including a leaky feeder arrangement including a plurality of parallel leaky feeders, a transmitter coupled to the leaky feeder arrangement and configured to supply individual first radar signals to a group of leaky feeders in the leaky feeder arrangement, the first radar signals being configured to form a first radar signal beam in a predetermined direction relative to the leaky feeder arrangement, a receiver coupled to the leaky feeder arrangement and configured to receive a second radar signal from the leaky feeder arrangement, wherein the second radar signal is reflected from the target object when the first radar signal beam hits the target object, and a processing unit configured to analyse a first signal corresponding to the first radar signals and a second signal corresponding to the second radar signal to determine the properties of the moving object. A wind turbine and a method are also provided.

Abstract: A wind turbine including a tower and a tower deflection detection device is provided. The tower deflection detection device includes a transmitter configured to transmit a first electromagnetic signal; a leaky feeder having a plurality of apertures; a receiver connected to the first leaky feeder and configured to receive a second electromagnetic signal from the first leaky feeder, the second electromagnetic signal is a signal reflected from a reflection portion of the tower, when the first electromagnetic signal impinges the reflection portion of the tower, and entered into the leaky feeder through at least one of the plurality of apertures; and a processing unit connected to the receiver and configured to receive the second electromagnetic signal from the receiver, to analyse the received second electromagnetic signal and to determine a deflection amount of the tower based on the analysed second electromagnetic signal.

Abstract: Provided is a wind turbine including a tower a nacelle, at least one rotatable blade and a measuring apparatus for measuring electromagnetic waves including at least one electromagnetic waves, wherein the electromagnetic waves sensor includes at least one leaky feeder.

Abstract: A wind turbine including a tower, a nacelle and at least one rotatable blade and at least one sensor including energy harvester and a sensing element for measuring a physical variable is provided. The energy harvester includes: a receiving antenna for receiving an electromagnetic signal, an electrical storage for storing electrical energy and electrically connected to the sensing element, a rectifier electrically connected between the antenna and the storage.

Abstract: A wind turbine has an object position and/or speed detection device including: at least one leaky feeder, at least one electromagnetic transmitter connected to the least one leaky feeder for transmitting a first electromagnetic signal along the at least one leaky feeder towards a target object, whose position is to be detected, at least one electromagnetic receiver connected to the least one leaky feeder for receiving from the at least one leaky feeder a second electromagnetic signal, the second electromagnetic signal reflected from the target object when the first electromagnetic signal hits the target object, a processing unit connected to the electromagnetic transmitter and the electromagnetic receiver and configured to analyze the first electromagnetic signal and the second electromagnetic signal for determining the position and/or speed and/or direction and/or the size of the target object.

Abstract: Provided is a wind turbine, including a hollow tower carrying a nacelle, and at least one power electronics component emitting electromagnetic waves during operation, in particular an inverter located at the bottom of the tower, wherein the tower acts as a wave guide for an electromagnetic wave generated by the power electronics component, wherein the tower comprises at least one absorber element at least reducing the transport of the electromagnetic wave of the power electronics component along the tower.

Abstract: Provided is an arrangement for releasing fluid from a deformable container adapted to modify a state of an adaptable flow regulating device of a wind turbine rotor blade, the arrangement including: a valve connectable to the container; an exhaust tube connected to the valve, wherein the valve is adjustable to allow fluid communication between a lumen of the container and a lumen of the exhaust tube.

Abstract: A wind turbine including a plurality of elements including a tower, a nacelle mounted to the tower and a plurality of blades rotatable mounted to the nacelle is provided. At least one element of the tower, the nacelle and the blades includes a coaxial impedance member coaxially arranged about an axis of the element.

Abstract: Provided is a wind turbine including a generator enclosed in a generator housing, the generator housing including a rotating housing and a stationary housing, whereby the rotating housing is separated from the stationary housing by a first gap; a canopy mounted on a tower and including an electrical connection to a down conductor of the tower, wherein the canopy is separated from the generator housing by a second gap; a lightning current path provided by a plurality of brush assemblies mounted on the stationary housing, wherein a brush assembly includes a brush holder mounted on the stationary housing such that a carbon brush extends across the first gap to make electrical contact with the rotating housing; and an electrical connector extending across the second gap to electrically connect the brush holder to the canopy. Also provided is a method of providing a lightning current path for such a wind turbine.

Abstract: A lightning protection system of a wind turbine is provided, including a blade lightning conductor arranged in a rotor blade of the wind turbine to extend into the hub, a stationary conductor to provide a blade grounding path to ground during a lighting strike, a brush arranged to electrically connect the blade lightning conductor and the stationary conductor, and a discharge means arranged to provide a separate discharge path from the blade lightning conductor to ground. Furthermore, a wind turbine, and a method of equipping a wind turbine with a lightning protection system, is also provided.