A condition monitoring device for a wind turbine power generating apparatus provided with an auxiliary motor power supply system including a power-supply-side line connected to a power supply and a plurality of auxiliary-motor-side lines diverging from the power-supply-side line and connected to a plurality of auxiliary motors, respectively, comprises: a current measurement device for measuring a current flowing through the power-supply-side line; and a control device for controlling the plurality of auxiliary motors. The control device is configured to, when a generator of the wind turbine power generating apparatus is in a standby state where power generation is stopped at a low wind speed, execute a single sequential operation mode in which each of the plurality of auxiliary motors is singly and sequentially operated. The current measurement device is configured to measure a current flowing through the power-supply-side line during execution of the single sequential operation mode by the control device.

A wind turbine nacelle configured for mounting on a wind turbine tower and for supporting a rotor-supporting assembly, the nacelle comprising a main unit, and at least one auxiliary unit. To increase flexibility and improve assembly and maintenance procedures of the wind turbine, the auxiliary unit comprises at least two sub units each accommodating at least one wind turbine component, e.g. a converter or a transformer. The sub units are attached individually to the main unit or they are joined and attached as one component to the main unit.

A wind turbine nacelle configured for mounting on a wind turbine tower and for supporting a rotor-supporting assembly, the nacelle comprising a main unit, and at least one auxiliary unit. The auxiliary unit accommodates a at least one component, e.g. a converter or transformer. To provide efficient transportation, lower costs and easier assembly, the operative component is suspended directly on the main unit.

An offshore wind turbine with anti-accumulation of aquatic organisms, comprising: a base with an interior space, the base being made of conductive material; a tower incorporated above the base; a nacelle, connected to the tower; a plurality of blades, each interconnected with the nacelle; and a power supply system electrically connected to the base and disposed within the interior space, the power supply system being used to provide electrical energy to the base to energize the surface of the base to form an electric field.

A method of controlling a wind turbine having a rotor, in particular in all rotational speed regimes is provided, the method including: determining a rotor noise contribution, in particular based on an actual rotor operational state; determining auxiliary noise contributions from plural auxiliary components based on respective actual operational states; determining a total noise based on the auxiliary noise contributions and the rotor noise contribution; comparing the total noise with a noise threshold; adapting a limit value of at least one operational parameter and/or a respective operational state of at least one of the auxiliary components depending on the comparison result.

A wind turbine nacelle configured for mounting on a wind turbine tower and for supporting a rotor-supporting assembly, the nacelle comprising a main unit, and at least two auxiliary units. To increase flexibility and improve assembly and maintenance procedures of the wind turbine, the auxiliary unit comprises at least two auxiliary units each accommodating at least one wind turbine component, e.g. a converter or a transformer. The auxiliary units are attached individually to the same wall of the main unit, e.g. to a side wall or a rear wall.

A wind turbine plant is provided including: at least one wind turbine, one or more turbine auxiliaries, a transmission apparatus for transmitting electrical power generated by the at least one wind turbine to a power system, the transmission apparatus including an auxiliary circuit for transmitting power one or more turbine auxiliaries, the auxiliary circuit being connected to the at least one wind turbine, the power system and one or more turbine auxiliaries, the turbine auxiliaries being electrically fed by at least one wind turbine or the power system through the auxiliary circuit. The auxiliary circuit includes at least an energy storage, the turbine auxiliaries being electrically connected to the energy storage, and a controller.

A wind turbine includes a generator for converting wind energy into electrical energy, a hydrogen production system for producing hydrogen by means of the electrical energy, a first auxiliary group of electrical consumers, a second auxiliary group of electrical consumers, and an auxiliary power network for powering the first auxiliary group and the second auxiliary group, wherein only the first auxiliary group is electrically disconnected from the auxiliary power network by means of one or a plurality of switch disconnectors to reduce the energy consumption of the auxiliary power network. Due to the one or the plurality of switch disconnectors, it is possible to disconnect the first auxiliary group from power. This helps to save energy in the case that the first auxiliary group is not needed for the operation of the wind turbine.

Provided is a wind turbine system for a wind turbine with a controller and an energy supply unit with an energy storage system and a network connection. The unit recognizes a normal operating mode in which the turbine is connected with the network, and a separated state in which the turbine is separated. The controller is connected with a wind sensor for acquiring at least one parameter, and comprises an azimuth controller for setting an azimuth angle of the turbine as a function of the parameter. The unit further has a monitoring device, which is supplied with energy from the energy storage system in the separated state, and connected with the wind sensor or an additional wind sensor for acquiring parameters in the separated state, and the unit in the separated state deenergizes the controller or supplies with energy from the energy storage system as a function of the parameter.

A method is for estimating health status of a pitch energy storage unit of a wind turbine. The method includes: providing an equivalent circuit model, ECM, of the storage unit, the ECM including an equivalent series resistor and an electrical energy storage element connected between two terminals; repeatedly sampling a voltage and a corresponding current at the two terminals; determining a voltage change and a current change for a plurality of voltage samples and corresponding current samples; performing an optimization procedure based at least on the ECM, the plurality of the voltage samples, the determined voltage changes, and the determined current changes to obtain an updated resistance of the equivalent series resistor and an updated model parameter of the storage element; and estimating a status of health parameter for the storage unit by comparing at least one of the updated resistance and the updated parameter with a threshold value.