KR20140134382A - Offshore wind power electricity generating system management system and method - Google Patents

Abstract

The present invention relates to a device and a method for managing an offshore wind power generating system when a commercial network is blocked using a wireless communication. The device comprises: at least one or more wind power generators (10) which are installed in the sea; a controller (20) to control operations of the wind power generators (10); a server (30) to remotely receive status information on the wind power generators (10); a relay (40) to acquire the status information of the wind power generators (10) to be stored for a certain duration, and then to transmit the status information of the wind power generators (10) to the server (30); and a mobile terminal (50) to communicate with the relay (40) using a near field communication. If the mobile terminal (50) approaches the wind power generators (10), the relay (40) detects the mobile terminal (50), identifies ID information of the mobile terminal (50), and transmits the status information of the wind power generators (10) to the mobile terminal (50) if it is determined that the mobile terminal (50) has a right title. And, the mobile terminal (50) wirelessly transmits a wind power generator control signal to the controller.

Description

Technical Field [0001] The present invention relates to an offshore wind power generation system and method for managing an offshore wind power generation system,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to an instantaneous inspection using wireless communication and a method and an apparatus for managing an offshore wind power generation system in an emergency.

The SCADA collected from the generator controller is basically installed and the CMS is an additional device. However, as the economic loss due to the generator failure has increased, a device (ie, CMS) , It is a trend to be installed basically now.

Offshore wind farms are inaccessible, unlike terrestrial (usually located more than 10 km from the coast), so all data acquisition, analysis, and control (apart from the primary controller in the wind generator) can only be done remotely.

Describing the problem in the offshore wind farm, all information is transmitted / received remotely (ie, network), so that monitoring and control are not possible if the network is interrupted. In addition, as in all plants, the work such as instant inspection is performed, and the situation where the worker can not climb the generator frequently due to maritime conditions can not occur frequently, and it may be difficult to approach it at all (due to the influence of waves, If difficult). In Europe, the helicopter landing area is provided in the generator itself, but the cost is too high.

Therefore, it is necessary to have a device capable of checking and controlling the main condition of the generator at a possible close distance (on the ship) even if no people enter the inside of the wind turbine at sea. In particular, The role of the emergency system is important. SUMMARY OF THE INVENTION It is an object of the present invention to provide a method and an apparatus for managing an instantaneous check and an emergency offshore wind power generation system using wireless communication capable of performing such functions.

An apparatus for managing an offshore wind turbine system for instantaneous monitoring and emergency using wireless communication according to the present invention is a method for managing a wind turbine system,

At least one wind turbine 10 installed on the sea,

A controller (20) for controlling the operation of the wind power generator (10)

A server (30) remotely receiving status information on the wind turbine generator (10);

A repeater 40 for acquiring status information of the wind turbine generator 10, storing the information for a predetermined period of time, and transmitting the stored information to the server 30,

A portable terminal device 50 capable of short-range wireless communication with the relay device 40,

, ≪ / RTI >

When the portable terminal device 50 approaches the wind turbine generator 10, the repeater 40 senses the portable terminal device 50 and confirms the ID information of the portable terminal device 50, The portable terminal device 50 transmits the state information of the wind power generator 10 to the portable terminal device 50 and the portable terminal device 50 wirelessly transmits the wind power generator control signal to the controller 20. [

According to the present invention, there is provided an apparatus capable of checking and controlling the main condition of the generator at a possible proximity distance (on board the ship) even if no people enter the interior of the wind turbine at sea. Particularly, there is a method of monitoring and emergency monitoring of offshore wind power generation system using wireless communication that can act as an emergency system to control a wind power generator in case of an emergency such as network interruption / RTI >

FIG. 1 is a block diagram of an entire system for managing an instantaneous check and emergency maritime wind power generation system using wireless communication according to an embodiment of the present invention. FIG.
FIG. 2 is a flow chart of a method for managing an instantaneous monitoring and emergency offshore wind power generation system using wireless communication according to an embodiment of the present invention.

In the present invention, the wind turbine generator controller refers to a wind turbine generator controller for generating electric power. In the present invention, the SCADA refers to a supervisory control and data acquisition system that handles basic information such as the amount of power generated by the controller and the state of the generator. It is also called a centralized remote monitoring control system or a monitoring control data collection system.

In the present invention, the CMS is a condition monitoring system, in which a separate sensor (accelerometer, thermometer) and the like are attached to major mechanical parts separately from the SCADA to acquire / analyze failure and abnormal signals mainly through vibration signals It is the system that diagnoses the health condition of the generator at present.

In the present invention, CMS F / E refers to a CMS front-end, which is installed inside a generator to acquire a measurement signal and transmit data to a server after basic signal processing. In the present invention, a server (SERVER) is a computer server for processing various data collected from SCADA and CMS and converting the data into a database and providing the data to the operator.

In the present invention, an operator is an operator of a generator (or power generation complex) who monitors data on a server in real time or after processing and manages the operation of the generator as a central (or integrated) It is the person who is located.

The main driving principle will be described below. The repeater 40 stores important information for a certain period while acting as a repeater of the CMS and SCADA signals at normal times. When the checker (or a predetermined mobile terminal device, for example, smart pad) approaches a certain distance, Transmits the stored data through the authentication procedure to the terminal, receives the main control signal performed by the terminal, and transmits the main control signal to the generator controller. Communication with the terminal must be performed wirelessly. The wireless communication method can be applied to commercial communication methods such as RF, WIFI, and WCDMA currently used.

Hereinafter, a method and an apparatus for managing a offshore wind power system in a commercial network using wireless communication according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is a block diagram of an entire system for managing an on-line wind turbine in an emergency monitoring and emergency situation using wireless communication according to an embodiment of the present invention. And a method for managing the offshore wind power system.

As shown in FIG. 1, an offshore wind power system management apparatus for blocking a commercial network using wireless communication according to an embodiment of the present invention includes a wind power generator 10 A controller 20 for controlling operation of the wind turbine generator 10; a server 30 for remotely receiving status information about the wind turbine generator 10; A relay device 40 that acquires status information of the wind turbine generator 10 and stores the received status information for a predetermined period of time and transmits the status information to the server 30 and a portable terminal device 50 capable of short- do.

As shown in FIG. 1, in the offshore wind power generation system management apparatus for blocking commercial network using wireless communication according to an embodiment of the present invention, when the portable terminal apparatus 50 approaches the wind power generator 10, The relay device 40 senses the portable terminal device 50 and confirms the ID information of the portable terminal device 50. If the relay device 40 determines that there is a legitimate authority, the status information of the wind power generator 10 is transmitted to the portable terminal device 50, And the portable terminal device 50 wirelessly transmits the wind power generator control signal to the controller 20. [

As shown in FIGS. 1 and 2, a method for managing offshore wind power generation system in commercial network shutdown using wireless communication according to an embodiment of the present invention includes a device providing step (S10), an ID checking step (S20) And an information communication step (S30).

As shown in FIGS. 1 and 2, in operation S10 of providing a method for managing a maritime wind power generation system when a commercial network is cut off using wireless communication according to an embodiment of the present invention, the operation of the wind power generator 10 A server 30 for remotely receiving status information on the wind turbine generator 10 and a controller 30 for acquiring status information of the wind turbine generator 10 and storing the status information for a predetermined time, The present invention also provides an offshore wind power generation system management apparatus for blocking a commercial network using wireless communication including a repeater 40 for transmitting the signal to the repeater 40 and a portable terminal device 50 capable of short distance wireless communication with the repeater 40.

1 and 2, in the ID checking step (S20) of the method for managing offshore wind power generation system when commercial network is cut off using wireless communication according to an embodiment of the present invention, When the portable terminal device 50 approaches the wind turbine generator 10, the relay device 40 and the portable terminal device 50 confirm the ID information of the portable terminal device 50.

1 and 2, in a state information communication step (S30) of a method for managing offshore wind power generation system when a commercial network using wireless communication is interrupted according to an embodiment of the present invention, The relay device 40 transmits the status information of the wind power generator 10 to the portable terminal device 50 when it is determined that the ID has a valid authority.

1 and 2, in a control signal communication step (S40) of a method for managing offshore wind power generation system when a commercial network using wireless communication is interrupted according to an embodiment of the present invention, the portable terminal device 50 And wirelessly transmits the wind turbine generator control signal to the controller (20).

In one embodiment of the present invention, the status information is CMS information including the wind turbine rotor portion, gear box, generator temperature or vibration signal, or SCADA information including at least one of power generation amount, rotor angular velocity, .

In one embodiment of the present invention, the communication radius between the relay device 40 and the portable terminal device 50 is preferably 10 to 1,000 M. The repeater 40 and the portable terminal device 50 may use at least one of a radio communication method, such as an RF method, a WIFI method, and a WCDMA method. If the distance is too short, it is difficult to communicate due to the height of the tower. It is preferable that the distance is less than 1,000M considering the size and accessibility of the wind farm and the distance of short distance communication.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but on the contrary, ≪ RTI ID = 0.0 > and / or < / RTI >

It is to be understood that the appended claims are intended to supplement the understanding of the invention and should not be construed as limiting the scope of the appended claims.

10: Wind power generator 20: Controller
30: Server
40: repeater
50: Portable terminal device

Claims (6)

In an offshore wind power system management method,
At least one wind turbine 10 installed on the sea,
A controller (20) for controlling the operation of the wind power generator (10)
A server (30) for remotely receiving status information about the wind turbine generator (10)
A repeater 40 for acquiring status information of the wind turbine generator 10, storing the information for a predetermined period of time, and transmitting the stored information to the server 30,
A portable terminal device 50 capable of short-range wireless communication with the relay device 40,
, ≪ / RTI >
When the portable terminal device 50 approaches the wind turbine generator 10, the repeater 40 senses the portable terminal device 50 and confirms the ID information of the portable terminal device 50, And transmits the status information of the wind turbine generator (10) to the portable terminal device (50), and the portable terminal device (50) transmits the wind turbine generator control signal to the controller (20) And the offshore wind power generation system management system in case of emergency. A controller (20) for controlling the operation of the wind turbine generator (10), a server (30) for remotely receiving status information about the wind turbine generator (10) And a portable terminal device (50) capable of short distance wireless communication with the repeater (40), and a portable terminal device (50) for wireless communication with the repeater (40) (S10) of providing a management apparatus;

When the portable terminal device 50 approaches the wind power generator 10, an ID checking step S20 for checking the ID information of the portable terminal device 50 and the relay device 40, ;

A status information communication step (S30) in which the relay device (40) transmits status information of the wind turbine generator (10) to the portable terminal device (50) when it is determined that the ID of the portable terminal device (50) has a legitimate authority; And a control unit for controlling the wind turbine and the wind turbine. 3. The method of claim 2,
And a control signal communication step (S40) of wirelessly transmitting the wind power generator control signal to the controller (20) by the portable terminal device (50). A method of managing a wind power system. The method of claim 3,
Wherein the status information is CMS information including a temperature or vibration signal of the wind turbine generator, a gear box, and a generator, or SCADA information including at least one of power generation amount, rotor angular speed, and blade pitch angle information. And the management method of offshore wind power generation system in case of emergency. 3. The method of claim 2,
Wherein the communication radius of the relay device (40) and the portable terminal device (50) is in the range of 10 to 1,000 M. 3. The method of claim 2,
The relay device (40) and the portable terminal device (50)
Wherein at least one radio communication method among RF, WIFI, and WCDMA is used.

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