A radar system for a wind turbine is provided. The radar system comprises a first radar unit (42) and a control unit (41) arranged to receive an output from the radar unit, the control unit comprising a central processing unit. The central processing unit is configured to perform a first function of
A radar system for a wind turbine is provided. The radar system comprises a first radar unit (42) and a control unit (41) arranged to receive an output from the radar unit, the control unit comprising a central processing unit. The central processing unit is configured to perform a first function of determining at least one property of aircraft within a monitoring zone in the vicinity of the wind turbine and controlling a warning device to output a warning signal to detected aircraft based on the determined property; and perform a second function of determining at least one parameter of prevailing weather in the vicinity of the wind turbine. A corresponding method is also provided.
대표청구항▼
1. A radar system for a wind turbine comprising a plurality of wind turbine blades, the radar system comprising: a first radar unit and a control unit arranged to receive an output from the radar unit, wherein the control unit is coupled to a wind turbine pitch control system, the control unit compr
1. A radar system for a wind turbine comprising a plurality of wind turbine blades, the radar system comprising: a first radar unit and a control unit arranged to receive an output from the radar unit, wherein the control unit is coupled to a wind turbine pitch control system, the control unit comprising a central processing unit configured to: perform a first function of: determining at least one property of a detected aircraft within a monitoring zone of the wind turbine based on the output of the first radar unit, controlling a warning device to output a warning signal to the detected aircraft based on the determined property, and controlling the wind turbine pitch control system to control the pitch of the wind turbine blades based on the determined property of the detected aircraft; andperform a second function of determining at least one parameter of prevailing weather in the monitoring zone of the wind turbine based on the output of the first radar unit. 2. A radar system according to claim 1 wherein the second function includes determining a wind speed in at least one direction. 3. A radar system according to claim 1 wherein the second function includes determining a wind direction. 4. A radar system according to claim 1 wherein the first radar unit operates in the L band. 5. A radar system according to claim 1 wherein the control unit and radar unit is formed in a single field unit. 6. A radar system according to claim 1 further comprising one or more warning devices coupled to the control unit, the warning devices being one or more of a light emitting device, an audio emitting device or a radio communication device. 7. A radar system according to claim 1, wherein the control unit is configured to control the pitch of the wind turbine blades based on the determined parameter according to the second function. 8. A radar system according to claim 1 wherein controlling the pitch of the wind turbine blades comprises pitching the blades to a feathered position to shut down the wind turbine. 9. A radar system according to claim 1 wherein the control unit is coupled to a wind turbine yaw control system, the control unit being configured to control a yaw of the wind turbine blades based on at least one of the determined property of the detected aircraft or the determined parameter according to the second function. 10. A radar system according to claim 1, the first function further comprising: determining whether the detected aircraft has a course and height that may result in the detected aircraft colliding with the wind turbine if the course and height are maintained, wherein a first warning signal is provided to the detected aircraft when the detected aircraft enters a first warning zone within the monitoring zone and a second warning signal is provided to the detected aircraft when the detected aircraft enters a second warning zone within the monitoring zone. 11. A radar system according to claim 1, the first function further comprising: determining whether the detected aircraft has a course and height that may result in the detected aircraft colliding with the wind turbine if the course and height are maintained, wherein a warning signal is provided to the detected aircraft when the detected aircraft enters a warning zone within the monitor zone, and wherein no new warning signal will be provided when an aircraft speed is below a predetermined threshold value and the detected aircraft is inside the warning zone for longer than a predetermined time. 12. A radar system according to claim 1, further including a radar antenna having a plurality of antenna elements in communication with the central processing unit of the control unit, wherein the radar antenna is in communication with radar electronics to form part of the radar system for radar detection of aircraft in a radar coverage area, wherein the plurality of antenna elements provide 360 degree radar coverage area within the monitoring zone of the wind turbine. 13. A radar system according to claim 1, wherein the control unit is configured to provide a first warning signal by controlling a light system and to provide a second warning signal by controlling a radio transmitter system. 14. A radar system according to claim 13, wherein the light system and radio transmitter system are configured to be in a sleep mode until activated by the control unit. 15. A radar system according to claim 1, further comprising: a light system connected to and controlled by the central processing unit for providing a light warning signal, the light system being activated by the central processing unit upon detection of the detected aircraft in a first warning zone; anda radio transmitter system connected to and controlled by the central processing unit for providing a radio frequency audible warning signal, the radio transmitter system being activated by the central processing unit upon the detection of the detected aircraft in a second warning zone. 16. A radar system according to claim 1, wherein the system is formed in a first field unit of a plurality of field units having respective coverage areas, wherein the plurality of field units are configured to exchange information about aircraft movements within the respective coverage areas. 17. A method of operating a radar system of a wind turbine comprising a plurality of wind turbine blades, the method comprising: providing a first radar unit and a control unit arranged to receive an output from the radar unit, the control unit comprising a central processing unit, and wherein the control unit is coupled to a wind turbine pitch control system;determining at least one property of a detected aircraft within a monitoring zone of the wind turbine based on the output of the first radar unit;controlling a warning device to output a warning signal to the detected aircraft based on the determined property;controlling the wind turbine pitch control system to control the pitch of the wind turbine blades based on the determined property of the detected aircraft; anddetermining at least one parameter of prevailing weather in the vicinity monitoring zone of the wind turbine using the output of the first radar unit. 18. A method according to claim 17 wherein the parameter of the prevailing weather is at least one of a wind speed in at least one direction or a wind direction. 19. A method according to claim 17 wherein controlling the pitch of the wind turbine blades includes pitching the wind turbine blades to a feathered position to shut down the wind turbine. 20. A method according to claim 17 wherein the control unit is coupled to a wind turbine yaw control system, the method further comprising controlling a yaw of the wind turbine blades based on at least one of the determined property of the detected aircraft or based on the determined parameter of the prevailing weather. 21. A method according to claim 17 further comprising: determining whether the detected aircraft in a coverage area of the monitoring zone has a course and height that may result in the detected aircraft colliding with the wind turbine if the course and height are maintained;calculating first and second warning zones based on the course and height;providing a first warning to the detected aircraft, when the detected aircraft enters the first warning zone;providing a second warning to the detected aircraft, when the detected aircraft enters the second warning zone. 22. A method according to claim 17 further comprising: detecting when the detected aircraft has entered the coverage area;determining information about the detected aircraft including speed, direction, and height of the aircraft;calculating at least a first warning zone based on the information;providing a first warning to the detected aircraft, when the detected aircraft enters the first warning zone; anddesisting from providing warnings to the detected aircraft, when the detected aircraft remains inside the first warning zone for a predetermined period to time.
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이 특허에 인용된 특허 (11)
Bowyer, Robert; Spruce, Christopher; Creaby, Justin, Method and apparatus for protecting wind turbines from fatigue damage.
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