Turbulence sensor and blade condition sensor system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-019/10
G01B-003/44
출원번호
US-0139411
(2009-12-14)
등록번호
US-8712703
(2014-04-29)
우선권정보
GB-0822930.4 (2008-12-16)
국제출원번호
PCT/EP2009/008934
(2009-12-14)
§371/§102 date
20110613
(20110613)
국제공개번호
WO2010/069534
(2010-06-24)
발명자
/ 주소
Olesen, Ib
출원인 / 주소
Vestas Wind Systems A/S
대리인 / 주소
Patterson & Sheridan, LLP
인용정보
피인용 횟수 :
3인용 특허 :
35
초록▼
The invention comprises a turbulence sensor and sensor system for determining the condition of a wind turbine blade. A turbulence sensor comprises a sensor membrane provided in the surface of a wind turbine blade. A light source and light detector provided in a sensor cavity in the blade illuminate
The invention comprises a turbulence sensor and sensor system for determining the condition of a wind turbine blade. A turbulence sensor comprises a sensor membrane provided in the surface of a wind turbine blade. A light source and light detector provided in a sensor cavity in the blade illuminate the sensor membrane and detect the light reflected back. The reflected light is mixed with non-reflected light to give an interference pattern indicative of the quality of the airflow, whether it is laminar or turbulent. The turbulence sensor can be used in a sensor system for detecting the accumulation of unwanted matter, such as dirt or ice, on the blade.
대표청구항▼
1. A turbulence sensor for a wind turbine component having a cavity, the turbulence sensor comprising: a sensor membrane comprising a first surface and an opposing second surface, the first surface being disposed in an external environment and the second surface being disposed in the cavity, the sen
1. A turbulence sensor for a wind turbine component having a cavity, the turbulence sensor comprising: a sensor membrane comprising a first surface and an opposing second surface, the first surface being disposed in an external environment and the second surface being disposed in the cavity, the sensor membrane configured to detect turbulence of airflow moving across the first surface, wherein the sensor membrane is integral to a surface of the wind turbine component, and the sensor membrane covers at least part of the cavity;a light source located in the cavity and configured to illuminate the second surface of the sensor membrane with a light; anda light detector located in the cavity and configured to detect the light reflected from the second surface of the sensor membrane, and the light detector is configured to provide an output to a processor, wherein the processor is configured to determine from the output of the light detector a turbulence value for the airflow. 2. The turbulence sensor of claim 1, wherein the light source and light detector in the cavity are optical fibres connected to an opto-electrical light source. 3. The turbulence sensor of claim 1, further comprising an adder for adding the output associated with the light reflected from the surface of the sensor membrane to a reference light signal to give an interference pattern that indicates displacement of the sensor membrane. 4. The turbulence sensor of claim 3, wherein the adder comprises a partial mirror located in the sensor cavity, the partial mirror configured to reflect a portion of the light from the light source to the light detector and to provide the reference light signal. 5. The turbulence sensor of claim 1, wherein the cavity is sealed. 6. The turbulence sensor of claim 5, wherein the cavity is filled with a gas other than air. 7. The turbulence sensor of claim 1, wherein the sensor membrane is formed of a different material compared to a material from which the surface of the wind turbine component is formed. 8. A wind turbine comprising a turbulence sensor according to claim 1. 9. The turbulence sensor of claim 1, wherein the cavity comprises an opening formed by the surface of the wind turbine component, the opening forming a passageway between the cavity and the external environment, and wherein the sensor membrane is disposed to close the passageway. 10. The turbulence sensor of claim 9, wherein the first surface of the sensor membrane and the surface of the wind turbine blade are arranged to form a smoothly continuous blade surface. 11. A turbulence sensor for a wind turbine component having a cavity, the turbulence sensor comprising: a sensor membrane for detecting turbulence of airflow past a surface of the wind turbine component, wherein the sensor membrane is integral to the surface of the wind turbine component, and the sensor membrane covers at least part of the cavity;a light source located in the cavity and configured to illuminate a surface of the sensor membrane inside the cavity with light;a light detector located in the cavity and configured to detect the light reflected from the surface of the sensor membrane, and the light detector configured to provide an output to a processor, wherein the processor is configured to determine from the output of the light detector a turbulence value for the airflow across the sensor membrane;an adder configured to add the reflected portion of the light from the surface of the sensor membrane to a reference light signal to give an interference pattern that indicates displacement of the sensor membrane; andthe processor configured to analyze variations in the interference pattern over a predetermined period of time to determine whether the airflow is turbulent. 12. A sensor system for detecting a surface condition of a wind turbine blade having one or more cavities, the sensor system comprising: one or more turbulence sensors for giving an output indicating turbulence of airflow of an external environment moving across a surface of the wind turbine blade, each of the one or more turbulence sensors associated with a respective cavity of the one or more cavities and comprising: a sensor membrane comprising a first surface and an opposing second surface, the first surface being disposed in an external environment and the second surface being disposed in the respective cavity, the sensor membrane configured to detect turbulence of airflow moving across the first surface, wherein the sensor membrane is integral to the surface of the wind turbine blade, and the sensor membrane covers at least part of the respective cavity,a light source located in the respective cavity and configured to illuminate the second surface of the sensor membrane with a light, anda light detector located in the respective cavity and configured to detect the light reflected from the second surface of the sensor membrane, and the light detector is configured to provide an output to a processor;a memory; andthe processor,wherein the processor determines a condition of the surface of the wind turbine blade from the output received from the one or more turbulence sensors. 13. The sensor system of claim 12, wherein the memory records the output received from the one or more turbulence sensors over a period of time, and the processor determines the condition of the surface of the wind turbine blade based on a change in the output compared with output previously received. 14. The sensor system of claim 12, comprising a plurality of the one or more turbulence sensors on windward and leeward sides of the wind turbine blade. 15. The sensor system of claim 12, wherein the processor compares the output from the one or more turbulence sensors of the wind turbine blade, with output from one or more turbulence sensors of another wind turbine blade. 16. The sensor system of claim 12, wherein the sensor system detects an accumulation of matter on the surface of the wind turbine blade. 17. The sensor system of claim 16, wherein the processor determines the condition of the surface of the wind turbine blade, in which matter has accumulated on the surface of the wind turbine blade, when a predetermined number of the one or more turbulence sensors indicate turbulence. 18. A wind turbine comprising the sensor system of claim 12. 19. The turbulence sensor of claim 12, wherein the wind turbine component is a wind turbine blade.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (35)
Friebele Edward J. (Cheverley MD) Kersey Alan D. (Fairfax Station VA), Active fiber cavity strain sensor with temperature independence.
Andersen, Stephen M.; Laubsch, Kenneth L.; Kopf, Steven R.; Vinton, II, Brock J.; Jamieson, Peter, Advanced aerodynamic control system for a high output wind turbine.
Herr, Stefan; Leclair, Ryan Michael; Winslow, Christopher; Simpson, Alexander; Haertel, Carlos; Maeder, Thierry, Method and apparatus for measuring air flow condition at a wind turbine blade.
Odoni Walter (Schaan LIX) Dndliker Ren (Neuchtel CHX) Schad Hanspeter (Grabs CHX) Schweizer Edwin (Sevelen CHX), Method and device for the measurement of force by a fiber optics system by evaluating phase shift of light waves.
Carr Robert J. G. (Wiltshire GB2) Clarke David J. (Wiltshire GB2) Al-Shukri Sumaia (Wiltshire GB2), Optical determination of velocity using crossed interference fringe patterns.
Ferdinand Pierre,FRX ; Magne Sylvain,FRX ; Rougeault Stephane,FRX, Rosette-type optical microsystem of strain gauges having dielectric guides for measuring a longitudinal strain in a plan.
Olsen, Kaj; M.o slashed.ller Larsen, Flemming; Grabau, Peter; Ellermann Jespersen, John, Wind turbine blade with a system for deicing and lightning protection.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.