Distributed strain and temperature sensing system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G02B-006/00
G01L-001/24
G01V-008/16
G01K-011/32
E21B-047/00
G01H-009/00
출원번호
US-0847204
(2013-03-19)
등록번호
US-9651435
(2017-05-16)
발명자
/ 주소
Jaaskelainen, Mikko
Mitchell, Ian B.
출원인 / 주소
Halliburton Energy Services, Inc.
대리인 / 주소
Chamberlain Hrdlicka
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
A downhole optical sensing system can include an optical fiber positioned in the well, the optical fiber including multiple cores, and one of the cores having a Brillouin scattering coefficient which is different from another one of the cores. A method of sensing strain and temperature as distribute
A downhole optical sensing system can include an optical fiber positioned in the well, the optical fiber including multiple cores, and one of the cores having a Brillouin scattering coefficient which is different from another one of the cores. A method of sensing strain and temperature as distributed along an optical fiber can include measuring Brillouin scattering in a core of the optical fiber disposed in a well, and measuring Brillouin scattering in another core of the optical fiber disposed in the well, the optical fiber cores being exposed to a same strain and temperature distribution in the well.
대표청구항▼
1. A downhole optical sensing system, comprising: an optical fiber positioned in a subterranean well, the optical fiber including multiple cores, each core having a Brillouin strain coefficient and a Brillouin temperature coefficient, which coefficients are properties of the core;at least a first on
1. A downhole optical sensing system, comprising: an optical fiber positioned in a subterranean well, the optical fiber including multiple cores, each core having a Brillouin strain coefficient and a Brillouin temperature coefficient, which coefficients are properties of the core;at least a first one of the cores having a Brillouin scattering coefficient that is different from at least a second one of the cores, wherein the Brillouin scattering coefficient is one of a Brillouin strain coefficient different from that of the at least a second one of the cores or a Brillouin temperature coefficient different from that of the at least a second one of the cores; andan optical sensor disposed in the subterranean well and coupled to one or more of the first one of the cores or the second one of the cores at an end of the optical fiber in the subterranean well distal from earth's surface, the optical sensor operable to sense one or more parameters of the subterranean well, the optical sensor being an optical sensor different from an optical fiber structure. 2. The downhole optical sensing system of claim 1, wherein both of the first and second cores are single mode cores. 3. The downhole optical sensing system of claim 1, further comprising at least one optical interrogator optically coupled to the optical fiber, wherein the optical interrogator detects Brillouin scattering in each of the first and second cores. 4. The downhole optical sensing system of claim 1, wherein scattering of light in the first and second cores is measured as an indication of strain and temperature along the optical fiber. 5. The downhole optical sensing system of claim 1, wherein the multiple cores comprise a combination of single mode and multiple mode cores. 6. The downhole optical sensing system of claim 1, wherein the Brillouin scattering coefficient is a Brillouin strain coefficient. 7. The downhole optical sensing system of claim 1, wherein the Brillouin scattering coefficient is a Brillouin temperature coefficient. 8. The downhole optical sensing system of claim 1, wherein the first core is surrounded by the second core. 9. The downhole optical sensing system of claim 1, wherein the multiple cores are exposed to a same strain and temperature distribution in the well. 10. A method of sensing strain and temperature as distributed along an optical fiber, the method comprising: measuring Brillouin scattering in a first core of the optical fiber disposed in a well using a first interrogator, the first core having a first Brillouin strain coefficient and a first Brillouin temperature coefficient, which coefficients are properties of the first core;measuring Brillouin scattering in a second core of the optical fiber disposed in the well using the first interrogator or using a second interrogator, the second core having a second Brillouin strain coefficient and a second Brillouin temperature coefficient, which coefficients are properties of the second core, the first core having a different Brillouin strain coefficient as compared to the second core or a different Brillouin temperature coefficient as compared to the second core, the first and second cores being exposed to a same strain and temperature distribution in the well; andsensing one or more parameters of the well using an optical sensor disposed in the well and coupled to one or more of the first core or the second core at an end of the optical fiber in the well distal from earth's surface, the optical sensor being an optical sensor different from an optical fiber structure. 11. The method of claim 10, wherein using a first interrogator includes interrogating using a tunable laser. 12. The method of claim 11, wherein the Brillouin scattering coefficient is a Brillouin strain coefficient. 13. The method of claim 11, wherein the Brillouin scattering coefficient is a Brillouin temperature coefficient. 14. The method of claim 10, wherein the first core is surrounded by the second core. 15. The method of claim 10, wherein the first and second cores comprise single mode cores. 16. A method of sensing strain and temperature as distributed along an optical fiber, the method comprising: measuring Brillouin scattering in a first core of the optical fiber disposed in a well, the first core having a first Brillouin strain coefficient and a first Brillouin temperature coefficient, which coefficients are properties of the first core;measuring Brillouin scattering in a second core of the optical fiber disposed in the well, the second core having a second Brillouin strain coefficient and a second Brillouin temperature coefficient, which coefficients are properties of the second core, the first core having a different Brillouin strain coefficient as compared to the second core or a different Brillouin temperature coefficient as compared to the second core; andsensing one or more parameters of the well using an optical sensor disposed in the well and coupled to one or more of the first core or the second core at an end of the optical fiber in the well distal from earth's surface, the optical sensor being an optical sensor different from an optical fiber structure. 17. The method of claim 16, wherein the first and second cores are exposed to a same strain and temperature distribution in the well. 18. The method of claim 16, wherein the Brillouin scattering coefficient is a Brillouin strain coefficient. 19. The method of claim 16, wherein the Brillouin scattering coefficient is a Brillouin temperature coefficient. 20. The method of claim 16, wherein the first core is surrounded by the second core. 21. The method of claim 16, wherein the first and second cores comprise single mode cores.
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