Simultaneous independent distributed strain and temperature measurements over 15km using spontaneous Brillouin scattering
Simultaneous independent distributed strain and temperature measurements over 15km using spontaneous Brillouin scattering
Long range simultaneous distributed strain and temperature sensors have many applications for measurements in the power and oil industries and also for structural monitoring. We present an efficient technique to measure both the intensity and frequency shift at every point along the sensing fibre with a low loss filtering device utilising two in-fibre Mach-Zehnder interferometers. From these two measurements, it is possible to compute accurately the strain and temperature profile. The first interferometer was used in a double-pass configuration and served to separate the Brillouin from the Rayleigh signal, the second allowed the frequency shift to be determined. It is possible to tune the Mach-Zehnder such that the launched source signal (and hence the Rayleigh) lies at the maximum or minimum of the transfer function. The Brillouin backscattered signals for the condition of maximum and minimum throughput at the signal wavelength are summed thus obtaining a Brillouin backscattered intensity measurement independent of frequency shift. The measurement obtained when the Rayleigh lies at a minimum of the transfer function provides information of both Brillouin intensity and frequency shift variations which then allows the frequency shift to be determined. The temperature and strain resolutions were estimated to be 4°C and 290µε with a 10m spatial resolution over a sensing range of 15km.
Kee, H.H.
2417a0d4-8d5b-447d-8ce7-dda23028ca70
Lees, G.P.
0c1c9d69-debd-4e3c-a159-b3463564ca2e
Newson, T.P.
6735857e-d947-45ec-8163-54ebb25daad7
2000
Kee, H.H.
2417a0d4-8d5b-447d-8ce7-dda23028ca70
Lees, G.P.
0c1c9d69-debd-4e3c-a159-b3463564ca2e
Newson, T.P.
6735857e-d947-45ec-8163-54ebb25daad7
Kee, H.H., Lees, G.P. and Newson, T.P.
(2000)
Simultaneous independent distributed strain and temperature measurements over 15km using spontaneous Brillouin scattering.
ISAP 2000, Glasgow, UK.
22 - 24 May 2000.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Long range simultaneous distributed strain and temperature sensors have many applications for measurements in the power and oil industries and also for structural monitoring. We present an efficient technique to measure both the intensity and frequency shift at every point along the sensing fibre with a low loss filtering device utilising two in-fibre Mach-Zehnder interferometers. From these two measurements, it is possible to compute accurately the strain and temperature profile. The first interferometer was used in a double-pass configuration and served to separate the Brillouin from the Rayleigh signal, the second allowed the frequency shift to be determined. It is possible to tune the Mach-Zehnder such that the launched source signal (and hence the Rayleigh) lies at the maximum or minimum of the transfer function. The Brillouin backscattered signals for the condition of maximum and minimum throughput at the signal wavelength are summed thus obtaining a Brillouin backscattered intensity measurement independent of frequency shift. The measurement obtained when the Rayleigh lies at a minimum of the transfer function provides information of both Brillouin intensity and frequency shift variations which then allows the frequency shift to be determined. The temperature and strain resolutions were estimated to be 4°C and 290µε with a 10m spatial resolution over a sensing range of 15km.
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Published date: 2000
Additional Information:
4074-34
Venue - Dates:
ISAP 2000, Glasgow, UK, 2000-05-22 - 2000-05-24
Identifiers
Local EPrints ID: 16945
URI: http://eprints.soton.ac.uk/id/eprint/16945
PURE UUID: 78f24f07-faea-4ed4-85c5-d044fafdcd66
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Date deposited: 18 Aug 2005
Last modified: 15 Mar 2024 05:49
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Contributors
Author:
H.H. Kee
Author:
G.P. Lees
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