Fiber Optic Applications for Deformation Monitoring
Transcript of Fiber Optic Applications for Deformation Monitoring
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Fiber Optic Applications for Deformation Monitoring
Polly BrownIndustry, Pennsylvania
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• Sensor Typeso Traditionalo Fiber Optic
• Fiber Optic Sensor Technologieso Point Sensorso Quasi Distributedo Long Gageo Distributed
• Readout Units• Software
o SDB – SOFO/MuSTo DiView - Distributed
• Case Studieso I-35 - Minneapoliso Rio Puerco – New Mexicoo Turcot Interchange - Montrealo High Speed Train Tunnel – Spaino Sinkhole Monitoring – Kansaso I-40 Slope Stability – Tennesseeo Dangeruous Slope Monitoring - Korea
Outline – Fiber Optic Applications
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Traditional Instrumentation
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Fiber Optic Instrumentation Advantages
Extended measurement base lengthSmall dimensionSimplified wiringStatic or very fast dynamic measurements Insensitive to electromagnetic and radio frequency
interferences (EMI - RFI)Not affected by lightning and staticsSafe in hazardous environments (presence of volatile
chemicals) Intrinsically safe
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Fiber Optic InstrumentationChallenges
Specialist knowledge necessaryWide scope of capabilitiesCombine with conventional sensing when possible
(hybrid solutions)Post processing: display, post processing and analysis
of multi-parameters / technologiesSpecialty equipment for instrumentation: optical time
domain reflectometer, fiber optic fusion splicerCosts of reading units (rental or periodic readings
possible)
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Fiber Optic Instrumentation Sensor Elements
Coating / Buffer:Typically consists of polymer layers that protect the silica structure against physical or environmental damage.
Cladding:The first optical layer around the core, the cladding creates an optical waveguide that confines the light. It is usually made of silica.
Core:Central section made of silica, it is the high-transmitting region of the fiber.
50 m
An optical fiber consists of three principal elements, arranged concentrically:
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nclad>
ncore
Fiber Optic InstrumentationHow does fiber transmit light?
• Refractive indexes: ncore > ncladding
• Incident light is reflected at the boundary between core and cladding• Light is guided by total internal reflection
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Fiber Optic InstrumentationSensor Types
Strain Temperature
DisplacementPressure
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Point Sensor: FISO Fabry-Pérot
Distributed: DiTeSt / DiTemp Brillouin and Raman scattering
Max range 45 km
Quasi distributed (multiplexed): MuST Fiber Bragg Sensor (FBG)
Long guage Sensor: SOFO sensor
Types of Sensors by Gauge Length
Max. gauge length 10 m
Max. gauge length 2 m
Spatial resolution 1 m
Point sensor
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To Readout
Optical Fiber MirrorMicrocapillary
Fabry-Perot Cavity
10 mmd
Fabry Perot Point Sensors
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MuST Quasi Distributed(Fiber Bragg Grating) 1 to 6 feet lengthThe variation of strain or temperature will induce change in distance between the gratings and the wavelength reflected by the grating changes in proportion. Allows discreet measurements between anchors.
Before strain or temp. variation
After strain variation or temp. variation T
WL ~or T
WL0
WL1
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Mirrors Reference Fiber Measurement Fiber Coupler Connector
Active Zone Passive ZoneAnchor Pieces
Active Zone: measurement basis or gage lengthPassive Zone: carrier of information (connecting cable)
Range -0.5 to +1%2µm resolutionTemperature compensated
SOFO ® Long Gauge (Interferometry)1 to 30 feet
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Pipeline
Distributed SensingDistributed Sensing Applications
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Distributed SensingDiTeSt / DiTemp Systems
• Benefits :• Distributed measurement of strain and/or temperature
along a single FO cable• Specialized cables for distributed sensing• High spatial resolution: 2, 3, or 6 ft• Long range: up to 40 miles• Long-term stability• Dedicated software for data analysis and visualization• Cost-effective solution for large number of points• Immune to electromagnetic interference and lightning
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Distributed SensingThe Fiber is the Sensor
1m pulse of light
Backscattered light provides measurementinformation at 0.5, 1, or 2 m spacing
T9,999T9,998
T9,997T9,996
T9,995
T1 T2 T3 T4 ……….
Standard multi-mode optical fiber
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T, ε T, ε
Distributed SensingLight Scattering Effect
Scatteringmedium
Laser, o
Brillouin and Raman Scattering of Light
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Distributed SensingCable Design
SMARTape: Strain sensing
SMARTProfile: Strain &Temperature
sensing
Hydro & Geo: Strain &Temperature
Temperature Cable
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FO Readouts and Loggers
o Point Sensors
o Long Gauge Sensors
o Distributed Sensors
Single Ch 16 or 32 Ch
Portable ReadoutSOFO and/or MuST SOFO and/or
MuSt
DiTemp Logger DiTemp HARSHDiTeSt Logger
SOFO LiteSOFO
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SDB SoftwareSOFO® Long Gauge/MuST Quasi Distributed
Map view with colors codingfor pre-warning and warning.
Tab view with colors codingfor pre-warning and warning.
Sensor list.
Plot view with pre -warningand warning thresholds.
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DiView SoftwareDiTeST/DiTemp – Distributed Sensing
DamsDikes
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Design-build project completed in 339 daysMulti-parameters instrumentation: vibrating
wire stain gauges, accelerometers etc…
I-35W Bridge - MinneapolisSOFO® Long Gauge Sensors
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span 2
SOFO SensorsLA=4m Junction box SOFO RU
(TCP-IP)
MultifiberExtension cable
• Average strain and curvature
• Deformed shape• Detection of cracks
I-35W Bridge - MinneapolisSOFO® Long Gauge Sensor Topology
• Dynamic Strains • Dynamic Deformed
Shape• Vertical mode shapes • Dynamic damping
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I-35W Bridge - MinneapolisLoad Test
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Rio Puerco Bridge – New Mexico(instrumented in 2000)
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Rio Puerco Bridge – New MexicoSOFO® Long Gauge Sensors
• US Highway 40, approximately 10 miles west ofAlbuquerque.
• 4 Girders were embedded with 64 Sensors.• 10 SOFO and 6 Temperature, per girder
• Configuration of sensors allows monitoring ofdeformation and curvature, and determination of thermalinfluences.
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Simple Topology Average Strain
i=const
ii
i-1=const
gi
Cel
l i
Cracks
Mi-1 Mi
Neutral axishi
ri
Cell i
Top sensor
Bottom sensor
qi
Vi-1
Vi
bi
Parallel Topology Average Curvature
t
Vt
Vt
s,i s,i
Sensor “1” Sensor “2”
Cell i
Crossed Topology Average Shear Strain
Sensor Topologies
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Rio Puerco Bridge – New MexicoResults
• Measurements started immediately after embedment, thereby measuring initial age deformation over a 3 day period.
• Deformation was subsequently recorded during the pre-stress phase. Thus, real initial strain state of girders was recorded.
• A period of continuous monitoring before transportation on-site, during transportation and during the pouring of the deck.
• The results helped compare different theoretical models and confirmed the design & construction conditions.
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Turcot Interchange - MontrealMuST Bragg Grating Sensors
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Turcot InterchangeMuST Bragg Grating Sensors
TemperatureMuST strain
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Turcot Interchange - MontrealMuST Bragg Grating Sensors
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High Speed Train Tunnel – SpainDiTeST
• Accident in October 2007 before first use
• Reinforced with columns• Column collapse and
cracks observed
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High Speed Train Tunnel – SpainDiTeST – Sensor Layout
• 5 Smartprofile per section• 12’200 m Smartprofile in total
1
2
3
4
5
C.M.P.
250 1370 420
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High Speed Train Tunnel – SpainDiTeST – Sensor Installation
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Sinkhole and Soil Settlement
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Sinkhole Monitoring - KansasDiTeST – Sensor Layout
A total of 4 Km of Strain Distributed Sensor directly buried into soil
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Sinkhole Monitoring - KansasDiTeST Sensor Installation
Digging of the trench where the sensor is deployed
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Sinkhole Monitoring - KansasDiTeST Sensor Testing
Site pulling test @ different locations
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Sinkhole Monitoring - KansasDiView Software Graphical User Interface
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I-40 Slope StabilityTennessee DOT - 2010
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I-40 Slope Stability - TennesseeBorehole extensometer (MPBX)
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I-40 Slope Stability - TennesseeBorehole Extensometer (MPBX)
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Dangerous slope monitoring - KoreaDiTeST
• Landslide monitoring :predictive approach
•Optical fiber attached to polls anchored in the ground
•Monitoring of the optical fiber deformation in relation with the land slide
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Dangerous slope monitoring - KoreaDiTeST