Distributed temperature sensing

Distributed temperature sensing

Distributed temperature sensing systems (DTS) are optoelectronic devices which measure temperatures by means of optical fibres functioning as linear sensors. Temperatures are recorded along the optical sensor cable, thus not at points, but as a continuous profile. A high accuracy of temperature determination is achieved over great distances. Typically the DTS systems can locate the temperature to a spatial resolution of 1 m with accuracy to within ±1°C at a resolution of 0.01°C. Measurement distances of greater than 30 km can be monitored and some specialised systems can provide even tighter spatial resolutions.

Contents

Measuring principle — Raman effect

Physical measurement dimensions, such as temperature or pressure and tensile forces, can affect glass fibres and locally change the characteristics of light transmission in the fibre. As a result of the damping of the light in the quartz glass fibres through scattering, the location of an external physical effect can be determined so that the optical fibre can be employed as a linear sensor. Optical fibres are made from doped quartz glass. Quartz glass is a form of silicon dioxide (SiO2) with amorphous solid structure. Thermal effects induce lattice oscillations within the solid. When light falls onto these thermally excited molecular oscillations, an interaction occurs between the light particles (photons) and the electrons of the molecule. Light scattering, also known as Raman scattering, occurs in the optical fibre. Unlike incident light, this scattered light undergoes a spectral shift by an amount equivalent to the resonance frequency of the lattice oscillation. The light scattered back from the fibre optic therefore contains three different spectral shares:

  • the Rayleigh scattering with the wavelength of the laser source used,
  • the Stokes line components from photons shifted to longer wavelength (lower frequency), and
  • the anti-Stokes line components with photons shifted to shorter wavelength (higher frequency) than the Rayleigh scattering.

The intensity of the so-called anti-Stokes band is temperature-dependent, while the so-called Stokes band is practically independent of temperature. The local temperature of the optical fibre is derived from the ratio of the anti-Stokes and Stokes light intensities.

Measuring principle — OTDR vs OFDR technology

There are 2 principles of measurement for distributed sensing technology. OTDR (Optical Time Domain Reflectometry) & OFDR (Optical Frequency Domain Reflectometry).

OTDR was developed more than 20 years ago and has become the industry standard for telecom loss measurements which detects the - compared to Raman signal very dominant - Rayleigh backscattering signals. The principle for OTDR is quite simple and is very similar to the time of flight measurement used for radar. Essentially a narrow laser pulse generated either by semiconductor or solid state lasers is sent into the fibre and the backscattered light is analysed. From the time it takes the backscattered light to return to the detection unit it is possible to locate the location of the temperature event.

Alternative DTS evaluation units deploy the method of Optical Frequency Domain Reflectometry (OFDR). The OFDR system provides information on the local characteristic only when the backscatter signal detected during the entire measurement time is measured as a function of frequency in a complex fashion, and then subjected to Fourier transformation. The essential principles of OFDR technology are the quasi continuous wave mode employed by the laser and the narrow-band detection of the optical back scatter signal. This is offset by the technically difficult measurement of the Raman scatter light and rather complex signal processing, due to the FFT calculation with higher linearity requirements for the electronic components.

Using the Raman OTDR/OFDR DTS technique it is possible to analyse distances of greater than 30 km from one system and to measure temperature resolutions of less than 0.01°C.

Construction of Sensing Cable & System Integration

The temperature measuring system consists of a controller ( laser source, optical module, HF mixer, receiver and micro-processor unit) and a quartz glass fibre as line-shaped temperature sensor. The fibre optic cable (can be 30km+ in length) is passive in nature and has no individual sensing points and therefore can be manufactured based on standard telecoms fibres. This offers excellent economies of scale. Because the system designer/integrator does not have to worry about the precise location of each sensing point the cost for designing and installing a sensing system based on distributed fibre optic sensors is greatly reduced from that of traditional sensors. Additionally, because the sensing cable has no moving parts and design lives of 30 years +, the maintenance and operation costs are also considerably less than for conventional sensors. Additional benefits of fibre optic sensing technology are that it is immune to electromagnetic interference, vibration and is safe for use in hazardous zones (the laser power falls below the levels that can cause ignition), thus making these sensors ideal for use in industrial sensing applications.

With regards to the construction of the sensing cable, although it is based on standard fibre optics, care must be taken in the design of the individual sensing cable to ensure that adequate protection is provided for the fibre. This must take into account operating temperature (standard cables operate to 85°C but it is possible to measure up to 700°C with the correct design), gaseous environment (hydrogen can cause deterioration of the measurement though "hydrogen darkening" - aka attenuation - of the silica glass compounds) and mechanical protection.

Most of the available DTS systems have flexible system architectures and are relatively simple to integrate into industrial control systems such as SCADA. In the Oil and Gas industry an XML based file standard (WITSML) has been developed for transfer of data from DTS instruments. The standard is maintained by Energistics.

Laser Safety and Operation of System

When operating a system based on optical measurements such as the DTS technology, it is important to make sure that adequate precautions are taken with regards to laser safety. It is important to ensure that for systems that are used for permanent installations that a laser safety class 1M product is achieved. Certain systems are based on higher power lasers of a 3B rating, which although safe for use by approved laser safety officers, are not suitable for permanent installations.

Temperature estimations by using DTS

Temperature distributions can be used to develop models based on the Proper Orthogonal Decomposition Method or Principal component analysis. This allows to reconstruct the temperature distribution by measuring only in a few spatial locations [1]

Applications

Distributed Temperature Sensing can be deployed successfully in multiple industrial segments:

  • Oil & Gas Exploration – Permanent Downhole Monitoring, Coil Tubing Optical enabled deployed intervention systems, Slickline Optical Cable Deployed intervention systems.
  • Power Cable and Transmission Line Monitoring (Ampacity Optimisation)
  • Fire Detection in Tunnels and Special Hazard Buildings
  • Industrial Induction Furnaces Surveillance
  • Integrity of LNG Carriers and Terminals
  • Leakage Detection at Dikes and Dams
  • Temperature Monitoring in Plant & Process Engineering, including Transmission Pipelines
  • Storage Tanks and Vessels

More recently, DTS has been applied for ecological monitoring as well:

  • Stream temperature
  • Groundwater source detection
  • Temperature profiles in a mine shaft and over lakes and glaciers
  • Deep Rainforest ambient temperature at various foliage densities
  • Temperature profiles in an underground mine, Australia.

References

  1. ^ M.R. García; C. Vilas, J.R. Banga, A.A. Alonso (2007). "Optimal Field Reconstruction of Distributed Process Systems from Partial Measurements". Industrial and Engineering Chemistry Research 46 (2): 530–539. doi:10.1021/ie0604167. 

See also

External links

DTS in fire detection

DTS in power cable monitoring

DTS in ecological monitoring

DTS in pipeline leak detection

DTS in sewer monitoring


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