Title :
Distributed Temperature Sensing: Review of Technology and Applications
Author :
Ukil, Abhisek ; Braendle, Hubert ; Krippner, Peter
Author_Institution :
ABB Corp. Res., Baden Daettwil, Switzerland
fDate :
5/1/2012 12:00:00 AM
Abstract :
Distributed temperature sensors (DTS) measure temperatures by means of optical fibers. Those optoelectronic devices provide a continuous profile of the temperature distribution along the cable. Initiated in the 1980s, DTS systems have undergone significant improvements in the technology and the application scenario over the last decades. The main measuring principles are based on detecting the back-scattering of light, e.g., detecting via Rayleigh, Raman, and Brillouin principles. The application domains span from traditional applications in the distributed temperature or strain sensing in the cables, to the latest “smart grid” initiative in the power systems, etc. In this paper, we present comparative reviews of the different DTS technologies, different applications, standard, and upcoming, different manufacturers.
Keywords :
Brillouin spectra; Raman spectra; Rayleigh scattering; backscatter; distributed sensors; fibre optic sensors; reviews; spectral methods of temperature measurement; temperature sensors; Brillouin principles; Raman principles; Rayleigh principles; continuous temperature distribution profile; distributed temperature sensing; distributed temperature sensors; light backscattering detection; optical fibers; optoelectronic devices; power systems; review; smart grid; strain sensing; temperature measurement; Monitoring; Power cables; Strain; Temperature distribution; Temperature measurement; Temperature sensors; Windings; Ampacity; Brillouin; DTS; Raman scattering; Stokes; anti-Stokes; cable temperature; distributed strain; fiber optic temperature sensing; fire detection; leakage detection; locomotive temperature; sag; structural health; transformer hot spot;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2011.2162060
