Sensornet’s market leading distributed temperature sensing (DTS) systems. Our range of DTS solutions ensures that every monitoring requirement is met. Depending on your specific requirements, we can measure temperatures to a resolution of 0.010 C at every metre along the sensing fibre optic cable for 45km in each direction; with a total reach of 90km from a single DTS unit.
Bandweaver explains more about what distributed temperature sensing (DTS) is and how fiber optic temperature sensor works. The DTS systems measure temperature along the length of a fiber optic cable providing continuous (distributed) temperature profile.
Fiber optic DTS (distributed temperature sensing) systems have been used for over 30 years on LNG terminals. From the jetty to the processing area, from the tank annulus to the spill containment area and the base slab, DTS monitoring is ideally suited to monitoring tasks at an LNG facility.
Electricity – Distributed Temperature Sensing (DTS) The cable constructions can be used in applications with temperatures up to 125 ˚C. For interrogation spans up to 60 kms, our single-mode solution is recommended. This fiber optic solution is compatible with Brillouin detection systems. A single Brillouin peak profile is offered in a variety
Distributed temperature sensing (DTS) systems 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 accomplished over great distances.
Distributed temperature sensing (DTS) measures temperature distribution over the length of an optical fiber cable using the fiber itself as the sensing element. Unlike traditional electrical temperature measurement (thermocouples & RTD), the length of the fiber optic cable is the temperature sensor.
Distributed Temperature Sensing systems is a rising technology which will be further actively developed in the near future. According to the forecasts, the price of such fiber-optic DTS systems will continue to decline while productivity of them will continue to increase.
OZ Optics’ Foresight™ series of fiber optic Distributed Strain and Temperature Sensors (DSTS) BOTDA modules are sophisticated sensor systems using stimulated Brillouin scattering in optical fibers to measure changes in both strain and temperature along the length of an optical fiber.
Launched in 1998, Sensornet provides the worlds most advanced asset monitoring solutions, using real-time distributed temperature sensing, digital strain, fiber optic leak detection systems and pressure measuring solutions.
Distributed temperature sensing (DTS) and distributed acoustic sensing (DAS) systems for data acquisition over extended wellbore intervals in real time to …
The LIOS Distributed Temperature Sensing systems use light, more specifically the Raman effect, to measure temperature. In one end of the system, a laser sends a pulse of light into – and through – the optical fiber.
As the fibre is the sensor, it is also a cost-effective method that can be easily deployed even in the harshest and most unusual environments. Distributed sensing is usually used for acquiring temperature, strain and acoustic data. The optical fibre is made of pure glass (silica) as thin as a human hair.