فائبر آپٽڪ گرمي پد سينسر, ذھني نگراني نظام, چين ۾ ورهايل فائبر آپٽڪ ٺاهيندڙ
With the continuous development and progress of temperature measurement technology, fiber optic temperature measurement systems are also constantly improving their stability and reliability, intrinsic safety, long-term reliability, immunity to electromagnetic interference, high temperature measurement accuracy, real-time online and other advantages, which will make their application prospects even broader. So what are the application scopes? Let’s take a look with FJINNO:
Application of Fluorescent Fiber Optic Temperature Measurement System
1. Power switchgear contacts, busbars, incoming and outgoing lines, وغيره
High voltage switchgear is a commonly used equipment in substations, with a large number of wires and joints between wires inside. The high temperature and harsh working environment make it easy to cause equipment failures. One of the reasons for equipment failures in high-voltage switchgear is that the wire joints are not properly handled, such as virtual welding when the joints are welded or not fully tightened when the joints are tightened. When the load on the substation increases, especially during the high temperature and high electricity consumption seasons in summer, the joints may overheat or even burn through. The quality of joint processing is difficult to detect, usually only discovered after equipment failure, and once equipment failure occurs, the losses are very heavy. تنهن ڪري, it is very important to track the contacts that are prone to heating.
2. Dry type transformer temperature measurement and oil immersed transformer temperature measurement
The introduction of fluorescent fiber temperature measurement technology into transformers has achieved online monitoring of the internal temperature of transformers, which can monitor and locate hot spot temperatures in real time, greatly improving the sensitivity and reliability of detection. The transformer fiber optic winding temperature online monitoring system can directly, real-time, and accurately measure the winding temperature, achieve internal temperature monitoring of transformers, accurately measure the temperature of transformer windings, control the fan cooling system in real time, greatly extend the service life of power equipment transformers, ensure power supply during peak loads, and minimize unplanned or sudden accidents.
3. Industrial microwave fluorescence fiber optic temperature measurement
The microwave temperature measurement system using fluorescent fiber optic temperature measurement utilizes the immunity of fiber optic fluorescence temperature measurement to electromagnetic radiation fields to accurately measure the temperature of objects to be heated inside the microwave cavity in environments with ultra-high frequency, strong electromagnetic fields, and heavy interference; And accurate temperature measurement was achieved through the probe of the fluorescent temperature sensor. Fiber optic temperature measurement systems are suitable for integrated single channel or multi-channel temperature measurement, while fluorescent fiber optic temperature measurement equipment is particularly suitable for high-frequency and microwave devices.
Application of Distributed Fiber Optic Temperature Measurement System
1. Cable fiber optic temperature measurement
The distributed fiber optic temperature measurement system for power cables can monitor the temperature of the cables online and accurately locate the heating fault points of the cables. The monitoring site is safe and reliable, with accurate measurements and good stability; The temperature measurement accuracy reaches ± 1 ℃, without electromagnetic interference, and the sensor does not require calibration for long-term use; Real time online, 24-hour protection, on duty 24/7, eliminating human negligence;
2. Fire monitoring
Distributed fiber optic fire detectors are one of the mainstream products and have been widely used in various fields, including temperature monitoring of oil storage tanks or pipelines, temperature monitoring of power plants, substations, power cables and cable tunnels, fire monitoring of highway and subway tunnels, and fire monitoring of urban comprehensive pipe galleries. The distributed fiber optic fire monitoring system provides reliable guarantees for the safe operation of these fields.