sénsor suhu serat optik, Sistim ngawaskeun calakan, Produsén serat optik disebarkeun di Cina
Why do power plants use fiber optic temperature control systems to measure temperature
A large number of high-voltage cables and control cables are distributed in cable trenches, cable trays, and cable interlayers inside the power plant. Various cables, especially high-voltage cables, can experience temperature rise due to excessive load and aging of cable joints. Excessive temperature can easily cause fires, leading to interruptions in power plant operations. The fire caused by cables laid in a centralized manner will have a wider impact, longer repair time, and greater losses. Each power plant urgently needs an online temperature measurement technology that can automatically collect the surface temperature of cables in real time, monitor temperature changes in a timely and accurate manner, and issue warnings before the temperature becomes too high, so that managers have sufficient time to take corresponding measures and avoid fires.
To this end, Fuzhou Huaguang Tianrui Optoelectronic Technology Co., Ltd. timely developed a linear fiber optic temperature sensing fire detection system, which can monitor the temperature of cables in real time and provide early warning and alarm. The system adopts an all fiber sensing passive temperature measurement method, eliminating the safety hazards of the monitoring system itself and greatly improving the availability of the monitoring system for power temperature monitoring. This fiber optic temperature measurement system is used by many power plants and power supply companies, greatly reducing the occurrence of fire accidents and truly achieving prevention before it occurs, in line with the safety concept of “safety first, prevention oriented” in the power industry.
Application of Fiber Optic Temperature Control System in the Power Industry
1. Temperature sensing devices are flame resistant and explosion-proof.
The temperature measurement part adopts an all fiber structure, which truly realizes passive temperature monitoring. It is not charged, does not generate heat, and will not pose any safety hazards due to the deployment of the sensing system.
2. Akurasi pangukuran suhu luhur sareng réspon gancang.
Resolusi suhu host ukur suhu nyaéta 0.1 ℃, sareng akurasi pangukuran suhu nyaéta ± 1 ℃. The temperature detection time for a 4Km temperature measuring optical cable is about 4 detik.
3. Ngawaskeun online sacara real waktos.
Monitor the temperature of all measuring points of the high-voltage cables in the power plant continuously for 7×24 jam, and regularly save the temperature measurement data to provide auxiliary data for the health monitoring of each high-voltage cable.
4. Distributed detection with no blind spots.
Real time monitoring can be carried out at every point within the range of temperature measuring optical cables, eliminating blind spots in monitoring and theoretically avoiding the possibility of missed fire alarms.
5. Flexible partition alarm control.
Through the monitoring software on the upper computer, bagian pangukuran suhu béda bisa partitioned tur junun nurutkeun pangabutuh customer. Umumna, every 100M optical cable is set as one partition. Setel parameter alarem anu béda pikeun tiap partisi, sapertos peringatan suhu, warning naékna suhu, alarem suhu, sareng alarm naékna suhu, pikeun akurat ngabedakeun antara seuneu nyata jeung palsu, eliminate false alarms and omissions.
6. Comprehensive self diagnostic function.
Dina sistem ieu, bari ngadeteksi suhu unggal suhu ukur kabel optik, Éta ogé tiasa ngadeteksi status kerja unggal kabel optik ukur suhu sacara real waktos, kayaning karugian tambahan disababkeun ku karuksakan kabel atawa bending, tur akurat nomeran lokasi karuksakan atawa bending. Through self inspection and diagnostic functions, real-time detection of fiber optic cable damage is carried out for timely repair and maintenance.
7. Powerful software features.
Real time display of the location, temperature values, and temperature changes of each monitoring area on the human-machine interface. When an alarm occurs, it can be linked with the alarm controller to activate the ventilation and cooling device or fire extinguishing device, and the monitoring software can also trigger the sound and light alarm on the software interface. If the upper computer is equipped with a SMS alarm module, the alarm information can be sent to the designated personnel’s mobile phones to ensure timely handling of fire hazards. On the upper computer, historical temperature data and alarm records can also be queried to generate safety operation reports.