Zomwe zili bwino, wireless temperature measurement or distributed fiber optic temperature sensor for substations-INNO

A substation ndi malo opangira mphamvu mumagetsi omwe amasintha ma voltage, amalandira ndi kugawa mphamvu zamagetsi, amayendetsa kayendedwe ka magetsi, ndi kusintha ma voltage. Monga chofunikira kwambiri chosinthira mphamvu, ngati moto kapena ngozi ina yamagetsi ichitika pamalo ang'onoang'ono, zidzachititsa kuti magetsi azizima kwambiri, kubweretsa kukhudzidwa kwakukulu ndi kutayika kwa kupanga mabizinesi ndi miyoyo ya anthu. Choncho, kuonetsetsa chitetezo ndi kudalirika kwa malo ang'onoang'ono komanso kupewa moto ndikofunikira. Mwa iwo, zida kutenthedwa ndi yofunika zobisika ngozi zimene zingachititse substation moto. Kutentha kwambiri pamayendedwe osunthika komanso osasunthika ndi kulumikizana kwina kwa ma switchgear apamwamba kwambiri m'malo, ma cable olowa, kugwirizana chingwe, ndi kutulutsa pang'ono kwa zingwe zamphamvu kwambiri ndizoopsa zazikulu zobisika za ngozi zazikulu. Komanso, malo awa nthawi zambiri amakhala ndi ma voltages a masauzande angapo kapena masauzande a volts, kuyika zoopsa zazikulu zachitetezo kuti ogwiritsa ntchito alowe ndikufufuza.

Characteristics and Disadvantages of Wireless Temperature Measurement System in Substation

Wireless temperature sensor, wireless centralized receiver, substation monitoring, centralized control station, remote monitoring center, the wireless temperature sensor is connected to the wireless centralized receiver through wireless communication; The wireless centralized receiver is connected to the substation monitoring through wired communication; Substation monitoring and centralized control station connection; Connection between remote monitoring center and centralized control station; The substation monitoring configuration is equipped with a GSM network that can trigger temperature anomaly alarm information to be sent to the relevant staff’s mobile phones; The remote monitoring center, centralized control station, and substation monitoring are each equipped with temperature monitoring display devices, which monitor the temperature of the substation equipment in real time. The substation monitoring has a preset temperature threshold, which can compare the received temperature data with the preset threshold and send abnormal alarm information to the relevant staff’s mobile phones to passively set a temperature threshold. It cannot set multi-level alarms according to the specific environment. If there are significant differences in the basic temperature of multiple points in the substation, the system is prone to misjudgment, and even a large fire may occur when the alarm is triggered. Unable to accurately locate the location of the accident point, can only determine the fire alarm area, and cannot reflect the real-time temperature situation.

Advantages of Distributed Fiber Optic Temperature Measurement System in Substation

Due to its ability to achieve distributed continuous monitoring of temperature along the fiber optic cable, and its advantages such as small size, kulemera kopepuka, zabwino zotsekera magetsi, chemical corrosion resistance, high temperature resistance, high sensitivity, kuyankha mwachangu, zosaphulika, flame-retardant, mtengo wotsika, and resistance to electromagnetic interference, distributed fiber optic temperature sensors have been widely used in pipeline leak detection, dam infiltration, power system monitoring, fire warning, and medical treatment.

FJINNO provides an optical fiber temperature measurement system for substation temperature monitoring. By using distributed optical fiber temperature testing based on Raman scattering temperature measurement technology, temperature anomalies can be accurately and timely located on one optical fiber; Nthawi yomweyo, the system is equipped with multi-level temperature alarm values and temperature rise rate alarms, displaying temperature distribution curves in real time, and providing early warning before a fire occurs. This solves the problem that existing temperature measurement systems can only passively set a temperature threshold, which is prone to misjudgment and cannot accurately locate the location of the accident point. Pakadali pano, there are many studies on distributed fiber optic temperature measurement technology based on Raman scattering at home and abroad. The technical basis for achieving distributed measurement of temperature along the fiber optic cable is the Raman scattering and optical time domain reflection technology generated when light propagates in the fiber optic cable. When light undergoes Raman scattering in the fiber optic cable, its scattered light intensity is related to temperature, so intensity modulation technology can be used to measure the temperature along the fiber optic cable; By using optical time domain reflection technology, the demodulation of the position information of the measured temperature point can be achieved, thus completing the distributed measurement of temperature along the fiber optic cable.