Boven 10 manufacturers of distributed fiber optic temperature sensors for power grids-INNO

Slimme netwerktemperatuurmeting

Smart grid behoort tot het energiesysteem, waartoe ook energiecentrales behoren, hoogspanningsnetten, onderstations, distributiestations, enz. Specifiek, er zijn stroomapparatuur zoals generatoren, transformatoren, stroomkabels, schakelaars, enz. Deze apparaten werken doorgaans in omgevingen met hoge spanning, sterke elektrische velden, thermische belastingen, enz., en de werkomgeving is onbemand en ongecontroleerd. Als een technisch infrastructuursysteem, het elektriciteitsnet omvat de elektriciteitsvraag van duizenden huishoudens, en de bedrijfstemperatuur van elektriciteitsvoorzieningen en -apparatuur is een belangrijke factor bij het garanderen van de veilige werking van het elektriciteitsnet. Of het nu om stroomkabels gaat, transformatoren, of andere elektrische apparatuur, als belangrijke componenten van het energiesysteem, Lokale oververhitting of boogvonken kunnen optreden als gevolg van circuitproblemen of externe factoren, wat leidt tot branden en enorme economische verliezen veroorzaakt. Daarom, om dergelijke kwaadaardige gebeurtenissen te voorkomen, het is dringend noodzakelijk om uitgebreide temperatuurmonitoring van elektrische apparatuur uit te voeren.

Nu, traditional PT100 temperature sensors are not only unsuitable for strong electromagnetic working environments, but also pose significant difficulties for long-distance multi-point detection. In response to the shortcomings of traditional detection methods, de Gedistribueerde glasvezel temperatuurmeting method that has emerged in recent years combines backward Raman scattering effect and optical time domain analysis (OTDR) technology to use sensing fibers to achieve a distributed measurement of temperature field. Vergeleken met traditionele temperatuurmeetmethoden, Gedistribueerde glasvezel temperature sensors have the advantages of high sensitivity, Anti-elektromagnetische interferentie, long-distance multi-point detection, enz. Daarom, they can be widely used in temperature monitoring and fire alarm of power systems, Openbaar vervoer per spoor, kolenmijntunnels, and large buildings.

Kabel glasvezel temperatuurmeting

The power communication optical cable is a neural network for automatic control of the “vier afstandsbediening” of the smart grid. Once subjected to abnormal external temperatures or even fire damage along the way, the consequences are extremely serious. Glasvezel temperatuursensor is a new technology in temperature measurement and one of the most widely used sensors in industry. The emergence of distributed fiber optic temperature sensors has greatly reduced the cost of obtaining unit information, which is undoubtedly a revolution for temperature sensors based on electrical signals and point type fiber optic grating temperature sensors. Distributed fiber optic temperature sensing technology utilizes optical fibers to measure the temperature field distribution in a continuous space several tens of kilometers along the fiber optic path, providing a feasible new means for temperature field measurement and control in harsh environments such as strong electromagnetic fields, high voltage and current, flammable and explosive materials, and complex geometric spaces. Daarom, distributed fiber optic temperature sensors have received widespread attention due to their own characteristics, and research on distributed fiber optic temperature sensing systems has important theoretical significance and application value. Fiber Distributed Temperature Monitoring (DTS), Distributed Temperature Sensing）， Also known as distributed fiber optic temperature measurement, temperature monitoring is achieved based on the principle of optical time domain reflectometry (OTDR), Ramanverstrooiingseffect, and Brillouin scattering effect, which are sensitive to temperature. The entire system uses fiber optic as the carrier of sensitive information sensing and signal transmission, and has the characteristics of continuous temperature measurement, gedistribueerde temperatuurmeting, realtime temperatuurmeting, Anti-elektromagnetische interferentie, Intrinsieke veiligheid, bewaking op afstand, hoge gevoeligheid, Eenvoudige installatie, lange levensduur, enz. It is widely used in industries such as pipelines, tunnels, kabels, petroleum and petrochemicals, en kolenmijnen.

FJINNO levert een Gedistribueerd glasvezel temperatuurmeetsysteem at a reasonable price. Welcome to cooperate with fiber optic temperature measurement agents. Click customer service to contact!