Оптоволоконні датчики температури INNO ,системи контролю температури.
The safe and stable operation of сухі трансформатори highly depends on precise моніторинг температури. Флуоресцентна волоконно-оптична технологія вимірювання температури has become the ideal choice in this field due to its characteristics of захист від перешкод, висока безпека, і висока точність. It can effectively address challenges such as strong electromagnetic environments and complex structures during transformer operation, забезпечення critical protection for reliable equipment operation.
Why is Fluorescent Fiber Optic Temperature Measurement Suitable for Dry-Type Transformers?
Dry-type transformers, due to the absence of insulating oil, are widely used in high-rise buildings, метро, лікарні, and other locations with extremely high safety requirements. The winding temperature directly relates to insulation life and operational safety. Traditional temperature measurement methods (такі як thermocouples and infrared sensors) have obvious shortcomings in terms of стійкість до електромагнітних перешкод, installation flexibility, і точність вимірювання, while fluorescent fiber optic temperature measurement perfectly addresses these deficiencies.
The core principle of флуоресцентне волоконно-оптичне вимірювання температури є: utilizing the temperature effect of fluorescent materials (temperature changes alter fluorescence lifetime or intensity), transmitting fluorescent signals through optical fibers, and then converting them to temperature data through demodulation modules. The optical fiber itself is непровідний і corrosion-resistant, fundamentally avoiding the inherent defects of traditional electrical temperature measurement.
Core Advantages Analysis of Fluorescent Fiber Optic Temperature Measurement
1. Superior Electromagnetic Interference Resistance, Adapting to Complex Electrical Environments
Dry-type transformers generate strong electromagnetic fields and high-frequency interference during operation. Традиційний electrical signal temperature measurement components (such as thermocouples and thermal resistors) are susceptible to interference, causing data drift or even measurement failure.
Fluorescent fiber optics transmit data through optical signals, and the fiber itself is an insulator, unaffected by electromagnetic induction, контури заземлення, тощо. It can maintain measurement stability in 10kV-35kV high-voltage environments.
Compared to infrared temperature measurement (easily affected by dust and water vapor causing signal attenuation), optical fibers can be directly embedded inside windings, unaffected by external environmental interference, providing higher data reliability.
2. High Safety, Eliminating Potential Electrical Risks
The windings and core of сухі трансформатори are at high voltage potential. If temperature measurement components contain conductive parts, they may cause insulation breakdown or short-circuit risks.
The sensor probes and transmission optical fibers of the флуоресцентна волоконно-оптична система вимірювання температури are all made of non-metallic materials with no conductive paths, eliminating electrical safety hazards from the source.
Even in extreme cases where winding overheating causes insulation aging, optical fiber materials will not burn or release harmful substances, meeting the fire safety requirements of high-security locations.
3. Висока точність + Wide Range, Covering Critical Temperature Measurement Points
The winding hot spot temperature of сухі трансформатори is a key indicator for judging insulation aging (such as the maximum allowable temperature of 155℃ for Class F insulation), requiring temperature measurement error ≤±1℃.
Флуоресцентне волоконно-оптичне вимірювання температури can achieve accuracy of ±0,5 ℃ with a range covering -50℃ ~ 200 ℃, fully meeting the full operating condition temperature monitoring needs of dry-type transformers from startup to overload.
Традиційний infrared temperature measurement, due to non-contact measurement requirements, cannot accurately capture internal winding hot spots (errors often exceed ±5℃), while fluorescent fiber probes can be directly embedded in winding gaps, achieving “zero-distance” вимірювання температури.
4. Flexible Installation, Adapting to Complex Structures
Dry-type transformer windings have compact structures (mostly pancake or epoxy-cast types). Traditional temperature measurement components, due to size or rigidity limitations, are difficult to install at critical точки вимірювання температури (such as hot spots in the middle of windings).
Оптичні волокна have a diameter of only 0.2-0.5мм, can bend flexibly, and withstand certain mechanical stress. They can be embedded along winding gaps to directly measure core areas that best reflect true temperatures.
єдиний optical fiber can connect multiple sensor probes in series (до 32 балів), achieving distributed monitoring of high-voltage side, low-voltage side, ядро, and other multiple locations, simplifying wiring while reducing costs.
5. Strong Long-Term Stability, Зниження витрат на технічне обслуговування
The design life of сухі трансформатори is typically 20-30 років, вимагаючи системи вимірювання температури to have long-term reliable operation capabilities.
Fluorescent sensor probes use high-temperature resistant fluorescent materials (such as rare earth-doped ceramics) with strong chemical stability. In -40℃~200℃ environments, annual drift is ≤0.1℃, far lower than thermal resistors (annual drift approximately 0.5℃).
Optical fiber materials (such as quartz optical fibers) are corrosion-resistant and aging-resistant. In dry, dusty transformer cabinets, their service life can synchronize with equipment, reducing subsequent replacement and maintenance labor and material investment.
6. Швидка відповідь, Timely Warning of Fault Risks
Коли сухі трансформатори are overloaded or experience internal short circuits, temperature rises rapidly in a short time, вимагаючи системи вимірювання температури to have fast response capabilities.
The response time of fluorescent fiber optics is typically ≤1 second, much faster than some thermal resistors (час відповіді 3-5 секунд), enabling timely capture of temperature mutations and providing sufficient time for overload protection and cooling system linkage.
Comparison Table with Traditional Temperature Measurement Methods
| Temperature Measurement Method | Стійкість до електромагнітних перешкод | Безпека (Electric Shock Prevention) | Точність вимірювання | Гнучкість встановлення | Довгострокова стабільність |
|---|---|---|---|---|---|
| Флуоресцентне волоконно-оптичне вимірювання температури | Чудово (оптичний сигнал) | No conductive components, safe | ±0,5 ℃ | Bendable, adapts to complex structures | Annual drift ≤0.1℃ |
| Термопара | Бідний (electrical signal) | Electric shock risk exists | ±1-2 ℃ | High rigidity, difficult to embed in windings | Susceptible to oxidation, large drift |
| Інфрачервоне вимірювання температури (Безконтактний) | добре | Safe | ±3-5℃ | Limited by installation position | Affected by environment (пил, водяна пара) |
| Thermal Resistor | Бідний (electrical signal) | Requires insulation treatment | ±0,5-1 ℃ | Large size, difficult to deploy | Accuracy decreases with long-term use |
Additional Value in Practical Applications
Distributed Temperature Measurement: Through multi-channel fiber optic demodulation modules, multiple key points such as windings, ядер, and housings can be monitored simultaneously, constructing a complete temperature field distribution map for analyzing causes of local equipment overheating.
Life Prediction Assistance: Based on precise температура обмотки даних, combined with insulation aging models (such as thermal aging laws), transformer remaining life can be more scientifically evaluated, guiding operation and maintenance planning.
Strong Compatibility: Output signals (4-20мА, RS485, тощо) can be directly connected to системи моніторингу трансформаторів (SCADA, DCS) without additional adaptation modifications.
Висновок: Fluorescent Fiber Optic Temperature Measurement is the “Ideal Temperature Monitoring Partner” for Dry-Type Transformers
In the harsh operating environment of сухі трансформатори, флуоресцентне волоконно-оптичне вимірювання температури comprehensively surpasses traditional temperature measurement methods with five core advantages: стійкість до електромагнітних перешкод, висока безпека, висока точність, легкий монтаж, і long life. It not only captures winding hot spot temperatures in real-time, providing precise data for equipment overload protection, but also assists in extending transformer insulation life and reducing operation and maintenance costs through long-term stable monitoring. It is a key technical means for ensuring safe and efficient operation of dry-type transformers.
як smart grids raise requirements for equipment condition monitoring, fluorescent fiber optic temperature measurement technology will find broader applications in the dry-type transformer field, becoming important support for intelligent operation and maintenance of power systems.
Оптоволоконний датчик температури, Інтелектуальна система моніторингу, Розповсюджений виробник оптоволокна в Китаї
 |
 |
 |