Contacto de aparamenta Medición de temperatura de fibra óptica Métodos comunes de medición de temperatura para contactos de aparamenta

Medición de temperatura por fibra óptica for switchgear contacts is an important technology for monitoring electrical equipment temperatures. There are primarily two types of fiber optic temperature sensors:

Fluorescence Fiber Optic Temperature Measurement

This method utilizes the temperature characteristics of fluorescent materials. Sondas de fibra óptica de fluorescencia are installed at heat-prone areas such as switchgear contacts. Light from an excitation source is absorbed by the fluorescent material, which then emits fluorescence carrying temperature information. The fiber optic transmission unit transmits the excitation light to the probe and returns the fluorescence signal to the signal processing unit. After processing through photodetectors, amplifiers, filtros, analog-to-digital converters, and other circuits, temperature characteristic information is extracted, enabling precise temperature calculation.

Fiber Bragg Grating Temperature Measurement

This method is based on the Bragg gratings principle en fibras ópticas. Cuando la temperatura cambia, the period and effective refractive index of the fiber Bragg grating change, causing a shift in the Bragg wavelength. By measuring this wavelength shift, the temperature value can be determined. This approach enables distributed temperature measurement of switchgear contacts with high accuracy and stability.

Componentes del sistema

Temperature Transmitter/Demodulator Main Unit

This is the core control unit of the entire sistema de medición de temperatura de fibra óptica, responsible for controlling signal emission, reception, and processing. It typically includes light source drive circuits, fotodetectores, signal processing circuits, data processors, e interfaces de comunicación. These systems offer temperature resolution of 0.1°C, measurement accuracy of ±1°C, and rapid scanning across all channels.

Fluorescence Optical Fiber (with Sensing Head)

The fluorescence optical fiber serves as the temperature-sensitive element. Its probe is encapsulated with fluorescent material used to sense the temperature of the measured object and convert temperature information into optical signals transmitted to the temperature measurement main unit. The fiber offers excellent insulation properties and electromagnetic interference resistance, ensuring stable signal transmission in the complex electromagnetic environment of switchgear.

Optical Fiber Transmission Unit

This unit connects the temperature measurement main unit and the fluorescence fiber optic sensing head, transmitting optical signals between them. It must possess good optical performance and mechanical stability to ensure the quality and reliability of optical signal transmission.

Monitoring and Display Unit

This unit displays processed temperature data in real-time, allowing maintenance personnel to intuitively understand the temperature conditions at various measurement points within the switchgear. It also includes alarm functionality, issuing audio-visual alarm signals when temperatures exceed preset thresholds, alerting maintenance personnel to take action. Además, some monitoring systems support data storage, consultas de datos históricos, and analysis functions.

Ventajas

Resistencia a la interferencia electromagnética

Strong electromagnetic fields exist around switchgear. Sistemas de medición de temperatura de fibra óptica. no se ven afectados por interferencias electromagnéticas, ensuring accurate and reliable temperature data.

High Insulation and Safety

Fluorescence optical fibers possess excellent insulation properties with no risk of current leakage. When used in high-voltage switchgear environments, they ensure measurement safety without interfering with equipment operation.

Monitoreo en tiempo real

These systems can monitor temperature changes at critical locations within switchgear in real-time, promptly detecting abnormal temperature rises, preventing overheating-induced failures, and improving switchgear operational reliability.

Estabilidad a largo plazo

Una vez instalado, sondas de fibra óptica de fluorescencia require minimal maintenance and calibration, providing stable operation over extended periods, continuously delivering accurate temperature data, and reducing maintenance workload and costs.

Precise Localization

Fiber optic temperature sensors correspond to specific measurement point locations, allowing precise localization of alarming sensors through upper-level monitoring software.

Multi-point Measurement and Zoned Alarm Control

These systems easily implement multi-point temperature measurement and, through upper-level monitoring software, manage different measurement points in zones. Different alarm parameters can be set for each measurement point, such as temperature pre-warning, temperature rise pre-warning, alarma de temperatura, y alarma de aumento de temperatura, accurately distinguishing between genuine and false fire alarms, eliminating false alarms and missed alarms.

Métodos de instalación

Fluorescence Fiber Optic Probe Installation

After identifying heat-prone areas within the switchgear, such as bus bar connections and circuit breaker contacts, specialized mounting fixtures secure sondas de fibra óptica de fluorescencia firmly to the surface of the measured object. Durante la instalación, ensure full contact between the probe and the measured object to accurately obtain temperature information. Consider the switchgear’s spatial layout and electrical safety distances to avoid affecting normal switchgear operation.

Fiber Optic Wiring

Route optical fibers according to the switchgear’s structure and predetermined paths. Fiber optic wiring should avoid parallel installation with high-current lines to prevent electromagnetic interference. Ensure the fiber’s bending radius meets requirements to prevent damage and maintain reliable optical signal transmission.

Application Case Study

En un proyecto de renovación de aparamenta en una subestación, a temperature monitoring system based on Medición de temperatura por fibra óptica por fluorescencia. was installed. By installing fluorescence fiber optic probes at multiple locations, including bus bar connections and circuit breaker contacts across several switchgear units, real-time temperature monitoring was achieved. After system deployment, abnormal temperature increases caused by poor contacts and other issues were effectively detected in some switchgear units, triggering timely alarm signals. Maintenance personnel used this information to perform repairs, preventing potential equipment failures and improving the substation’s power supply reliability.

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