Solution for Pipeline Fiber Optic Safety Warning and Monitoring-INNO

FJINNO proposes a joint monitoring method for vibration, cepa, and temperature of pipeline companion optical cables based on the principle of fiber optic sensing, by utilizing communication optical fibers to perceive the vibration, cepa, and temperature along the pipeline and achieve monitoring and localization of threat events along the pipeline. Using vibration data for length alignment and third-party activity monitoring, strain data for lateral displacement monitoring, temperature data for leakage monitoring and other abnormal operation analysis, multi-dimensional monitoring data after spatial length alignment and time alignment for joint analysis and interactive verification can further reduce false alarm rates, ultimately achieve line state perception in complex pipeline environments, and provide decision support for safe pipeline operation.

Según las estadísticas, in recent years, the operational risks of pipelines mainly include third-party damage, natural geological disasters, manufacturing and installation defects, corrosión, and other line risks. The core of intelligent pipeline construction is to enhance the ability of pipeline risk prevention and control through perception, ensuring the safe, efficient and stable operation of pipelines. In order to transmit pipeline production data, communication optical cables are laid in the same trench along the pipeline to form a dedicated network. Utilizing redundant fiber cores in pipeline companion communication optical cables for distributed sensing of vibration, cepa, y temperatura, in order to achieve monitoring and localization of third-party damage, geological hazards, and leaks along the pipeline.

The vibration based fiber optic warning system of FJINNO has been implemented in industrial applications in multiple customer pipeline monitoring cases, effectively solving the safety protection problems of third-party construction along the pipeline, and following the industry standard SY/T 6827 Technical Specification for Oil and Gas Pipeline Safety Warning System. The temperature measurement along the pipeline based on fibra optica temperature measurement has undergone strict on-site testing and can achieve the measurement of temperature trends along the pipeline.

The principle of fiber optic temperature measurement in pipelines

During normal pipeline transportation, the temperature of the pipeline transportation generally does not change suddenly. Solo después de un largo período de parada e intercambio de calor con el medio ambiente pueden ocurrir cambios significativos en la temperatura del medio de transporte de la tubería.. En caso de accidente, Las fugas de productos de tuberías pueden causar cambios de temperatura.. Por ejemplo, si un gasoducto tiene una fuga, due to the Joule Thomson effect, La temperatura alrededor de la tubería disminuye rápidamente.. El cable óptico puede detectar este cambio y localizarlo con precisión.. La excavación de obras de terceros puede afectar el campo de temperatura alrededor de la tubería., causando fluctuaciones de temperatura locales. Los cables ópticos pueden lograr la detección y posicionamiento de excavaciones de terceros.. Monitoreando la temperatura a lo largo de la tubería., Se puede lograr el monitoreo en línea del transporte anormal de tuberías.. Una vez que el cable óptico detecta un cambio repentino de temperatura, it can be determined that an abnormal event has occurred at that location.

Measurement range of sistema de monitoreo de tuberías de fibra óptica

Based on different principles of fiber optic scattering, pipeline companion optical cables can perceive various parameter information such as vibration, cepa, and temperature along the pipeline. The vibration perception of optical cables can achieve correspondence between fiber length and ground position through active ground vibration excitation, and combined with electronic maps, it can achieve spatial positioning of third-party activity events along pipelines. The strain sensing of optical cables can be achieved by establishing mathematical models, and ordinary loose tube optical cables can also perceive soil movement and lateral thrust. La detección de temperatura del cable de fibra óptica puede lograr la percepción de cambios repentinos de temperatura a lo largo de las tuberías midiendo los cambios de temperatura.. Después de alinear los tres parámetros ortogonales de vibración., cepa, y temperatura en el tiempo y el espacio, Se puede realizar un análisis conjunto para una verificación interactiva., reducir aún más la tasa de falsas alarmas de la percepción de parámetros individuales y mejorar la precisión del juicio de eventos en el monitoreo del estado de la línea de tubería en entornos complejos. Es posible recopilar datos de un mismo evento en diferentes espacios, y mejorar aún más la precisión del reconocimiento de eventos a través de tecnologías como big data e inteligencia artificial. Al final, Monitoreo en línea e identificación de diversos riesgos de operación de ductos, como actividades de terceros., geological disasters, fugas, and pipeline anomalies can be achieved through companion optical cables, providing decision support for safe pipeline operation.