Penderia suhu gentian optik INNO ,sistem pemantauan suhu.
Pipeline monitoring is a specific practical case of distributed fiber optic temperature measurement application. FJINNO provides fiber optic temperature measurement technology solutions and products.
Transportation is a transportation technology that utilizes pipelines to transport fluids such as gases and liquids. Dalam beberapa tahun kebelakangan ini, this technology has developed rapidly and has been widely used in fields such as energy, municipal construction, and water conservancy irrigation due to its advantages of large transportation volume, small land occupation, short pipeline transportation construction cycle, dan kos rendah. It has become the main transportation mode for land water, minyak, dan gas, and is one of the five major transportation modes in the world today, along with railways, lebuh raya, water transportation, and air transportation. It plays a crucial role in national economic and social development.
The method of real-time pipeline monitoring system
In practical engineering applications, pipelines are often buried underground and have long distances. Pipelines buried underground for a long time are susceptible to external forces such as corrosion from the surrounding environment, geological subsidence, ground vehicle pressure, dan kerosakan manusia, leading to leakage accidents. Ensuring the safety of pipeline transportation is a fundamental requirement for maintaining the normal operation of pipelines. Oleh itu, real-time monitoring of the health status of transportation pipelines is necessary to ensure the safe operation of the pipelines. Traditional pipeline leak detection methods include manual inspection, balance method, kaedah gelombang tekanan negatif, and stress wave method, dll. These methods are all used to detect leaks in pipelines or after they occur, which have disadvantages such as difficult positioning, short distance, kos yang tinggi, and no warning function. Dalam beberapa tahun kebelakangan ini, new sensing technologies using optical fibers as sensing elements and transmission media have overcome the shortcomings of traditional technologies and provided a new approach for pipeline leakage detection. Based on the advantages of corrosion resistance, ringan, saiz kecil, no need for electricity at each sensing point, imuniti terhadap gangguan elektromagnet, sensitiviti yang tinggi, and the ability to achieve distribution, gentian optik teragih sensing systems have become the most widely used and promising technological means in the field of pipeline detection in China.
Dalam kejuruteraan praktikal, transportation pipelines generally pass through complex and diverse terrains, passing through mountains, valleys, kereta api, lebuh raya, dll. The distributed fiber optic sensing system laid along the pipeline can provide continuous temperature monitoring for the entire line, achieve ultra long distance sensing monitoring, achieve all-round monitoring of transportation pipelines, and ensure the safe operation of the pipeline.
The sistem pengesan gentian optik teragih can be divided into three types based on different fiber optic temperature measurement principles:
1. Distributed Rayleigh sensor suhu gentian optik
2. Distributed Raman fiber optic temperature sensor
3. Distributed Brillouin fiber optic temperature sensor
Since the successful development of a distributed Raman fiber temperature sensor experimental device using a semiconductor laser as the light source, the distributed Raman fiber temperature sensing technology has continuously developed and is in a mature stage in engineering. A large amount of saline water is generated during the construction of an underground gas storage in a certain area, and the saline water needs to be transported to a designated location for treatment. This project uses a pipeline leakage system to detect the saline water transportation pipeline. The optical fiber is buried in sand 10 cm below the pipeline, and temperature data is collected using two collection devices in series. Setiap 30 minit, the collection devices transmit the data to the central control computer for data analysis and generate an alarm when a leak is detected. The system can automatically send an alarm, generate a report, regularly reset and restart the measurement, and requires almost no maintenance.
Using fiber optic sensing technology for oil simulation leakage testing, detecting changes in soil temperature around the pipeline based on Raman scattering and Brillouin scattering principles, in order to determine the location of the leakage point. Using temperature sensors and fiber arrays to collect changes in soil temperature, leakage testing was conducted on high-pressure natural gas in underground pipelines. The variation law of soil temperature around the leakage hole was studied, and combined with numerical calculations, the most realistic leakage model was established to provide guidance for fiber temperature detection of gas pipeline leaks.
Aplikasi daripada pengukuran suhu gentian optik teragih technology in various fluid transportation pipeline leak detection fields has enormous potential. This paper discusses and analyzes the application of distributed fiber optic temperature measurement system in pipeline leakage detection from the aspects of its characteristics, prinsip kerja, fiber optic laying method, and practical application case analysis. The working principle of distributed Raman fiber optic temperature measurement system combines Raman scattering and time-domain reflection technology of light in the fiber optic,
Sensor suhu gentian optik, Sistem pemantauan pintar, Pengeluar gentian optik yang diedarkan di China
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