The characteristics and applications of distributed fiber optic temperature measurement systems

Fiber opiti otutu sensọ, Ni oye monitoring eto, Pinpin okun opitiki olupese ni China

The characteristics of DTS pin opitiki iwọn otutu eto wiwọn

The smart grid of the power system includes power plants, ga-foliteji grids, substations, awọn ibudo pinpin, ati be be lo., specifically including generators, Ayirapada, awọn okun agbara, switches and other power equipment. Power equipment usually operates in environments such as high voltage, lagbara ina oko, and heat loads, ati awọn ṣiṣẹ ayika jẹ unmanned ati unmonitored. As an engineering infrastructure, the smart grid involves the electricity needs of thousands of households, and the operating temperature of power equipment is an important factor in ensuring the safe operation of the smart grid. Whether it is transformers, awọn okun agbara, or other power equipment, bi awọn ẹya pataki ti eto agbara, they may cause local overheating or arc sparks due to some circuit problems or external factors, leading to fires and causing losses to people’s production and life. Nitorina, in order to avoid such a malignant event, o jẹ iyara lati ṣe abojuto iwọn otutu okeerẹ ti ohun elo agbara. For cable tunnels used to accommodate a large number of cables laid on cable supports in corridors or tunnel structures, the environmental temperature and cable operating conditions can only
When a malfunction occurs, it is found that the longer the operating time, the more prone it is to overheating and burning accidents, which may cause huge economic losses.

Application of distributed fiber optic temperature measurement system in fiber optic temperature sensors

The existing electronic temperature sensors use point type temperature measurement, which is prone to electromagnetic interference and is not suitable for strong electromagnetic scenarios, while fiber optic temperature sensors are not affected by electromagnetic interference and are very suitable for temperature monitoring in power systems. Fiber optic temperature sensors include single point temperature sensors and quasi distributed fiber optic temperature sensors. A single point temperature sensor measures a certain point in the temperature field with high measurement accuracy and reliability, but it is difficult to measure the distribution of multiple points in the temperature field. To solve the measurement problem of temperature field multi-point distribution, a quasi distributed fiber optic temperature sensor composed of a multiplexed fiber optic temperature sensor and an array of fiber optic temperature sensors has emerged. The quasi distributed fiber optic temperature sensor uses a single point fiber optic sensor array to form a spatial network distribution, achieving distributed fiber optic temperature measurement.

Distributed fiber optic thermometer is an optical time-domain temperature monitoring system, which is a widely used distributed fiber optic temperature measurement system both domestically and internationally. The system consists of a temperature measurement host, temperature sensing fiber optic, and DTS backend analysis software.

The distributed temperature measurement fiber optic system is based on the principle of Raman scattering in light, integrating optical time-domain reflection (OTDR) technology and the temperature sensitive characteristics of scattered light. It detects temperature changes at different positions along the fiber optic and achieves truly distributed measurement through intelligent analysis of DTS backend software data. It can continuously measure the temperature at any point along the fiber optic.

The characteristics of distributed fiber optic temperature measurement system

The measurement distance of the distributed fiber optic temperature measurement system ranges from a few kilometers to several tens of kilometers, and the spatial positioning accuracy can reach the level of 1m. It can conduct uninterrupted real-time online monitoring and transmit real-time data remotely, timely warning of fire hazards, and accurately locate the location of the fire. It can achieve distributed real-time measurement of temperature in a wide range of space, with advantages such as long measurement distance, no measurement blind spots, real-time monitoring, and precise positioning. It is widely used in fields such as transportation tunnels, alaja, agbara, petrochemicals, and water conservancy.

Eto wiwọn iwọn otutu okun opitiki pin

The distributed fiber optic temperature measurement system adopts an embedded system solution to complete the design of the temperature measurement host

The temperature measurement host adopts a fanless cooling design, which has a low failure rate and low noise during operation

Distributed real-time measurement, covering 100% of the detection area, without measurement blind spots, accurately locating the location of fires

Full process visualization display, real-time display of fire development trends and spreading directions

365 x 24 hours uninterrupted online monitoring throughout the year, fundamentally eliminating accidents caused by personnel negligence

Long measurement distance and rich measurement information. High measurement accuracy and fast response speed. High reliability and low false alarm rate

The alarm method is flexible and can achieve differential temperature and multi-level alarm, ensuring reliable alarm in the early stage of a fire

Multiple different alarm control areas can be set up for environmental changes, and the alarm control area is programmable

Design according to user requirements, each individual alarm area can be set with different alarm values

Temperature sensing fiber optic is both a signal transmission carrier and a temperature sensing element, making installation convenient

The temperature sensing optical fiber adopts a durability design, with a long working life and low maintenance costs in the later stage. Optical signal measurement, ailewu ojulowo

Anti itanna kikọlu, suitable for long-term operation under harsh conditions such as flammability and explosion

The fiber optic temperature measurement system adopts an embedded system design with composite industrial grade reliability requirements, and has network access and remote transmission functions

With network interface, it can be connected to the management network to achieve information sharing and further data processing functions

Distributed fiber optic temperature measurement industry applications:

Petroleum industry: monitoring of oil and gas pipelines, gas storage tanks, oil storage tanks, and permanent underground monitoring

Petrochemical industry: monitoring of liquid storage tanks and transmission pipelines

Power industry: monitoring of cables and transmission lines, cable trenches, cable tunnels, and cable trays

Grain industry: granary monitoring

Security Industry: Fire Detection for Tunnels and Special Fire Hazard Buildings

Transportation industry: cable and transmission line monitoring

Other industries: Distributed fiber optic temperature measurement systems can also be used in military depots, dangerous goods warehouses, dams, transmission belts, coal handling bridges, coal storage yards, and other situations that require continuous temperature measurement in space. They are an ideal upgrade substitute for traditional temperature measurement methods (temperature sensing cables, temperature measurement cables).

The manufacturer of distributed temperature sensing fiber optic cable and temperature measurement host can contact FJINNO for quotation

Temperature measurement fiber optic cable model, temperature measurement fiber optic cable manufacturer specifications, production customization, supply as needed

Application comprehensive pipe gallery/tunnel/highway/oil tank/warehouse/mine/cable/oil and gas pipeline

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