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Application of FBG Sensing Technology in Nuclear industry/nuclear power field - Fiber Bragg Grating Application - FBG Sensor Application - FBG Demodulator Application

Fiber bragg grating (FBG) sensing technology has found a wide range of applications in the nuclear industry due to its numerous advantages, including high accuracy, remote sensing capability, and immunity to electromagnetic interference. In this article, we will outline some of the specific applications of fiber bragg grating (FBG) sensing technology in the nuclear industry.

 

Radiation Monitoring

One of the primary applications of FBG sensing technology in the nuclear industry is in radiation monitoring. Fiber bragg gratings (FBGs) can be used to detect ionizing radiation, including gamma rays and neutrons. This technology enables continuous, remote, and real-time monitoring of radiation levels in nuclear power plants, nuclear waste storage facilities, and other nuclear facilities.

Physical Diagram of OFSCN® 300°C Capillary Seamless Steel Tube FBG Temperature Sensor(01 type, single-ended)

 

Temperature Monitoring

Temperature is a crucial parameter in nuclear reactors and other nuclear facilities. FBGs can be used to measure temperature accurately and continuously in harsh nuclear environments. The technology allows for distributed temperature sensing, which can provide temperature profiles along the entire length of the optical fiber.

 

Strain Monitoring

FBGs can also be used to monitor strain in various nuclear components, including pipes, pressure vessels, and reactor vessels. The technology can provide real-time data on the structural health of these components, enabling early detection of potential failures and preventing accidents.

Physical Diagram of OFSCN® 300°C Capillary Seamless Steel Tube FBG Temperature Sensor(01 type)

 

Water Level Monitoring

In nuclear reactors, water is used as a coolant and a neutron moderator. Accurate monitoring of the water level in the reactor is critical to prevent accidents. FBG sensors can be used to measure water level accurately and continuously, enabling early detection of any anomalies.

 

Fuel Rod Monitoring

Fuel rods are a crucial component of nuclear reactors. FBG sensors can be used to monitor the fuel rod temperature, strain, and other parameters, enabling real-time data on the fuel rod's condition. This information can be used to optimize the reactor's performance and prevent accidents.

Physical Diagram of OFSCN® High-Range Fiber Bragg Grating (FBG) Strain Sensor (Strain Gauge) - Single-ended, Length 1m­­

 

In conclusion, FBG sensing technology has numerous applications in the nuclear industry. Its high accuracy, remote sensing capability, and immunity to electromagnetic interference make it an attractive option for various monitoring and sensing applications in nuclear reactors and other nuclear facilities.

Title
FBG Sensing Technology for the Temperature Monitoring of Nuclear Reactor in Nuclear Power Field
FBG Sensing Technology for the Temperature Monitoring of Nuclear Power Facilities
FBG Sensing Technology for the Strain Monitoring of Nuclear Power Facilities
FBG Sensing Technology for the Temperature Monitoring of Nuclear Fuel Rod
FBG Sensing Technology for the Study of Various Material Properties in Scientific Research