In the realm of generator condition monitoring, Fiberoptiske temperatursensorer (FOTS) have emerged as a game-changing technology. This article provides an in-depth exploration of fiber optic temperature sensors for generator windings, covering their working principles, Fordeler, system components, applications, and future development trends.

How Fiber Optic Temperature Sensors Work

Fiber optic temperature sensors for generator windings primarily rely on fluorescence eller fiber Bragg grating (FBG) Teknologi. In fluorescence-based systems, a rare-earth doped fluorescent core is used. When excited by a light source, the fluorescent material emits light, og decay time of this emission is temperature-dependent. By measuring the decay time, the temperature can be accurately determined.

FBG-based sensors, på den andre siden, use a periodic variation in the refractive index of the fiber core to create a grating that reflects specific wavelengths of light. Temperature changes cause the grating pitch to change, altering the reflected wavelength, which is then measured to determine the temperature. For instance, FJINNO’s fiber optic sensors utilize fluorescence technology to achieve precise temperature measurements.

Key Advantages of Fiber Optic Temperature Sensors for Generator Windings

EMI/RFI Immunity

Generators are characterized by high electric and magnetic fields. Traditional temperature sensors like resistance temperature detectors (RTDs) og thermocouples are prone to elektromagnetisk interferens (EMI) og radio frequency interference (RFI), leading to measurement inaccuracies. Fiber optic temperature sensors, being non-metallic and non-magnetic, are immune to EMI/RFI, ensuring reliable temperature measurements in high-voltage environments.

Direct Hotspot Temperature Measurement

Generator winding hotspots are often located deep within the windings, making them difficult to access. Traditional sensors struggle to provide accurate temperature measurements of these critical points. Fiberoptiske sensorer can be embedded directly into the windings, enabling Overvåking i sanntid of hotspot temperatures and providing a more accurate assessment of winding insulation conditions.

Fast Response Time

Fiber optic temperature sensors can quickly respond to temperature changes, especially during sudden load variations. This rask respons allows for timely detection of overheating issues, enabling operators to take immediate action and prevent damage to the generator.

Long-Term Stability and Accuracy

Fiber optic temperature sensors offer high long-term stability and measurement accuracy, typically with an accuracy of ±1.0°C or better. They can maintain their performance over the generator’s lifespan without requiring frequent calibration.

Compatibility with Smart Grids

Fiber optic temperature sensors can be integrated with smart grid systems. They provide real-time temperature data that aids in optimizing generator operation, improving grid reliability, and supporting dynamic load management.

System Components of Fiber Optic Temperature Sensors for Generator Windings

Fiber Optic Probes

The core component of the system, fiber optic probes are designed to withstand the harsh environment within generators. They are typically made of materials with high dielectric strength, for eksempel quartz eller polymer fibers coated with protective layers like PTFE, to ensure long-term stability and reliability.

Temperature Transmitters (Signal Conditioners)

These devices convert the optical signals from the fiber optic probes into temperature measurements. They often feature familiar analog outputs og digital buses like RS-485, making integration with existing PLCs and monitoring software straightforward.

Optical Feedthroughs

Installed on the generator’s housing, optical feedthroughs allow the monitoring light signal to travel to the sensor tip and back to the monitor. They ensure a secure and stable optical connection while maintaining the generator’s insulation performance.

Signal Processing Units

Den signal processing unit is responsible for processing the temperature data from the fiber optic probes. It performs tasks such as signal amplification, filtering, og digitization, converting the optical signals into usable temperature data.

Monitoring Software

Advanced monitoring software collects, analyzes, and displays real-time temperature data from the fiber optic temperature sensors. It can also perform functions like data logging, SCADA interconnection, and generating alarm signals when temperature thresholds are exceeded.

Applications of Fiber Optic Temperature Sensors in Generator Windings

Monitoring Stator Winding Temperatures

The primary application of Fiberoptiske temperatursensorer in generator windings is monitoring stator winding temperatures. By accurately measuring the temperature at the hottest spots in the stator windings, operators can assess the insulation aging condition of the generator and optimize its operating load to extend its service life.

Detecting Overheating Faults

Fiber optic temperature sensors can quickly detect overheating faults in generator windings. When a generator experiences overload or malfunction, the temperature at certain points will rise rapidly. The sensors can promptly detect these temperature increases and send alarm signals to enable timely maintenance and repair, preventing faults from escalating and avoiding costly equipment damage and power outages.

Supporting Dynamic Loading of Generators

With real-time temperature data provided by Fiberoptiske temperatursensorer, operators can dynamically adjust the generator’s load based on its actual temperature conditions. This allows generators to operate at higher loads while ensuring winding temperatures remain within safe limits, thereby improving the generator’s utilization efficiency og economic benefits.

Installation and Commissioning of Fiber Optic Temperature Sensors

Installation During Generator Manufacturing

Fiber optic temperature sensors are typically installed during the generator manufacturing process. Probes are strategically placed adjacent to the hottest spots in the windings, usually within key spacers. Each fiber probe is then routed through the generator housing to the weld-on flange plate, where the fibers exit the housing and connect to the monitoring system.

Commissioning and Calibration

After installation, den Fiberoptisk temperatursensor system must be commissioned and calibrated to ensure accurate temperature measurements. This involves checking the connections between the sensors and the monitoring system, verifying the functionality of the monitoring software, og calibrating the sensors using standard temperature sources to ensure measurement accuracy.

Case Studies and Application Examples

FJINNO’s Fiber Optic Temperature Sensors

FJINNO’s fiber optic temperature sensors have been widely adopted in medium and high-voltage generator equipment. Their sensors can be installed where high-voltage and alternating electromagnetic fields pose problems for traditional RTD winding sensors. By inserting fiber sensors between the windings of motors and generators, continuous temperature measurement is enabled to protect insulation and extend maintenance schedules. Operators can monitor load conditions in real-time, maximizing energy and economic efficiencies.

Application in Hydropower Generators

De siste årene, Fiberoptiske temperatursensorer have been increasingly applied in hydropower generators. For eksempel, some new hydropower stations have incorporated fiber optic temperature monitoring technology into their generator stator temperature online monitoring systems from the outset of construction. During the design and production of the generator, fiber optic sensors are embedded in the stator windings. This allows for real-time monitoring of stator winding temperatures, providing accurate temperature data to ensure the safe and stable operation of the generator.

Future Development Trends

Technological Innovation and Performance Improvement

Ongoing research and development will focus on enhancing the performance of Fiberoptiske temperatursensorer, such as improving målenøyaktighet, reducing response time, and increasing sensor durability and reliability. New types of fiber optic temperature sensors based on advanced materials and technologies will emerge to meet the diverse needs of generator winding temperature monitoring.

Integration with Intelligent Generator Systems

As the smart grid continues to develop, Fiberoptiske temperatursensorer will become an integral part of intelligent generator systems. They will be deeply integrated with other sensors and monitoring devices to provide comprehensive information on generator operating conditions. This integration will enable intelligent diagnosis and analysis of generator status, supporting the realization of unattended substations og automated grid operations.

Cost Reduction and Wider Application

Nå, the cost of Fiberoptiske temperatursensorer is relatively high, limiting their widespread adoption to some extent. In the future, with technological advancements and economies of scale, the cost of fiber optic temperature sensors is expected to decrease gradually. This will promote their broader application in generators of various voltage levels and capacities, driving the development of the generator monitoring market.