Designed for peak performance
and reliability
The Silicon Carbide (SiC) Flame Tracker dramatically improves gas turbine performance while significantly reducing maintenance requirements. Available for a variety of gas turbines, the Flame Tracker flame sensor’s optical photodiode is designed for use with multiple fuels, low nitrogen oxide (NOx) combustors and steam injection. Reliable turbine operations using dry low NOx combustion require the sensitivity provided by the Flame Trackers.
Advantages
High sensitivity, fast response
Flame Tracker, with its SiC photodiode, has high sensitivity to the longer UV wavelengths that easily penetrate the fog of fuel and steam. This is advantageous over typical flame sensors that are sensitive to only the short UV wavelengths. In addition, the SiC sensor has an analog output with a very wide dynamic range and rapid response time. These features offer the ability to quickly—in less than 0.025 seconds—report flame status. This means interruption-free service and improved availability.
Reduced maintenance
The Flame Tracker flame sensor is equipped with quick disconnect connectors, allowing sensor replacement time to be reduced from hours to minutes. Its improved sensor-cooling feature lowers the impact of surrounding heat and extends the life of electronics.
Customized conversion kits
Customized flame sensor conversion kits are available for all turbine configurations. These sensor enhancements are mechanically and electrically interchangeable with existing systems. The kit solution simplifies upgrading older, maintenance-intensive systems to the superior performance of the Flame Tracker.
Multiple applications
Designed to replace outdated technology, the Flame Tracker is applicable to a variety of land-based and marine-based gas turbines, regardless of size. In addition, it is ETL, ATEX, and
IECEx certified.
Reliable, low-voltage operation
Providing a 4–20 mA industry-standard output signal, the Flame Tracker operates reliably with any fuel—with or without— steam injection. Unlike older flame sensors that require high voltage for operation, the Flame Tracker requires low voltage, which eliminates special wiring and explosion-proof conduit requirements.
Specifications
Sensor responsivity and hydrocarbon flame
emission spectrum
Spectral response
Performance benefits
• Provides reliable operation when using any fuel
• Allows full operation during the water wash cycle
• Reduces maintenance time
• Operates on low voltage
• Provides rapid response to flameout
• Produces a wide dynamic range
• Customized conversion kits
• Meets all NFPA guidelines for flame detection on gas turbines
24 VDC nominal, 12-30 VDC @ 100 mA
4-20 mA (a module to convert output to other controller inputs is available)
< 0.025 seconds
-20ºF to +300ºF (-30ºC to +150ºC), 455ºF (235ºC) with specified water or air cooling
To 400 psig (2.8 MPa)
5 mA @ 1x1010 photons/in2/sec. @ 310 nm
AISI 316 stainless steel
AISI 304 stainless steel (sealed and Argon filled)
3/4" NPT female
MIL-C-38999 series III size 15 (5pin)
Silicon Carbide (SiC) photodiode