Title :
Aeroderivative gas turbine lean blowout (LBO) detection and isolation using acoustic precursors
Author_Institution :
GE Global Res., Shanghai, China
Abstract :
This paper studies an online algorithm that can effectively detect a complete blowout (LBO) and a partial or incipient blowout (IBO) as well as isolate them in one specific ring by using only one acoustic sensor. The outputs can guide the successive blowout avoidance control logic by taking appropriate corrective action on the ring causing blowout or being blowout. The proposed algorithm is based on the RMS value of a tone around 15 Hz to 30 Hz that was identified as a precursor to blowout. Spectral signatures in other dominant tones were also identified as indications to assist ring IBO isolation. Its performance was successfully demonstrated with field data of GE LM2500 and LM6000PD machine.
Keywords :
acoustic signal processing; gas turbines; GE LM2500; LBO; LM6000PD machine; RMS value; acoustic precursors; acoustic sensor; aeroderivative gas turbine lean blowout detection; aeroderivative gas turbine lean blowout isolation; complete blowout; corrective action; incipient blowout; partial blowout; ring IBO isolation; spectral signatures; successive blowout avoidance control logic; Acoustic sensor; Lean Blowout (LBO); Windowed FFT;
Conference_Titel :
Signal Processing (ICSP), 2014 12th International Conference on
Conference_Location :
Hangzhou
Print_ISBN :
978-1-4799-2188-1
DOI :
10.1109/ICOSP.2014.7014994
