Title :
On-line fuel identification using digital signal processing and fuzzy inference techniques
Author :
Xu, Lijun ; Yan, Yong ; Cornwell, Steve ; Riley, Gerry
Author_Institution :
Instrum. & Embedded Syst. Res. Group, Univ. of Kent, UK
Abstract :
This paper presents a novel approach for on-line fuel identification using digital signal processing (DSP) and fuzzy inference techniques. A flame detector containing three photodiodes is used to derive multiple signals covering a wide spectrum of the flame from infrared to ultraviolet through visible band. Advanced digital signal processing and fuzzy inference techniques are deployed to identify the dynamic "fingerprints" of the flame both in time and frequency domains and ultimately the type of coal being burnt. A series of experiments was carried out using a 0.5-MWth combustion test facility operated by RWE Innogy plc, UK. The results obtained demonstrate that this approach can be used to identify the type of coal being burnt under steady combustion conditions.
Keywords :
coal; combustion; flames; fuzzy logic; fuzzy systems; inference mechanisms; photodiodes; signal processing; 0.5 MW; DSP; RWE Innogy plc; UK; coal type; combustion test facility; digital signal processing; dynamic fingerprints; flame detector; flame spectra; frequency domain; fuzzy inference; fuzzy logic; infrared band; online fuel identification; photodiodes; soft computing; time domain; ultraviolet band; visible band; Combustion; Digital signal processing; Fingerprint recognition; Fires; Frequency domain analysis; Fuels; Infrared detectors; Infrared spectra; Photodiodes; Test facilities; Combustion; DSP; digital signal processing; flame detector; fuel identification; fuzzy logic; soft-computing;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2004.830573
