Talu, Muhammed FatihOnat, CemDaskin, Mahmut2024-08-042024-08-0420171000-93452192-8258https://doi.org/10.1007/s10033-017-0095-3https://hdl.handle.net/11616/97910In this study, the relationship between the visual information gathered from the flame images and the excess air factor lambda in coal burners is investigated. In conventional coal burners the excess air factor lambda. can be obtained using very expensive air measurement instruments. The proposed method to predict lambda for a specific time in the coal burners consists of three distinct and consecutive stages; a) online flame images acquisition using a CCD camera, b) extraction meaningful information (flame intensity and brightness)from flame images, and c) learning these information (image features) with ANNs and estimate lambda. Six different feature extraction methods have been used: CDF of Blue Channel, Co-Occurrence Matrix, L (a)-Frobenius Norms, Radiant Energy Signal (RES), PCA and Wavelet. When compared prediction results, it has seen that the use of co-occurrence matrix with ANNs has the best performance (RMSE = 0.07) in terms of accuracy. The results show that the proposed predicting system using flame images can be preferred instead of using expensive devices to measure excess air factor in during combustion.eninfo:eu-repo/semantics/closedAccessExcess air factorFlame imagesCoal burnerArticle30372273110.1007/s10033-017-0095-32-s2.0-85026515379Q1WOS:000400857300022N/A