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Pbkp_rediction of the cetane number of biodiesel using artificial neural networks and multiple linear regression

Abstract:

Models for estimation of cetane number of biodiesel from their fatty acid methyl ester composition using multiple linear regression and artificial neural networks were obtained in this work. For the obtaining of models to pbkp_redict the cetane number, an experimental data from literature reports that covers 48 and 15 biodiesels in the modeling-training step and validation step respectively were taken. Twenty-four neural networks using two topologies and different algorithms for the second training step were evaluated. The model obtained using multiple regression was compared with two other models from literature and it was able to pbkp_redict cetane number with 89% of accuracy, observing one outlier. A model to pbkp_redict cetane number using artificial neural network was obtained with better accuracy than 92% except one outlier. The best neural network to pbkp_redict the cetane number was a backpropagation network (11:5:1) using the Levenberg-Marquardt algorithm for the second step of the networks training and showing R = 0.9544 for the validation data. © 2012 Elsevier Ltd. All rights reserved.