화학공학소재연구정보센터
Chemistry and Technology of Fuels and Oils, Vol.48, No.1, 67-74, 2012
PREDICTION OF DIESEL FUEL COLD PROPERTIES USING ARTIFICIAL NEURAL NETWORKS
In this paper, two neural networks, multilayer perceptron and networks with radial-basis function, were used to predict important cold properties of commercial diesel fuels, namely cloud point and cold filter plugging point. The developed models predict the named properties using cetane number, density, viscosity, contents of total aromatics, and distillation temperatures at 10, 50, and 90 vol. % recovery as input data. The training algorithms, number of hidden layer neurons, and number of training data points were optimized in order to obtain a model with optimal predictive ability. The results indicated better prediction of cloud and cold filter plugging points in the case of multilayer perceptron networks. The obtained absolute error mean for the optimal neural network models (0.58 degrees C for the cloud point and 1.46 degrees C for the cold filter plugging point) are within the range of repeatability of standard cold properties determination methods.