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Correlation of Liquid-Liquid Equilibrium of Four Binary Hydrocarbon-Water Systems, Using an Improved Artificial Neural Network Model
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 Title & Authors
Correlation of Liquid-Liquid Equilibrium of Four Binary Hydrocarbon-Water Systems, Using an Improved Artificial Neural Network Model
Lv, Hui-Chao; Shen, Yan-Hong;
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 Abstract
A back propagation artificial neural network model with one hidden layer is established to correlate the liquid-liquid equilibrium data of hydrocarbon-water systems. The model has four inputs and two outputs. The network is systematically trained with 48 data points in the range of 283.15 to 405.37K. Statistical analyses show that the optimised neural network model can yield excellent agreement with experimental data(the average absolute deviations equal to 0.037% and 0.0012% for the correlated mole fractions of hydrocarbon in two coexisting liquid phases respectively). The comparison in terms of average absolute deviation between the correlated mole fractions for each binary system and literature results indicates that the artificial neural network model gives far better results. This study also shows that artificial neural network model could be developed for the phase equilibria for a family of hydrocarbon-water binaries.
 Keywords
Hydrocarbon-water system;Liquid-liquid equilibrium;Artificial neural network;Correlation;
 Language
English
 Cited by
1.
Modeling of the phase equilibria of aqueous two-phase systems using three-dimensional neural network, Korean Journal of Chemical Engineering, 2017, 34, 1, 170  crossref(new windwow)
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