REPRESENTATION OF IONIC LIQUID VISCOSITY-TEMPERATURE DATA BY GENERALIZED CORRELATIONS AND AN ARTIFICIAL NEURAL NETWORK (ANN) MODEL.

Autor:	Dutt, N.V. K., Ravikumar, Y.V. L., Rani, K.Yamuna
Předmět:	IONIC liquids EFFECT of temperature on viscosity ARTIFICIAL neural networks ATMOSPHERIC pressure ARRHENIUS equation CHEMICAL engineering
Zdroj:	Chemical Engineering Communications; Dec2013, Vol. 200 Issue 12, p1600-1622, 23p, 1 Diagram, 3 Charts, 2 Graphs
Abstrakt:	Ionic liquid (IL) viscosity (η)-temperature (T) data (at atmospheric pressure) are represented by an artificial neural network (ANN) model and the reduced forms of the Arrhenius, Vogel-Tamman-Fulcher (VTF), Arrhenius + higher order T-terms, and VTF + higher order T-term models. Training the data of 73 liquids (comprised of 5 cations and 32 anions) at 654 data points by a 2-7-1 neural network model (with inverse reduced temperature with respect to 323.15 K and logarithm of viscosity at 323.15 K as input neurons) yielded an overall percent deviation () of 6.6% and a coefficient of determination (R2) equal to 0.9. The other four models, in contrast, yielded values ofandR2ranging between (21.2% and 21.7%) and (0.80 and 0.81), respectively. Testing the models with the data on an additional set of 8 ILs at 82 points yielded values ofandR2comparable to those in the case of training. The results obtained show that the neural network scheme provides reasonably accurate viscosity estimates. On the other hand, the other four models could be used for design purposes, providing for approximate calculations. [Supplementary materials are available for this article. Go to the publisher's online edition ofChemical Engineering Communicationsfor the following free supplemental resources: supplementary data tables.] [ABSTRACT FROM AUTHOR]
Databáze:	Complementary Index
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