期刊
CHEMOMETRICS AND INTELLIGENT LABORATORY SYSTEMS
卷 99, 期 2, 页码 150-160出版社
ELSEVIER
DOI: 10.1016/j.chemolab.2009.09.004
关键词
Partial least squares; Radial basis function partial least squares; Artificial neural network; Feed-forward; Back-propagation; Removal efficiency
类别
资金
- CSIR, New Delhi
Linear and nonlinear partial least squares (PLS) regression and three-layer feed-forward artificial neural network (ANN) models were constructed to predict the removal efficiency (RE%) of the coconut fibers carbon (FC) for 2-chlorophenol (2-CP) from aqueous solutions based on 800 experimental sets obtained in a laboratory batch study. The effect of operational variables, such as pH, initial concentration of the adsorbate, contact time and operating temperature were studied to optimize the conditions for maximum removal of 2-CP from water. The root mean square error of prediction (RMSEP), relative error of prediction (REP), coefficient of determination (R-2), Nash-Sutcliffe coefficient of efficiency (E-f), and the accuracy factor (A(f)) were used as the modeling performance criteria. Performance of all the three models in predicting the removal efficiency of the studied adsorbate-adsorbent system was satisfactory. The linear PLS, nonlinear PLS and ANN models (prediction) yielded the REP of 10.19, 9.88 and 7.98, respectively. The correlation coefficient between the model predicted and experimental values of the removal efficiency was 0.87.0.88 and 0.96 for the linear PLS, nonlinear PLS and ANN models. respectively. However, the nonlinear PLS and ANN models performed relatively better than the linear PLS due to the capability of the earlier ones in capturing the non-linear relationships in the variables. All the three models can be employed for predicting the adsorption capacity. (C) 2009 Elsevier B.V. All rights reserved.
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