Universiti Teknologi Malaysia Institutional Repository

QSPR prediction of the hydroxyl radical rate constant of water contaminants

Borhani, T. N. G. and Saniedanesh, M. and Bagheri, M. and Lim, J. S. (2016) QSPR prediction of the hydroxyl radical rate constant of water contaminants. Water Research, 98 . pp. 344-353. ISSN 0043-1354

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Official URL: https://www.scopus.com/inward/record.uri?eid=2-s2....

Abstract

In advanced oxidation processes (AOPs), the aqueous hydroxyl radical (HO) acts as a strong oxidant to react with organic contaminants. The hydroxyl radical rate constant (kHO) is important for evaluating and modelling of the AOPs. In this study, quantitative structure-property relationship (QSPR) method is applied to model the hydroxyl radical rate constant for a diverse dataset of 457 water contaminants from 27 various chemical classes. The constricted binary particle swarm optimization and multiple-linear regression (BPSO-MLR) are used to obtain the best model with eight theoretical descriptors. An optimized feed forward neural network (FFNN) is developed to investigate the complex performance of the selected molecular parameters with kHO. Although the FFNN prediction results are more accurate than those obtained using BPSO-MLR, the application of the latter is much more convenient. Various internal and external validation techniques indicate that the obtained models could predict the logarithmic hydroxyl radical rate constants of a large number of water contaminants with less than 4% absolute relative error. Finally, the above-mentioned proposed models are compared to those reported earlier and the structural factors contributing to the AOP degradation efficiency are discussed.

Item Type:Article
Uncontrolled Keywords:Complex networks, Contamination, Degradation, Forecasting, Linear regression, Particle swarm optimization (PSO), Water pollution, AOPs, BPSO-MLR, FFNN, Hydroxyl radicals, QSPR, Water contaminants, Rate constants, hydroxyl radical, hydroxyl radical, water, constant, degradation, hydroxyl radical, multivariate analysis, optimization, organic pollutant, oxidant, oxidation, prediction, regression analysis, Article, artificial neural network, binary particle swarm optimization and multiple linear regression, feed forward neural network, prediction, priority journal, quantitative structure property relation, statistical analysis, water contamination, water pollutant, chemistry, quantitative structure activity relation, statistical model, water pollution, Hydroxyl Radical, Linear Models, Quantitative Structure-Activity Relationship, Water, Water Pollution
Subjects:T Technology > TP Chemical technology
Divisions:Chemical Engineering
ID Code:72388
Deposited By: Narimah Nawil
Deposited On:20 Nov 2017 08:23
Last Modified:20 Nov 2017 08:23

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