King Abdullah University of Science and Technology, Thuwal, Saudi Arabia.
Chemosphere. 2012 Apr;87(2):144-50. doi: 10.1016/j.chemosphere.2011.12.006. Epub 2012 Jan 14.
Ozonation is an advanced water treatment process used to remove organic micropollutants (OMPs) such as pharmaceuticals and personal care products (PPCPs). In this study, Quantitative Structure Activity Relationship (QSAR) models, for ozonation and advanced oxidation process (AOP), were developed with percent-removal of OMPs by ozonation as the criterion variable. The models focused on PPCPs and pesticides elimination in bench-scale studies done within natural water matrices: Colorado River, Passaic River, Ohio River and Suwannee synthetic water. The OMPs removal for the different water matrices varied depending on the water quality conditions such as pH, DOC, alkalinity. The molecular descriptors used to define the OMPs physico-chemical properties range from one-dimensional (atom counts) to three-dimensional (quantum-chemical). Based on a statistical modeling approach using more than 40 molecular descriptors as predictors, descriptors influencing ozonation/AOP were chosen for inclusion in the QSAR models. The modeling approach was based on multiple linear regression (MLR). Also, a global model based on neural networks was created, compiling OMPs from all the four river water matrices. The chemically relevant molecular descriptors involved in the QSAR models were: energy difference between lowest unoccupied and highest occupied molecular orbital (E(LUMO)-E(HOMO)), electron-affinity (EA), number of halogen atoms (#X), number of ring atoms (#ring atoms), weakly polar component of the solvent accessible surface area (WPSA) and oxygen to carbon ratio (O/C). All the QSAR models resulted in a goodness-of-fit, R(2), greater than 0.8. Internal and external validations were performed on the models.
臭氧化是一种高级水处理工艺,用于去除有机微量污染物(OMPs),如药品和个人护理产品(PPCPs)。在本研究中,开发了定量结构活性关系(QSAR)模型,用于臭氧化和高级氧化工艺(AOP),以臭氧化去除有机微量污染物的百分比作为标准变量。该模型主要针对在天然水基质(科罗拉多河、帕塞伊克河、俄亥俄河和苏万尼合成水)的实验室规模研究中去除 PPCPs 和农药。不同水基质的 OMPs 去除率取决于水质条件,如 pH、DOC、碱度。用于定义 OMPs 物理化学性质的分子描述符范围从一维(原子计数)到三维(量子化学)。基于使用超过 40 个分子描述符作为预测因子的统计建模方法,选择了影响臭氧化/AOP 的描述符纳入 QSAR 模型。该建模方法基于多元线性回归(MLR)。此外,还创建了一个基于神经网络的全局模型,该模型汇总了来自所有四个河流水质矩阵的 OMPs。涉及 QSAR 模型的化学相关分子描述符包括:最低未占据分子轨道和最高占据分子轨道之间的能量差(E(LUMO)-E(HOMO))、电子亲和力(EA)、卤素原子数(#X)、环原子数(#ring atoms)、溶剂可及表面积的弱极性分量(WPSA)和氧碳比(O/C)。所有 QSAR 模型的拟合优度(R(2))都大于 0.8。对模型进行了内部和外部验证。
