Qsar for organics adsorption onto activated carbon in water: What about the use of neural networks?

被引：37

作者：

Brasquet, C ^{[1
]}

Le Cloirec, P ^{[1
]}

机构：

[1] Ecole Mines Nantes, DSEE, Ctr Genie Procedes Environm, F-44307 Nantes 3, France

来源：

WATER RESEARCH | 1999年 / 33卷 / 17期

关键词：

activated carbon; adsorption; connectivity indexes; neural network; quantitative structure-activity relationships; water treatment;

D O I：

10.1016/S0043-1354(99)00074-3

中图分类号：

X [环境科学、安全科学];

学科分类号：

08 ; 0830 ;

摘要：

This study investigates the ability of neural networks to estimate by a quantitative structure-activity relationship the adsorbability onto activated carbon of a wide range of organics in water. Adsorption data from several sources and molecular connectivity indexes constituted a training data set of 368 aliphatic and aromatic compounds. The neural network architecture was optimized to obtain a three-layer neural network, composed of four input neurons, three hidden neurons and one output neuron. A good correlation was obtained (r(2)=0.875), the statistical results being better and less time-consuming than those obtained by Blum et al. (1994) [Blum D. J. W., Suffet I. H. and Duguet J. P. (1994) Quantitative structure-activity relationship using molecular connectivity for the activated carbon adsorption of organic chemicals in water, Water Res. 28(3), 687-699] with the same data set using a regression analysis. The predictive ability of the neural network was tested with 16 new compounds. The results were satisfactory but slightly lower than those obtained by the regression analysis. The weight-partitioning method was applied to assess the relative importance of the input variables on the adsorbability. (C) 1999 Elsevier Science Ltd. All rights reserved.

引用

页码：3603 / 3608

页数：6

共 31 条

[1] ADSORPTIVE MECHANISM ON ACTIVATED CARBON IN THE LIQUID-PHASE .1. FREE-ENERGY CHANGE FOR ADSORPTION OF ORGANIC-COMPOUNDS FROM AQUEOUS-SOLUTION ON ACTIVATED CARBON [J].

ABE, I ;

HAYASHI, K ;

KITAGAWA, M ;

URAHATA, T .

BULLETIN OF THE CHEMICAL SOCIETY OF JAPAN, 1979, 52 (07) :1899-1904

[2] PREDICTION OF ADSORBABILITY OF ORGANIC-COMPOUNDS FROM AQUEOUS-SOLUTION ON ACTIVATED CARBON BY MEANS OF THE LINEAR FREE-ENERGY RELATIONSHIP [J].

ABE, I ;

HAYASHI, K ;

KITAGAWA, M ;

HIRASHIMA, T .

BULLETIN OF THE CHEMICAL SOCIETY OF JAPAN, 1983, 56 (04) :1002-1005

[3] THE ADSORPTION OF AMINO-ACIDS FROM WATER ON ACTIVATED CARBONS [J].

ABE, I ;

HAYASHI, K ;

KITAGAWA, M .

BULLETIN OF THE CHEMICAL SOCIETY OF JAPAN, 1982, 55 (03) :687-689

[4] ESTIMATING EQUILIBRIUM ADSORPTION OF ORGANIC-COMPOUNDS ON ACTIVATED CARBON FROM AQUEOUS-SOLUTION [J].

ARBUCKLE, WB .

ENVIRONMENTAL SCIENCE & TECHNOLOGY, 1981, 15 (07) :812-819

[5] CORRELATION BETWEEN STRUCTURE AND NORMAL BOILING POINTS OF HALOALKANES C-1-C-4 USING NEURAL NETWORKS [J].

BALABAN, AT ;

BASAK, SC ;

COLBURN, T ;

GRUNWALD, GD .

JOURNAL OF CHEMICAL INFORMATION AND COMPUTER SCIENCES, 1994, 34 (05) :1118-1121

[6] Neuronet modeling of VOC adsorption by GAC [J].

Basheer, IA ;

Najjar, YM ;

Hajmeer, MN .

ENVIRONMENTAL TECHNOLOGY, 1996, 17 (08) :795-806

[7] SELECTIVE ADSORPTION OF ORGANIC HOMOLOGS ONTO ACTIVATED CARBON FROM DILUTE AQUEOUS-SOLUTIONS - SOLVOPHOBIC INTERACTION APPROACH .4. EFFECT OF SIMPLE STRUCTURAL MODIFICATIONS WITH ALIPHATICS [J].

BELFORT, G ;

ALTSHULER, GL ;

THALLAM, KK ;

FEERICK, CP ;

WOODFIELD, KL .

AICHE JOURNAL, 1984, 30 (02) :197-207

[8]

BELFORT G, 1984, FUNDAMENTALS ADSORPT

[9] QUANTITATIVE STRUCTURE-ACTIVITY RELATIONSHIP USING MOLECULAR CONNECTIVITY FOR THE ACTIVATED CARBON ADSORPTION OF ORGANIC-CHEMICALS IN WATER [J].

BLUM, DJW ;

SUFFET, IH ;

DUGUET, JP .

WATER RESEARCH, 1994, 28 (03) :687-699

[10]

BODOR N, 1991, J AM CHEM SOC, V113, P272

← 1 2 3 4 →