Identyfikatory
DOI
Warianty tytułu
Języki publikacji
Abstrakty
In this study, advanced oxidation processes (AOPs), Fenton process, was applied to degrade ten amine collectors. The experimental results indicated that most of the tested amines could be removed rapidly and effectively at pH=4, while the degradation of quaternary ammonium compounds was less than others. To research the Fenton oxidation process, the degradation-rate constants of amine collectors were calculated by the pseudo-second order kinetic model, then which was used as the dependent variable to establish a quantitative structure activity relationship (QSAR) model. Meanwhile, 16 molecular structure descriptors and quantum mechanical parameters for amine collectors were simulated and analyzed by using Materials Studio software. The optimum QSAR model was established based on the partial least squares regression (PLS) method and confirmed by the statistics analysis. The model revealed that hydrogen bond acceptor (HBA) and the maximum values of electrophilic attack in C atom sites (f(-)c) were the major effect factors for the degradation-rate constants of amine collector.
Słowa kluczowe
Rocznik
Tom
Strony
713--721
Opis fizyczny
Bibliogr. 33 poz., rys., tab.
Twórcy
autor
- School of Resources and Civil Engineering, Northeastern University, Shenyang 110819, China
autor
- School of Resources and Civil Engineering, Northeastern University, Shenyang 110819, China
- liuwengang@mail.neu.edu.cn
autor
- School of Resources and Civil Engineering, Northeastern University, Shenyang 110819, China
autor
- School of Resources and Civil Engineering, Northeastern University, Shenyang 110819, China
Bibliografia
- AL-WABLI, R.I., RESMI, K., MARY, Y.S., PANICKR, C.Y., ATTIA, M.I., EL-EMAM, A.A., VAN ALSENOY, C., 2016. Vibrational spectroscopic studies, Fukui functions, HOMO-LUMO, NLO, NBO analysis and molecular docking study of (E)-1-(1, 3-benzodioxol-5-yl)-4, 4-dimethylpent-1-en-3-one, a potential precursor to bioactive agents.Journal of Molecular Structure, 1123, 375-383.
- ARAUJO, D.M.D., YOSHIDA, M.I., TAKAHASHI, J.A., CARVALHO, C.D.F., STAPELFELDT, F., 2010. Biodegradation studies on fatty amines used for reverse flotation of iron ore. International Biodeterioration &Biodegradation, 64, 151-155.
- AYERS, P.W., PARR, R.G., 2000. Variational principles for describing chemical reactions: the Fukui function and chemical hardness revisited. Journal of the American Chemical Society, 122, 2010-2018.
- BELANGER, S.E., BRILL, J.L., RAWLINGS, J.M., MCDONOUGH, K.M., ZOLLER, A.C., WEHMEYER K.R., 2016. Aquatic toxicity structure-activity relationships for the zwitterionic surfactant alkyl dimethyl amine oxide to several aquatic species and a resulting species sensitivity distribution. Ecotoxicology and Environmental Safety, 134, 95-105.
- BÖRNICK, H., EPPINGER, P., GRISCHEK, T., WORCH E., 2001. Simulation of Biological Degradation of Aromatic Amines in River Bed Sediments. Water Research, 35, 619-624.
- CALGAROTO, S., AZEVEDO, A., RUBIO, J., 2016. Separation of amine-insoluble species by flotation with nano and microbubbles. Minerals Engineering, 89, 24-29.
- CARROLL, R.J., RUPPERT, D., 1988. Transformation and weighting in regression. CRCPress.
- DEL GIACCO, T., GERMANI, R., SARACINO, F., STRADIOTTO, M., 2017. Counterion effect of cationic surfactants on the oxidative degradation of Alizarin Red-S photocatalysed by TiO2 in aqueous dispersion. Journal of Photochemistry and Photobiology A: Chemistry, 332, 546-553.
- DEO, N., NATARAJAN, K.A., 1998. Biological removal of some flotation collector reagents from aqueous solutions and mineral surfaces. Minerals Engineering, 11, 717-738.
- ELHALIL, A., TOUNSADI, H., ELMOUBARKI, R., MAHJOUBI, F., FARNANE,M., SADIQ, M., ABDENNOURI, M., QOURZAL, S., BARKA, N., 2016. Factorial experimental design for the optimization of catalytic degradation of malachite green dye in aqueous solution by Fenton process. Water Resources and Industry, 15, 41-48.
- ERIKSSON, L., JAWORSKA, J., WORTH, A.P., CRONIN, M.T., MCDOWELL, R.M., GRAMATICA, P., 2003. Methods for reliability and uncertainty assessment and for applicability evaluations of classification-and regression-based QSARs. Environmental health perspectives, 111, 1361.
- FERNÁNDEZ, M., CURUTCHET, G., SÁNCHEZ, R.T., 2014. Removal of humic acid by organo-montmorillonites: influence of surfactant loading and chain length of alkylammonium cations. Water, Air, & Soil Pollution, 225, 1987.
- GUEDES, A.M., MADEIRA, L.M., BOAVENTURA, R.A., COSTA, C.A., 2003. Fenton oxidation of cork cooking wastewater-overall kinetic analysis. Water research, 37, 3061-3069.
- HAO, O.J., KIM, H., CHIANG, P.-C., 2000. Decolorization of wastewater. Critical reviews in environmental science and technology, 30, 449-505.
- HOPFINGER, A.J., 1980. A QSAR investigation of dihydrofolate reductase inhibition by Baker triazines based upon molecular shape analysis. Journal of the American Chemical Society, 102, 7196-7206.
- HUANG, X., FENG, Y., HU, C., XIAO, X., YU, D., ZOU, X., 2015. Mechanistic QSAR models for interpreting degradation rates of sulfonamides in UV-photocatalysis systems. Chemosphere, 138, 183-189.
- HUANG, D., HU, C., ZENG, G., CHENG, M., XU, P., GONG, X., WANG, R., XUE, W., 2017. Combination of Fenton processes and biotreatment for wastewater treatment and soil remediation. Science of the Total Environment, 574, 1599-1610.
- JIA, L., SHEN, Z., GUO, W., ZHANG, Y., ZHU, H., JI, W., FAN, M., 2015. QSAR models for oxidative degradation of organic pollutants in the Fenton process. Journal of the Taiwan Institute of Chemical Engineers, 46, 140-147.
- KARELSON, M., LOBANOV, V.S., KATRITZKY, A.R., 1996. Quantum-chemical descriptors in QSAR/QSPR studies. Chemical reviews, 96, 1027-1044.
- LI, X., ZHAO, W., LI, J., JIANG, J., CHEN, J., CHEN, J., 2013. Development of a model for predicting reaction rate constants of organic chemicals with ozone at different temperatures. Chemosphere, 92, 1029-1034.
- LI, X., ZHOU, M., PAN, Y., XU, L., TANG, Z., 2017. Highly efficient advanced oxidation processes (AOPs) based on pre-magnetization Fe 0 for wastewater treatment. Separation and Purification Technology.
- LIU, H., CHEN, Q., YU, Y., LIU, Z., XUE, G., 2013. Influence of Fenton's reagent doses on the degradation and mineralization of H-acid. Journal of hazardous materials, 263, 593-599.
- RICE, E.W.B., EATON, R.B., CLESCERI, A.D., Bridgewater, L.S., 2012. Standard methods for the examination of water and wastewater.
- RODRIGUES, C.S., MADEIRA, L.M., BOAVENTURA, R.A., 2009. Optimization of the azo dye Procion Red H-EXL degradation by Fenton's reagent using experimental design. Journal of Hazardous Materials, 164, 987-994.
- SANTOS, M.S., ALVES, A., MADEIRA, L.M., 2011. Paraquat removal from water by oxidation with Fenton's reagent. Chemical Engineering Journal, 175 279-290.
- SCHULTZ, T.W., WILKE, T.S., BRYANT, S.E., HOSEIN, L.M., 1991. QSARs for selected aliphatic and aromatic amines. Science of the total environment, 109, 581-587.
- SOHRABI, M.R., KHAVARAN, A., SHARIATI, S., SHARIATI, S., 2017. Removal of Carmoisine edible dye by Fenton and photo Fenton processes using Taguchi orthogonal array design. Arabian Journal of Chemistry, 10, S3523-S3531.
- SONG, X., ZAPATA, A., ENG, G., 2006. Organotins and quantitative-structure activity/property relationships. Journal of organometallic chemistry, 691, 1756-1760.
- GINKELV., POMPERG. C.,, STROOA. M.,, KROONA. C.,, G.M. A., 1995. Biodegradation of fatty amines : utilization of the alkyl chains by isolated microorganisms. Tenside Surfactants Detergents.
- WANG, Y., LIN, X., SHAO, Z., SHAN, D., LI, G., IRINI, A., 2017. Comparison of Fenton, UV-Fenton and nano-Fe 3 O 4 catalyzed UV-Fenton in degradation of phloroglucinol under neutral and alkaline conditions: Role of complexation of Fe 3+ with hydroxyl group in phloroglucinol. Chemical Engineering Journal, 313, 938-945.
- WANG, C.-C., SUNG, L.-Y., WU, P.-L., KE, S.-Y., NG, S.-X., JIAN, R.-S., LO, E.-W., LU, C.-J., 2016. An analytical method for the field investigation of environmental amines released by industrial processes. Process Safety and Environmental Protection, 102, 328-335.
- WIESMANN, U., CHOI, I.S., DOMBROWSKI, E.-M., 2007. Fundamentals of biological wastewater treatment. John Wiley & Sons.
- ZHU, H., SHEN, Z., TANG, Q., JI, W., JIA, L., 2014. Degradation mechanism study of organic pollutants in ozonation process by QSAR analysis. Chemical Engineering Journal, 255, 431-436.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-52210a63-f2c3-4d43-8dac-1233831f03b9