Photochemical alteration of biogenic particles in wastewater effluents

Biogenic particles discharged by wastewater treatment plants play important roles in receiving water because of the large specific surface area and good mobility of the particles. In this study, the changes induced in bio- genic particles by natural sunlight were investigated to understand the photo...

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Bibliographic Details
Published inChinese science bulletin Vol. 59; no. 28; pp. 3659 - 3668
Main Authors Yang, Xiaofang, Li, Zengquan, Meng, Fangang, Wang, Zhigang, Sun, Li
Format Journal Article
LanguageEnglish
Published Heidelberg Springer-Verlag 01.10.2014
Science China Press
Subjects
Chemistry/Food Science
dissolved organic matter
Earth Sciences
effluents
Engineering
Humanities and Social Sciences
hydrophobicity
Life Sciences
multidisciplinary
Physics
proteins
Science
Science (multidisciplinary)
solar radiation
spectroscopy
surface area
wastewater
wastewater treatment
光化学
废水排放
有机物质
比表面积
污水处理厂
生物颗粒
聚甲醛
蛋白质
Photodegradation
Wastewater effluent
Dissolved organic matter (DOM)
Particulate organic matter (POM)
PARAFAC
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Summary:Biogenic particles discharged by wastewater treatment plants play important roles in receiving water because of the large specific surface area and good mobility of the particles. In this study, the changes induced in bio- genic particles by natural sunlight were investigated to understand the phototransformation of the particles in the receiving waters. The results showed that photoexposure resulted in significant decreases in the sizes of the biogenic particles but that photoexposure did not impact the zeta potentials. In addition, the photodissolution of biogenic particulate organic matter (POM) led to the generation of biogenic dissolved organic matter (DOM). Characteriza- tion using excitation-emission matrix (EEM) spectroscopy showed that photoexposure changed both the shapes and the intensities of the EEM spectra of the biogenic POM; the regions of the T1 and T2 peaks were susceptible to photoexposure. Modeling by parallel factor analysis (PARAFAC) decomposed the EEMs of the biogenic POMinto four valid components, i.e., terrestrial or microbial humic-like substances, tryptophan-like proteins, tyrosine- like proteins and hydrophobic proteins. The humic-like substances in the biogenic POM from the effluents were subject to lower decreases (17.0 % and 11.6 %). Throughout the entire incubation time, the PARAFAC components in the biogenic DOM were dominated by elimination mechanisms rather than by production through photodissolution of the biogenic POM.
Bibliography:Biogenic particles discharged by wastewater treatment plants play important roles in receiving water because of the large specific surface area and good mobility of the particles. In this study, the changes induced in bio- genic particles by natural sunlight were investigated to understand the phototransformation of the particles in the receiving waters. The results showed that photoexposure resulted in significant decreases in the sizes of the biogenic particles but that photoexposure did not impact the zeta potentials. In addition, the photodissolution of biogenic particulate organic matter (POM) led to the generation of biogenic dissolved organic matter (DOM). Characteriza- tion using excitation-emission matrix (EEM) spectroscopy showed that photoexposure changed both the shapes and the intensities of the EEM spectra of the biogenic POM; the regions of the T1 and T2 peaks were susceptible to photoexposure. Modeling by parallel factor analysis (PARAFAC) decomposed the EEMs of the biogenic POMinto four valid components, i.e., terrestrial or microbial humic-like substances, tryptophan-like proteins, tyrosine- like proteins and hydrophobic proteins. The humic-like substances in the biogenic POM from the effluents were subject to lower decreases (17.0 % and 11.6 %). Throughout the entire incubation time, the PARAFAC components in the biogenic DOM were dominated by elimination mechanisms rather than by production through photodissolution of the biogenic POM.
11-1785/N
Dissolved organic matter (DOM)PARAFAC Particulate organic matter (POM)Photodegradation Wastewater effluent
http://dx.doi.org/10.1007/s11434-014-0519-8
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1001-6538
1861-9541
DOI:10.1007/s11434-014-0519-8