Fluorescence spectroscopic characterization of DOM fractions isolated from a filtered river water after ozonation and catalytic ozonation

Zhang, Tao; Lü, Jinfeng; Ma, Jun; Qiang, Zhimin

doi:10.1016/j.chemosphere.2007.11.030

Cited by 115 publications

(38 citation statements)

References 40 publications

(58 reference statements)

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“…Various studies revealed that the fluorescence upon oxidation depends on the nature of NOM and ozone dosage. Similarly to our results, Zhang et al (2008) also reported a reduction of the intensity at λ 280, 380, and 460 nm in river water during oxidative processes indicative of significant destruction of aromatic structures associated with generation of carbohydrates. Rodríguez et al (2014b) reported that humic acids presented an increase in fluorescence at low to moderate dosage of ozone, whereas fulvic acids showed a reduction in fluorescence regardless the ozone applied.…”

Section: Synchronous Fluorescence Spectroscopysupporting

confidence: 87%

“…The third peak at λ em ∼330 nm, which has the highest intensity, represents more complex structures, such as substituted aromatic rings and compounds of higher MW. At λ em ∼465 nm, a shoulder peak, which corresponds to high MW humic materials and aromatic structures with high degree of conjugation, can be seen (Chen et al 2003;Duarte et al 2003;Fu et al 2007;Peuravuori et al 2002;Santos et al 2010;Sierra et al 2005;Zhang et al 2008). Raw water exhibited different fluorescence intensities during different sampling campaigns (Fig.…”

Section: Synchronous Fluorescence Spectroscopymentioning

confidence: 92%

“…The wavelength offset of 18 nm was found optimal for the NOM SFS spectra in our study in comparison to the other tested Δλ values (Δλ=18, 20, 44, 50, 66, 80, and 120 nm). Other investigators also reported that Δλ=18 nm provides the optimum resolution of the synchronous spectra (Peuravuori et al 2002;Rodríguez et al 2014a, b;Zhang et al 2008).…”

Section: Synchronous Fluorescence Spectroscopymentioning

confidence: 95%

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Fate of natural organic matter at a full-scale Drinking Water Treatment Plant in Greece

Papageorgiou

Papadakis

Voutsa

2015

Environ Sci Pollut Res

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The aim of this study was to investigate the fate of natural organic matter (NOM) and subsequent changes during the various treatment processes at a full-scale Drinking Water Treatment Plant (DWTP). Monthly sampling campaigns were conducted for 1 year at six sites along DWTP of Thessaloniki, Northern Greece including raw water from the Aliakmonas River that supplies DWTP and samples from various treatment processes (pre-ozonation, coagulation, sand filtration, ozonation, and granular activated carbon (GAC) filtration). The concentration of NOM and its characteristics as well as the removal efficiency of various treatment processes on the basis of dissolved organic carbon, UV absorbance, specific ultra-violet absorbance, fluorescence intensity, hydrophobicity, biodegradable dissolved organic carbon, and formation potential of chlorination by-products trihalomethanes (THMs) and haloacetic acids (HAAs) were studied. The concentration of dissolved organic carbon (DOC) in reservoir of the Aliakmonas River ranged from 1.46 to 1.84 mg/L, exhibiting variations regarding UV, fluorescence, and hydrophobic character through the year. Along DWTP, a significant reduction of aromatic, fluorophoric, and hydrophobic character of NOM was observed resulting in significant elimination of THM (63%) and HAAs (75%) precursors.

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Section: Synchronous Fluorescence Spectroscopysupporting

confidence: 87%

Section: Synchronous Fluorescence Spectroscopymentioning

confidence: 92%

Section: Synchronous Fluorescence Spectroscopymentioning

confidence: 95%

See 1 more Smart Citation

Fate of natural organic matter at a full-scale Drinking Water Treatment Plant in Greece

Papageorgiou

Papadakis

Voutsa

2015

Environ Sci Pollut Res

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“…The positions, shifts, and intensities of the fluorescence peaks provide information not only on conformational changes but also on intramolecular and intermolecular interactions (Mobed et al 1996;Chen et al 2003a;Zhang et al 2008). As shown in Fig.…”

Section: 3 Conformational Changes In Dom Moleculesmentioning

confidence: 97%

Environmental pH and ionic strength influence the electron-transfer capacity of dissolved organic matter

Yuan

Tao

et al. 2015

J Soils Sediments

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Purpose Dissolved organic matter (DOM) plays an important role in the cycling of elements and the transformation of pollutants in the environment due to its electron-transfer capacity (ETC), but ETC may be affected by environmental factors such as pH and ionic strength. This study was aimed to reveal the effects of pH and ionic strength on the ETC of DOM and the possible mechanisms. Materials and methods DOM was prepared into solutions with various pH values (4, 6, 7, 8, and 10) and ionic strength (0.001, 0.01, 0.1, and 0.5 mol/L KCl). ETC of DOM including electron-accepting capacity (EAC) and electron-donating capacity (EDC) was determined with chronoamperometry. Spectroscopic and chromatographic properties of DOM were evaluated to obtain related structural information to explore the possible mechanisms for the ETC changes. Results and discussion Both the EAC and EDC of DOM increased consistently with increasing pH from 4 to 10. EAC and EDC increased with increasing ionic strength, peaked at 0.1 mol/L KCl, and then decreased. Gel permeation chromatogram displayed different molecular size distribution for the DOM in solution with different pH and ionic strength.Conclusions Environmental pH and ionic strength influence the ETC of DOM by altering the conformation of DOM molecules.

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“…The intensities of Zone 3 and 4 (270 -280 nm excitation) fluorophores (tyrosine-like and tryptophan-like compounds respectively) was also found to decrease during 30 days of aerobic biodegradation. This reduction can be attributed to the breakdown of proteineous materials by aeration (Zhang et al, 2008). Fig.…”

Section: Fluorescence Spectroscopic Resultsmentioning

confidence: 99%

Feasibility Assessment of Spectroscopic Methods in Characterising Leachate Dissolved Organic Matter

Yunus

Smallman

Stringfellow

et al. 2012

J. of Wat. ^|^ Envir. Tech.

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This research explores the use of UV absorption and fluorescence spectroscopy for rapid monitoring of organic compounds in leachates and performs a systematic comparison of the biodegradation associated evolution of different organic compounds of leachates collected from two UK MSW landfills L1 and L2. Spectroscopic techniques are used to characterize the aromatic compounds and to study the evolution of humic, fulvic and protein like compounds which is compared with the well established organic strength estimation techniques dissolved organic carbon (DOC) and chemical oxygen demand (COD). The biodegradation of different leachates as estimated from the reduction of different organic compounds using spectroscopy show an excellent agreement with the biodegradability assessed by the conventional methods DOC and COD indicating that characterization of landfill leachates using spectroscopic methods are reliable. It is also found that leachates collected from treatment plant and phase 4 of landfill L1 (L1 (LTP) and L1 (P4) respectively) and phase 2 of landfill L2 (L2 (P2)) are less biodegradable and contain aromatic ring of more condensed form than those for leachates collected from treatment plant of landfill L2 (L2 (LTP) and L2 (FE)) which indicate a relatively rigorous treatment requirement for L1 (LTP), L1 (P4) and L2 (P2) leachates to meet the effluent standard.

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Fluorescence spectroscopic characterization of DOM fractions isolated from a filtered river water after ozonation and catalytic ozonation

Cited by 115 publications

References 40 publications

Fate of natural organic matter at a full-scale Drinking Water Treatment Plant in Greece

Fate of natural organic matter at a full-scale Drinking Water Treatment Plant in Greece

Environmental pH and ionic strength influence the electron-transfer capacity of dissolved organic matter

Feasibility Assessment of Spectroscopic Methods in Characterising Leachate Dissolved Organic Matter

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