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Dynamic changes in dissolved organic matter during transport of landfill leachate in porous medium.

Authors :
Zhao, Li
Lu, Yucan
Yang, Jian
Kong, Weifang
Xing, Mingfei
Zhang, Yiyang
Source :
Environmental Science & Pollution Research; Jun2024, Vol. 31 Issue 26, p38385-38398, 14p
Publication Year :
2024

Abstract

The dynamic changes in dissolved organic matter (DOM) during the transport of landfill leachate (LL) in porous medium should be explored, considering the high levels of DOM in the LL of municipal solid waste. Column experiments were carried out at 25 °C at a Darcy's flux of 0.29 cm/h for 2722 h to compare the transport of Cl<superscript>−</superscript>, ultraviolet absorbance at 254 nm (UV<subscript>254</subscript>), chemical oxygen demand (COD), and dissolved organic carbon (DOC) in the simulated porous medium by using the CXTFIT2.1 code. Results showed that the convection–dispersion equation (CDE) could describe Cl<superscript>−</superscript> transport well. The high levels of λ and D could be highly correlated with the physicochemical properties of the porous medium. The transport of the studied DOM with evident aromatic character could be described appropriately by the CDE model with the first-order reaction assumption, considering the similar variation trends of UV<subscript>254</subscript>, COD, and DOC in the effluent during experiments. Specifically, the values of retardation factor (R) were in the following order: DOC > UV<subscript>254</subscript> > COD, whereas the low values of the first-order decay coefficient (k<subscript>1</subscript>) for DOC and COD were still higher than that for UV<subscript>254</subscript>. High contents of humic-like substances in the DOM with complex toxic components resulted in the natural low removal efficiencies of COD, DOC, and UV<subscript>254</subscript> (≤ 23%), which could be confirmed by the variations of fluorescence index (FI) and humification index (HIX) in the effluent. The results should be helpful in evaluating the environmental risk induced by the LL leakage in a landfill site. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
09441344
Volume :
31
Issue :
26
Database :
Complementary Index
Journal :
Environmental Science & Pollution Research
Publication Type :
Academic Journal
Accession number :
177949086
Full Text :
https://doi.org/10.1007/s11356-024-33759-z