Study on the mechanism promoting oxidation of long-chain alkanes by self-produced surfactant-like substance at the solid-liquid interface

The Fenton method to remediate oil-contaminated soils has long suffered from low utilization of ·OH, resulting in waste of costs during practical application. This study investigated the efficient utilization of ·OH in oxidation using three different soils contaminated with oil (S1, S2, and S3). The...

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Published in:Environmental science and pollution research international 2023-11, Vol.30 (55), p.117676-117687
Main Authors: Xu, Jinlan, Li, Fengsen, Luo, Shengyang, Shi, Qihang, Cao, Zezhuang, Liu, Lu, Xue, Shujun
Format: Article
Language:English
Subjects:
Acidic soils
Alkanes
Aquatic Pollution
Atmospheric Protection/Air Quality Control/Air Pollution
Construction costs
Earth and Environmental Science
Ecotoxicology
Environment
Environmental Chemistry
Environmental Health
Humic acids
Hydrogen peroxide
liquid-solid interface
Liquid-solid interfaces
Oil pollution
oils
Organic matter
Organic soils
Oxidation
Research Article
Soil contamination
Soil organic matter
Soil pollution
Soil remediation
Soils
Surfactants
Utilization
Waste Water Technology
wastes
Water Management
Water Pollution Control
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Summary:The Fenton method to remediate oil-contaminated soils has long suffered from low utilization of ·OH, resulting in waste of costs during practical application. This study investigated the efficient utilization of ·OH in oxidation using three different soils contaminated with oil (S1, S2, and S3). The mechanisms of promoting oxidation of long-chain alkanes by self-produced surfactant-like substance at the solid-liquid interface were studied. These results (take S1 as an example) showed that the average ·OH utilization rate of oxidized long-chain alkanes ( K a ) at the solid-liquid interface reached 88.34 (mg/kg∙(a.u.)), which was higher than the non-solid-liquid interface stage (I: 54.02 (mg/kg∙(a.u.)), II: 67.36 (mg/kg∙(a.u.))). Meanwhile, the average oxidation of long-chain alkanes could increase unit ·OH intensity added ( K b ) in the solid-liquid interface (990.00 mg/kg), which was much higher than K b of the non-solid-liquid interface stage (I: 228.34 mg/kg, II: −1.48 mg/kg). Furthermore, there was a significant correlation between the proportion of humic acid-like in soil organic matter and the oxidation of long-chain alkanes at the solid-liquid interface. Thus, the surfactant-like substance generated during oxidation promoted the oxidation of long-chain alkanes at the solid-liquid interface. Moreover, when the surfactant-like substance had a matching degree ( φ ) with the long-chain alkanes (S1 0.18, S2 0.15, and S3 0.25), the efficiency of the ·OH utilization reached the peak, and the direct oxidation of long-chain alkanes at the solid-liquid interface was finally achieved (S1: 1373.00 mg/kg, S2: 1473.18 mg/kg, and S3: 1034.37 mg/kg). The appropriate surfactant-like substance agents in the construction can reduce the dosing of H 2 O 2 and the construction costs by improving the efficient utilization of ·OH. Graphical Abstract Study on the mechanism promoting oxidation of long-chain alkanes by self-produced surfactant-like substance at the solid-liquid interface.
ISSN:1614-7499
0944-1344
1614-7499
DOI:10.1007/s11356-023-29991-8