Regulating soil polarity to achieve efficient Fenton direct oxidation of total petroleum hydrocarbons in soil

The transfer of hydroxyl radicals (·OH) from the liquid phase to the soil is anticipated to enhance the efficient direct oxidation of total petroleum hydrocarbons (TPHs) in the soil. Based on the polar/non-polar interactions of polymers in aqueous solutions, polar chitosan was used to chelate Fe2 +,...

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Published inJournal of environmental chemical engineering Vol. 13; no. 2; p. 115984
Main Authors Xu, Jinlan, Dai, Jianan, Cao, Zezhuang, Liu, Chuanyu, Li, Yikai, Gao, Mengzhen, Guan, Huiwen, Zhou, Rankang
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.04.2025
Subjects
Fenton direct oxidation
Hydrophilic functional groups
Hydroxyl radical transfer
Petroleum hydrocarbon soils
Soil polarity regulation
Fenton direct oxidation
Soil polarity regulation
Petroleum hydrocarbon soils
Hydroxyl radical transfer
Hydrophilic functional groups
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Abstract The transfer of hydroxyl radicals (·OH) from the liquid phase to the soil is anticipated to enhance the efficient direct oxidation of total petroleum hydrocarbons (TPHs) in the soil. Based on the polar/non-polar interactions of polymers in aqueous solutions, polar chitosan was used to chelate Fe2 +, which was then thoroughly mixed with soil contaminated by non-polar petroleum hydrocarbons. This process aims to regulate the soil's polarity to facilitate the transfer of hydroxyl radicals. Soil polarity, defined as η (η = the total integrated area of hydrophilic functional groups/the proportion of humic acid-like components), was found to influence the oxidation process significantly. The results indicate that the maximum oxidation capacity of TPHs in the soil reached 6220.20 mg/kg. The values represent increases of 1.19 times compared to traditional Fenton technology. Excitation Emission Matrix Spectra(3DEEM) revealed that the proportion of hydrophilic organic components increased to 85.77 % following polarity regulation. FT-IR demonstrated an increase in the quantities of hydrophilic functional groups, including O-H (112.92), C-O (74.46), and CO (14.89). The enhancement of these hydrophilic components contributed to an increase in soil polarity, which facilitated the transfer of ·OH from the liquid phase to the soil. Additionally, the ·OH transfer amount of 0.12 × 10−2 a.u. resulted in an increase of 1032.62 mg/kg in the oxidation of TPHs. A positive correlation between soil polarity and the oxidation of TPHs was observed, indicating that increased soil polarity can promote the direct oxidation of TPHs in the soil. [Display omitted] •The oxidation amount of TPHs was 6220.20 mg/kg after polarity regulation.•Tydrophilic organic and functional groups increased after polarity regulation.•Increased soil polarity promotes the transfer of ·OH from liquid to the soil.•OH transfer 0.35 × 10−2 ·OH enhances oxidation of 1032.62 mg/kg of TPHs.
AbstractList The transfer of hydroxyl radicals (·OH) from the liquid phase to the soil is anticipated to enhance the efficient direct oxidation of total petroleum hydrocarbons (TPHs) in the soil. Based on the polar/non-polar interactions of polymers in aqueous solutions, polar chitosan was used to chelate Fe2 +, which was then thoroughly mixed with soil contaminated by non-polar petroleum hydrocarbons. This process aims to regulate the soil's polarity to facilitate the transfer of hydroxyl radicals. Soil polarity, defined as η (η = the total integrated area of hydrophilic functional groups/the proportion of humic acid-like components), was found to influence the oxidation process significantly. The results indicate that the maximum oxidation capacity of TPHs in the soil reached 6220.20 mg/kg. The values represent increases of 1.19 times compared to traditional Fenton technology. Excitation Emission Matrix Spectra(3DEEM) revealed that the proportion of hydrophilic organic components increased to 85.77 % following polarity regulation. FT-IR demonstrated an increase in the quantities of hydrophilic functional groups, including O-H (112.92), C-O (74.46), and CO (14.89). The enhancement of these hydrophilic components contributed to an increase in soil polarity, which facilitated the transfer of ·OH from the liquid phase to the soil. Additionally, the ·OH transfer amount of 0.12 × 10−2 a.u. resulted in an increase of 1032.62 mg/kg in the oxidation of TPHs. A positive correlation between soil polarity and the oxidation of TPHs was observed, indicating that increased soil polarity can promote the direct oxidation of TPHs in the soil. [Display omitted] •The oxidation amount of TPHs was 6220.20 mg/kg after polarity regulation.•Tydrophilic organic and functional groups increased after polarity regulation.•Increased soil polarity promotes the transfer of ·OH from liquid to the soil.•OH transfer 0.35 × 10−2 ·OH enhances oxidation of 1032.62 mg/kg of TPHs.
ArticleNumber 115984
Author Li, Yikai
Guan, Huiwen
Dai, Jianan
Zhou, Rankang
Liu, Chuanyu
Gao, Mengzhen
Xu, Jinlan
Cao, Zezhuang
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  organization: School of Environmental and Municipal Engineering, Xi’an University of Architecture and Technology, Xi’an 710055, China
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Keywords Fenton direct oxidation
Soil polarity regulation
Petroleum hydrocarbon soils
Hydroxyl radical transfer
Hydrophilic functional groups
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Snippet The transfer of hydroxyl radicals (·OH) from the liquid phase to the soil is anticipated to enhance the efficient direct oxidation of total petroleum...
SourceID crossref
elsevier
SourceType Index Database
Publisher
StartPage 115984
SubjectTerms Fenton direct oxidation
Hydrophilic functional groups
Hydroxyl radical transfer
Petroleum hydrocarbon soils
Soil polarity regulation
Title Regulating soil polarity to achieve efficient Fenton direct oxidation of total petroleum hydrocarbons in soil
URI https://dx.doi.org/10.1016/j.jece.2025.115984
Volume 13
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