油-沉积物聚集体中石油烃释放行为研究：湍流强度与化学分散效应

Petroleum hydrocarbon release behavior study in oil-sediment aggregates: turbulence intensity and chemical dispersion effect.

作者信息

Yan Dong, Meng Long, Li Haoshuai, Song Tianwen, Sun Peiyan, Bao Mutai, Li Ximing

机构信息

Key Laboratory of Marine Chemistry Theory and Technology, Ministry of Education/Institute for Advanced Ocean Study, Ocean University of China Songling Road 238 Qingdao 266100 China

College of Chemistry & Chemical Engineering, Ocean University of China Qingdao 266100 China.

出版信息

RSC Adv. 2019 Mar 11;9(14):7922-7931. doi: 10.1039/c8ra08871c. eCollection 2019 Mar 6.

DOI:10.1039/c8ra08871c

PMID:35521202

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9061267/

Abstract

This study investigated the effects of turbulence and oil dispersants on release of petroleum hydrocarbons in oil-sediment aggregates. A kinetic study showed that the static oil release process could be fitted to the first-order kinetics model. The oil concentration increased with increasing temperature and salinity, while remaining independent of pH. The dispersant desorption ability of petroleum hydrocarbons followed the sequence of: Tween 80 > Tween 85 > Span 80 > DOSS. In the presence of turbulence, the maximum release ratio was 40.28%. However, the combination of dispersants and turbulence had a smaller effect than turbulence alone. Furthermore, residual -alkanes and PAHs in the sediments were analyzed. The results showed higher proportions of C-C and 2-3 ring PAHs in residual oil. These results can help assess the fate and distribution of oil spills in marine environments.

摘要

本研究调查了湍流和油分散剂对油-沉积物聚集体中石油烃释放的影响。动力学研究表明，静态油释放过程符合一级动力学模型。油浓度随温度和盐度的升高而增加，而与pH无关。石油烃的分散剂解吸能力顺序为：吐温80＞吐温85＞司盘80＞二辛基磺酸钠。在有湍流的情况下，最大释放率为40.28%。然而，分散剂和湍流的组合比单独的湍流影响更小。此外，还分析了沉积物中的残留烷烃和多环芳烃。结果表明，残留油中C-C和2-3环多环芳烃的比例较高。这些结果有助于评估海洋环境中石油泄漏的归宿和分布。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6307/9061267/84624b0f1e6c/c8ra08871c-f1.jpg

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油-沉积物聚集体中石油烃释放行为研究：湍流强度与化学分散效应

Petroleum hydrocarbon release behavior study in oil-sediment aggregates: turbulence intensity and chemical dispersion effect.

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