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典型氯代烃污染场地场界污染通量预测及不确定性分析

姚泓宇艾荣慧康学远吴吉春施小清

水文地质工程地质2025，Vol.52Issue(3)：68-78,11.

水文地质工程地质2025，Vol.52Issue(3)：68-78,11.DOI:10.16030/j.cnki.issn.1000-3665.202312041

典型氯代烃污染场地场界污染通量预测及不确定性分析

Prediction and uncertainty analysis of pollution flux of typical chlorinated hydrocarbon contaminated sites

姚泓宇 ¹艾荣慧 ¹康学远 ¹吴吉春 ¹施小清¹

作者信息

1. 表生地球化学教育部重点试验室(南京大学地球科学与工程学院),江苏南京 210023
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摘要

Abstract

Accurate assessment of the pollution flux and its uncertainty in the plume boundary of NAPL dissolved phase pollution in organic contaminated sites is very important for site risk assessment and decision management.Due to the complexity of underground water flow field,the directions of dissolved pollution plume diffusion of multiple pollution sources are not completely consistent.Traditional numerical models require a lot of data,and usually,the site data is difficult to meet the needs,while current commonly used analytical models do not consider the complexity of groundwater flow field and the simultaneous existence of multiple pollution sources.To solve this issue,this study utilized soil and groundwater monitoring data from a typical chlorinated hydrocarbon polluted site in Changzhou,applying an upscale analytical model integrated with the flow function and coordinate transformation method.The maximum likelihood estimation inversion method was employed to identify pollution source areas,estimate structural parameters,groundwater flow rates,and equivalent low-permeability medium thickness,and predict pollution flux at the site boundary.The uncertainty is evaluated based on linearized uncertainty transfer method.The inversion results show that considering a complex flow field rather than assuming single-direction flow significantly reduces parameter uncertainty while improving agreement between simulated and observed values.The pollution situation at the site is still serious,and the pollution scope has exceeded the field limit.The pollution plume needs to be controlled and repaired in time.Under natural attenuation conditions,the simulation results show that After model correction,the uncertainty of predictions remains minimal,with the 95％confidence interval changed from(73.66±0.71)g/d in 2023 to(66.77±0.87)g/d in 2027.The results of site pollution flux prediction provide the scientific basis for risk assessment and restoration of the site.

关键词

污染场地/重非水相液体/污染通量/极大似然估计/不确定性分析/流线方程

Key words

contaminated sites/DNAPL/mass flux/great likelihood estimations/uncertainty analysis/streamline equation

引用本文复制引用

姚泓宇,艾荣慧,康学远,吴吉春,施小清..典型氯代烃污染场地场界污染通量预测及不确定性分析[J].水文地质工程地质,2025,52(3):68-78,11.

基金项目

国家重点研发计划项目(2022YFC3703101) （2022YFC3703101）

国家自然科学基金项目(41977157) （41977157）

水文地质工程地质

OA北大核心

ISSN：1000-3665

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