水文地质工程地质2026,Vol.53Issue(3):73-83,11.DOI:10.16030/j.heg.202601068
基于低场核磁共振方法对理想多孔介质中多相流体成分识别与定量表征
Monitoring multiphase flow within porous media using nuclear magnetic resonance method
摘要
Abstract
Organic contaminants in the vadose zone pose persistent risks to groundwater quality,ecosystems,and human health.Accurate characterization of their distribution and movement is critical for environmental risk assessment and remediation strategies.Low-field nuclear magnetic resonance(NMR),a noninvasive and cost-effective geophysical method sensitive to hydrogen-bearing fluids,holds great potential for characterizing and tracking organic pollutants in the vadose zone.However,the interpretation of NMR signals is challenging because vadose zone organic contaminants exist as multiphase fluids.This work aims to analyze dynamic pore-scale displacement of water by petroleum hydrocarbons(represented by n-decane)in porous media visualized by X-ray computed tomography images,and further reveal the NMR responses under varying hydrocarbon-water distribution states.The results indicate that,compared to 1D T2 spectra,2D D-T2 spectra can quantitatively reveal that the non-wetting phase(hydrocarbons)preferentially occupies larger pore spaces and the central(bulk)regions of the pores during the displacement process.This study enhances the accuracy of interpreting organic contaminant transport and distribution using vadose zone NMR data.关键词
包气带/有机污染物/多相流/低场核磁共振/X射线计算机断层扫描Key words
vadose zone/organic contaminants/multiphase flow/low-field NMR/X-ray computed tomography分类
天文与地球科学引用本文复制引用
周珺文,张宇,Laurenz Schröer,Veerle Cnudde,张弛..基于低场核磁共振方法对理想多孔介质中多相流体成分识别与定量表征[J].水文地质工程地质,2026,53(3):73-83,11.基金项目
国家留学基金委项目(202204910096) (202204910096)
欧盟"欧洲地平线"研究与创新计划项目(101131765) (101131765)
