Remobilization of LNAPL in unsaturated porous media subject to freeze-thaw cycles using modified light transmission visualization technique-Reference-Cited by-同舟云学术

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Remobilization of LNAPL in unsaturated porous media subject to freeze-thaw cycles using modified light transmission visualization technique

Published:2021-12 Issue: Volume:603 Page:127090
ISSN:0022-1694
Container-title:Journal of Hydrology
language:en
Short-container-title:Journal of Hydrology

Author:

Wang Chao,Su Xiaosi,Lyu Hang,Yuan Zhijiang

Funder

National Natural Science Foundation of China

Publisher

Elsevier BV

Subject

Water Science and Technology

Reference53 articles.

1. Quantification of dense nonaqueous phase liquid saturation in double-porosity soil media using a light transmission visualization technique;Alazaiza;J. Porous. Media.,2017

2. Non-aqueous Phase Liquids Distribution in Three-Fluid Phase Systems in Double-Porosity Soil Media: Experimental Investigation Using Image Analysis;Alazaiza;Groundw. Sustain. Dev.,2018

3. Characterization of capillary pressure–saturation relationships for double-porosity medium using light transmission visualization technique;Alazaiza;Transp. Porous. Media.,2019

4. Experimental investigation of cosolvent flushing of DNAPL in double-porosity soil using light transmission visualization;Alazaiza;J. Hydrol.,2020

5. Assessing the impact of water infiltration on LNAPL mobilization in sand column using simplified image analysis method;Alazaiza;J. Contam. Hydrol,2021

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1. Quantitative response of the spatial distribution of diesel oil to freezing and thawing temperatures in groundwater;Water Research;2024-09

2. Dynamic characteristics and mechanism of representative elementary volume of LNAPL saturation under freeze–thaw cycles;Journal of Hydrology;2024-08

3. Monitoring hydrological changes with satellite data: Spring thaw's effect on soil moisture and groundwater in seasonal Freezing-Thawing zones;Journal of Hydrology;2023-11

4. Volatilization behavior of diesel oil-water-glass bead system exposed to freeze-thaw cycles;Water Research;2023-10

5. Dynamic monitoring of leaking oil diffusion in porous media: An improved method assisting buried oil pipeline condition assessment;Tunnelling and Underground Space Technology;2023-10

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