Evaluation of Performance of Polyacrylamide-Modified Compacted Clay as a Gas Barrier: Water Retention and Gas Permeability and Diffusion Characteristics

In this paper, the performance of a gas barrier that consisted of polyacrylamide (PAM)-modified compacted clayey soil was experimentally explored. The moisture content and water loss characteristics of the tested soils were adopted as indicative indices of water retention capacity (WRC). The gas per...

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Bibliographic Details
Published inApplied sciences Vol. 12; no. 16; p. 8379
Main Authors Bi, Yu-Zhang, Wen, Jia-Ming, Wu, Hao-Liang, Du, Yan-Jun
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.08.2022
Subjects
Clay
Clay soils
compacted clay
Compacted soils
Diffusion barriers
Diffusion coefficient
Diffusion tests
Drying
Engineering
gas barrier performance
gas diffusion coefficient
gas permeability
Gaseous diffusion
Gases
Handbooks
Hydration
Hydraulics
Industrial pollution
Laboratories
Landfill
Liquid limits
Moisture content
Performance evaluation
Permeability
Polyacrylamide
Polymers
Retention
Retention capacity
Sodium
Soil compaction
Soil contamination
Soil moisture
Soil permeability
Soil testing
VOCs
Volatile organic compounds
Water content
Water loss
China
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Summary:In this paper, the performance of a gas barrier that consisted of polyacrylamide (PAM)-modified compacted clayey soil was experimentally explored. The moisture content and water loss characteristics of the tested soils were adopted as indicative indices of water retention capacity (WRC). The gas permeability (Kp) and gas diffusion coefficient (Dp) of the modified compacted clays were evaluated via gas permeability and gas diffusion tests. The test results showed that the moisture content of the modified compacted clay samples subjected to drying tests increased with increasing polyacrylamide content. Kp and Dp decreased with increasing PAM content. Compared with 0.2% PAM content, the Kp of the sample with 1.0% PAM was reduced by ten times, and the Dp was reduced to ~35%. Compared to the unmodified clay, the liquid limit of the PAM-modified clay increased by 45~55%. Comparison of the liquid limit tests between this study and previous studies revealed that the liquid limit ratio of the zwitterionic polyacrylamide (ZP)-modified soil was much higher than the other material-modified soils. The results of this study are useful to facilitate the application of modified compacted clays as gas barrier materials at industrial contaminated sites.
ISSN:2076-3417
2076-3417
DOI:10.3390/app12168379