Impact of diatomit on the transport behavior of unmodified and carboxyl-modified nanoplastics in saturated porous media

• Published in: Environmental pollution (1987) Vol. 359; p. 124758
• Main Authors: Wu, Yuheng, Wu, Ming, Cheng, Zhou, Hao, Yanru, Mo, Cehui, Li, Qusheng, Wu, Jianfeng, Wu, Jichun, Hu, Bill X., Lu, Guoping
• Format: Journal Article
• Language: English
• Published: England Elsevier Ltd 15.10.2024
• Subjects: Diatomite; Interaction; Nanoplastics; Surface functional group; Transport; Surface functional group; Diatomite; Transport; Interaction; Nanoplastics
• ISSN: 0269-7491; 1873-6424; 1873-6424
• DOI: 10.1016/j.envpol.2024.124758

Due to the extensive use of plastic products and unreasonable disposal, nanoplastics contamination has become one of the important environmental problems that mankind must face. The composition and structure of porous media can determine the complexity and diversity of the transport behavior of nanoplastics. In this study, the influence of diatomite (DIA) on the nanoplastics transport in porous media is investigated by column experiments combined with XDLVO interaction energy and transport model. Results suggest that the recovery rates of unmodified polystyrene nanoparticles (PSNPs) and carboxyl-modified polystyrene nanoparticles (PSNPs-COOH) in the porous media containing DIA decreases compared with that in the pure quartz sand (QS), and the BTCs showed a “blocking” pattern. The presence of DIA inhibits the transport of both PSNPs and PSNPs-COOH, but the inhibition is not significant. This may be because the presence of DIA provides more favorable deposition sites for PSNPs and PSNPs-COOH to some extent. However, since DIA itself carries a certain negative charge, this can only play a role in compressing the double electric layer for PSNPs and PSNPs-COOH with the same negative charge, and cannot destabilize them. The migration capacity of PSNPs and PSNPs-COOH is strongest in the DIA-QS porous media at pH = 7, and is weak at pH = 9 and pH = 5. The inhibition of migration at pH = 9 can be attributed to the dissolution of the DIA surface under alkaline conditions and the formation of pore and defect structures, which provide more deposition sites for PSNPs and PSNPs-COOH. The presence of humic acid (HA) leads to an increase in the mobility of PSNPs and PSNPs-COOH, and the mobility is enhanced with HA concentration. The mobility of PSNPs and PSNPs-COOH in DIA-QS decreases with ionic valence and ionic strength, and PSNPs-COOH is more significantly inhibited compared to PSNPs. [Display omitted] •DIA inhibits the transport of PSNPs and PSNPs-COOH in porous media.•The inhibition of DIA on PSNPs-COOH transport is stronger compared to PSNPs.•Mobilities of PSNPs and PSNPs-COOH in mixed DIA-QS is inhibited by Al3+.•Pore and defect structures of DIA (pH > 7) inhibit nanoplastics mobility.•Surface roughness of DIA can significantly affect XDLVO interaction energy.