Unearthing the fate and transport of nanobubbles in groundwater: Significance of straining in nanobubbles deposition

IF 5.9 1区 地球科学 Q1 ENGINEERING, CIVIL Journal of Hydrology Pub Date : 2024-11-17 DOI:10.1016/j.jhydrol.2024.132351
Dan Zhang, Wenke Wang, Zhengyu Zhang, Fengjia Liu, Yufei Ma, Shengke Yang
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Abstract

Knowledge of the transport and fate of nanobubbles (NBs) in groundwater is decisive to assess their remediation scope. In this work, based on the exploration of the stability of NBs in groundwater environmental conditions, the transport behavior and mechanism of NBs under physical (grain size, NBs concentration and flow velocity) and chemical conditions (pH, iron strength (IS) and types and dissolved organic matter (DOM)) were investigated by the column experiment and numerical simulation. The results showed NBs were more stable under alkaline and humic acid (HA) environment. NBs transport increased with the increase of grain size, NBs concentration, pH and HA, respectively. However, NBs transport was inhibited with the increase of acidity, electrolytes and L-Tryptophan (L-Trp) concentration, which was mainly due to these unfavorable factors will lead to an increase in the NBs size and a stronger electrostatic attraction at the interface between NB and sand, resulting in more retention of NBs in porous media. This was demonstrated by the Derjaguin–Landau–Verwey–Overbeek (DLVO) theory and straining calculations. The two–site deposition model showed a better fit. The straining rate (kstr) was greater than attachment rate (katt), which proved the main retention mechanism of NBs in groundwater was a synergistic mechanism dominated by pore straining and supplemented by attachment (electrostatic attraction and blocking). These findings provided a theoretical basis for the application of NBs technology in groundwater.

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揭示纳米气泡在地下水中的归宿和迁移:应变在纳米气泡沉积中的意义
了解纳米气泡(NBs)在地下水中的迁移和归宿对于评估其修复范围具有决定性意义。本研究在探讨纳米气泡在地下水环境条件下稳定性的基础上,通过柱实验和数值模拟研究了纳米气泡在物理条件(粒径、纳米气泡浓度和流速)和化学条件(pH、铁强度(IS)和类型以及溶解有机物(DOM))下的迁移行为和机理。结果表明,NBs 在碱性和腐殖酸(HA)环境中更为稳定。随着粒径、NBs 浓度、pH 值和 HA 值的增加,NBs 的迁移量也分别增加。但随着酸度、电解质和 L-色氨酸(L-Trp)浓度的增加,NBs 的迁移受到抑制,这主要是由于这些不利因素会导致 NBs 粒径增大,NB 与沙子界面的静电吸引力增强,从而导致 NBs 在多孔介质中的滞留增加。Derjaguin-Landau-Verwey-Overbeek(DLVO)理论和应变计算证明了这一点。双位沉积模型显示出更好的拟合效果。应变速率(kstr)大于附着速率(katt),这证明了地下水中 NBs 的主要滞留机制是以孔隙应变为主、附着(静电吸引和阻滞)为辅的协同机制。这些发现为 NBs 技术在地下水中的应用提供了理论依据。
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来源期刊
Journal of Hydrology
Journal of Hydrology 地学-地球科学综合
CiteScore
11.00
自引率
12.50%
发文量
1309
审稿时长
7.5 months
期刊介绍: The Journal of Hydrology publishes original research papers and comprehensive reviews in all the subfields of the hydrological sciences including water based management and policy issues that impact on economics and society. These comprise, but are not limited to the physical, chemical, biogeochemical, stochastic and systems aspects of surface and groundwater hydrology, hydrometeorology and hydrogeology. Relevant topics incorporating the insights and methodologies of disciplines such as climatology, water resource systems, hydraulics, agrohydrology, geomorphology, soil science, instrumentation and remote sensing, civil and environmental engineering are included. Social science perspectives on hydrological problems such as resource and ecological economics, environmental sociology, psychology and behavioural science, management and policy analysis are also invited. Multi-and interdisciplinary analyses of hydrological problems are within scope. The science published in the Journal of Hydrology is relevant to catchment scales rather than exclusively to a local scale or site.
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