Exploring the influence and predictive role of waste acidic calcium on the water stability and mechanical behavior of strongly alkaline dispersive subsoil

IF 8 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
Guanzhou Ren , Yuyang Ji , Henghui Fan , Yuan Gao , Tao Wu , Zhen Zhu , Gaowen Zhao
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Abstract

Strongly alkaline dispersive soils pose a significant global challenge to both engineering applications and agricultural production, particularly in arid and semi-arid regions. Conventional soil modifiers used to address this issue not only present environmental and economic concerns but also fail to effectively improve soil alkalinity. This study investigates the potential application of acidic desulfurization gypsum (DG) as a soil modifier for dispersive soils, aiming to achieve high-value utilization of industrial solid waste. The dispersibility of soil under hydrostatic and dynamic conditions are studied using the mud ball test and pinhole test. The engineering properties and modification mechanism of DG consolidated soils were revealed by combining the unconfined compressive strength (UCS), Brazilian split tensile strength (BTS), microstructure, and mineral evolution. Results show that 3% DG significantly reduces soil dispersibility and improves disintegration and erosion resistance, with UCS and BTS increases of 210% and 94%, respectively. The mechanism involves DG releasing hydrogen ions to reduce soil alkalinity, which in turn activates cation activity of DG, replacing sodium ions on the soil surface and forming a binding hydrate within 7 days. Tests on natural dispersive soil from check dams confirmed effectiveness of DG. Advanced machine learning techniques quantitatively analyzed the impact of DG on soil dispersibility, highlighting the relationship between soil dispersibility and chemical/mechanical properties. This study establishes a novel link between hydraulic erosion parameters, mechanical parameters, and soil stress-strain relationships, providing valuable insights for future soil stabilization. The results show potential of waste acidic DG in practical engineering applications and contribute to the sustainable advancement of dispersive soil stabilization technology. Alkaline dispersive soils also aid in regulating the acidity and alkalinity of DG and controlling toxic emissions.

Abstract Image

探索废酸钙对强碱性分散基土水稳定性和力学行为的影响和预测作用。
强碱性分散土壤对工程应用和农业生产都构成了巨大的全球性挑战,尤其是在干旱和半干旱地区。用于解决这一问题的传统土壤改良剂不仅存在环境和经济问题,而且无法有效改善土壤碱度。本研究调查了酸性脱硫石膏(DG)作为分散性土壤改良剂的潜在应用,旨在实现工业固体废弃物的高值化利用。利用泥球试验和针孔试验研究了土壤在静态和动态条件下的分散性。结合无侧限抗压强度(UCS)、巴西劈裂拉伸强度(BTS)、微观结构和矿物演化,揭示了 DG 固结土的工程特性和改良机制。结果表明,3% 的 DG 能显著降低土壤的分散性,提高崩解和抗侵蚀能力,UCS 和 BTS 分别提高 210% 和 94%。其机理是 DG 释放氢离子降低土壤碱度,进而激活 DG 的阳离子活性,取代土壤表面的钠离子,并在 7 天内形成结合水合物。对来自检查坝的天然分散土壤进行的测试证实了 DG 的有效性。先进的机器学习技术定量分析了 DG 对土壤分散性的影响,突出了土壤分散性与化学/机械特性之间的关系。这项研究在水力侵蚀参数、力学参数和土壤应力-应变关系之间建立了一种新的联系,为未来的土壤稳定提供了宝贵的见解。研究结果表明了废酸性地下水在实际工程应用中的潜力,有助于分散土壤稳定技术的可持续发展。碱性分散土壤还有助于调节 DG 的酸碱度,控制有毒物质的排放。
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来源期刊
Journal of Environmental Management
Journal of Environmental Management 环境科学-环境科学
CiteScore
13.70
自引率
5.70%
发文量
2477
审稿时长
84 days
期刊介绍: The Journal of Environmental Management is a journal for the publication of peer reviewed, original research for all aspects of management and the managed use of the environment, both natural and man-made.Critical review articles are also welcome; submission of these is strongly encouraged.
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