在越南采用生态友好型生物固化法进行土壤改良和环境修复:最新进展综述

Ngoc Tri Huynh Nguyen, Pham Huong Huyen Nguyen, Hoang Thien Khoi Nguyen, Khanh Son Nguyen
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引用次数: 0

摘要

科学家们一直在利用微生物,通过一种名为 "生物固结 "的过程来提高土壤强度和耐久性。这种技术包括诱导矿物质沉淀,形成一种类似水泥的材料,从而增强土壤性质。生物固结技术在各种应用领域都取得了成功,包括土壤稳定、侵蚀控制和地下水修复。研究人员正在优化养分浓度和比例,以创造有利于微生物活动的环境,促进矿物的有效形成。不同的微生物诱导矿化的能力各不相同,循环处理在刺激生物矿化过程方面已显示出良好的前景。生物固化是一种可持续的生态友好型技术,可以稳定和固定土壤和地下水中的污染物,防止污染物扩散。尽管存在这些挑战,生物固结在创新性土壤改良和环境修复方面仍具有巨大潜力。为了深入了解这一前景广阔的方法,我们回顾了近年来世界各国和越南研究小组的最新研究、实验、测试设备和成果。目前正在进行的研究旨在开发具有成本效益和可持续的方法,以大规模生产和应用生物固化剂。还需要进一步研究,以揭示其复杂的机理,并确定适用于各种应用和环境条件的最佳策略。
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Eco-friendly method of biocementation for soil improvement and environmental remediation in the context of Viet Nam: a state-of-the-art review
Scientists have been using microorganisms to improve soil strength and durability through a process called biocementation. This technique involves inducing mineral precipitation to form a cement-like material that enhances soil properties. Biocementation has been successful in various applications, including soil stabilization, erosion control, and groundwater remediation. Researchers are optimizing nutrient concentrations and ratios to create a favorable environment for microbial activity and promote efficient mineral formation. Different microorganisms have varying abilities to induce mineralization, and cycle treatments have shown promise in stimulating biomineralization processes. Biocementation is a sustainable and eco-friendly technique that can stabilize and immobilize contaminants in soil and groundwater, preventing the spread of pollutants. Despite these challenges, biocementation holds great potential for innovative soil improvement and environmental remediation. Recent studies, experiments, testing devices, and results from research groups in the world and Vietnam in recent years were reviewed to gain insight into this promising approach. Ongoing research aims to develop cost-efficient and sustainable methods for large-scale production and application of biocementing agents. Further research is needed to uncover the intricate mechanisms and identify optimal strategies for applications and environmental conditions.
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