Synergistic mechanism of physical chemistry and acid bacteria: Product evolution of sulphides during tunnel mining

IF 1.4 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Geological Journal Pub Date : 2024-06-26 DOI:10.1002/gj.5016
Minjie He, Yuanchuan Ren, Guangfei Qu, Junyan Li, Caiyue Jin, Ye Liu, Linrui Kuang
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Abstract

Tunnel waste constitutes a prevalent by-product of highway construction in high-altitude mountainous and hilly regions. Sulphide minerals exhibit a unique distribution pattern within the alpine hills. Consequently, tunnel excavation can disrupt the stability of these sulphide minerals, rendering the tunnel waste susceptible to generating secondary environmental hazards during stockpiling. This research delves into the migration and transformation dynamics of potential environmental pollutants in tunnel waste through geoenvironmental simulation techniques. Controlled variables were employed to simulate various conditions, including surface illumination, internal anaerobiosis, water content and aerobic environments. The study's findings indicate that the presence of pyrite in the waste stream primarily drives the secondary contamination of the tunnel waste. Pyrite within the slag tends to react and form sulphuric acid in the stockpile environment, thus creating an acidic milieu that exacerbates the release of existing contaminants. The emergence of an anaerobic environment and a photocatalytic system composed of Fe/Ti substances in the waste stream serves to further accelerate pollutant release. This study thoroughly investigates the primary causes of environmental pollution during the stockpiling of tunnel slag and assesses the potential environmental impact scenarios. The outcomes of this research offer substantial theoretical and empirical support for the management of slag generated during the tunnel construction process.

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物理化学与酸性细菌的协同机制:隧道开采过程中硫化物的产物演变
隧道废弃物是高海拔山区和丘陵地带公路建设的一种普遍副产品。硫化物矿物在高山丘陵地区呈现出独特的分布模式。因此,隧道挖掘会破坏这些硫化物矿物的稳定性,使隧道废料在堆放过程中容易产生二次环境危害。本研究通过地质环境模拟技术,深入研究了隧道废弃物中潜在环境污染物的迁移和转化动态。通过控制变量来模拟各种条件,包括表面光照、内部厌氧、含水量和有氧环境。研究结果表明,废渣流中黄铁矿的存在是造成隧道废渣二次污染的主要原因。矿渣中的黄铁矿往往会发生反应,并在堆放环境中形成硫酸,从而形成酸性环境,加剧现有污染物的释放。废物流中出现的厌氧环境和由铁/钛物质组成的光催化系统进一步加速了污染物的释放。本研究深入调查了隧道炉渣堆放过程中造成环境污染的主要原因,并评估了潜在的环境影响情景。研究成果为隧道施工过程中产生的炉渣管理提供了大量的理论和经验支持。
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来源期刊
Geological Journal
Geological Journal 地学-地球科学综合
CiteScore
4.20
自引率
11.10%
发文量
269
审稿时长
3 months
期刊介绍: In recent years there has been a growth of specialist journals within geological sciences. Nevertheless, there is an important role for a journal of an interdisciplinary kind. Traditionally, GEOLOGICAL JOURNAL has been such a journal and continues in its aim of promoting interest in all branches of the Geological Sciences, through publication of original research papers and review articles. The journal publishes Special Issues with a common theme or regional coverage e.g. Chinese Dinosaurs; Tectonics of the Eastern Mediterranean, Triassic basins of the Central and North Atlantic Borderlands). These are extensively cited. The Journal has a particular interest in publishing papers on regional case studies from any global locality which have conclusions of general interest. Such papers may emphasize aspects across the full spectrum of geological sciences.
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