多层连续模式模型(MINC)用于模拟煤矿地区的被动物料运输:本文针对西博尼亚半岛的研究

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-06-01 DOI:10.1007/s10230-023-00938-2
Diego Bedoya-Gonzalez, Timo Kessler, Thomas Rinder, Sylke Hilberg, Zsuzsanna Szabó-Krausz, Maria-Theresia Schafmeister
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引用次数: 0

摘要

摘要本文测试了多重交互连续体方法(MINC)在扰动采煤后区域反应性物质输运模拟中的适用性。据作者所知,尽管这种方法在其他环境领域取得了相对的成功,但尚未在这种采矿环境中采用。为此,利用TOUGHREACT软件建立了ibbenb西油田非饱和覆盖层的MINC模型。有了它,我们检查和评估了裂缝和多孔连续体中的水岩相互作用,作为煤矿地下水中氢、铁、硫酸盐和氯化物浓度升高的主要驱动因素。通过制定和应用描述该地区采矿历史的五阶段建模过程,获得了长期和季节性的地球化学特征。模拟结果与实测的矿井水浓度和排放趋势吻合较好。氧气和大气水流经断裂连续体,导致最靠近裂缝的基质连续体中黄铁矿氧化产生的氢、铁和硫酸盐离子大量稳定释放。同样,高氯化物浓度是由于基质中相对不流动的溶质与裂缝中的渗透水相互作用时混合并逐渐释放而产生的。在这两种情况下,使用多重连续方法对于解决平流的急剧梯度和更快的动力学反应是必不可少的,同时减少了模型对裂缝-基质界面扩散输运块大小的依赖。该模型进一步允许计算和分析非饱和覆盖层中由反弹和吸胀过程引起的溶质交换和运移,与该领域的其他模型相比,这是一个开创性的成果。
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Ein multiples interaktives Kontinuumsmodell (MINC) zur Simulation des reaktiven Stofftransports in einem Bergbaufolgegebiet: Eine Fallstudie über das Ibbenbürener Westfeld
Abstract We tested the suitability of the multiple interactive continua approach (MINC) to simulate reactive mass transport in a disturbed post-mining coal zone. To the authors’ knowledge, this approach has not been employed in such mining settings despite its relative success in other environmental fields. To this end, TOUGHREACT software was used to set up a MINC model of the unsaturated overburden of the Ibbenbüren Westfield. With it, we examined and evaluated water–rock interactions in both the fractured and porous continua as the main driver of elevated hydrogen, iron, sulfate, and chloride concentrations in the coal mine groundwater. Long and seasonal geochemical signatures were obtained by formulating and applying a five-stage modelling process that depicts the mining history of the area. The simulation results agree well with the concentrations and discharge trends measured in the mine drainage. Oxygen and meteoric water flow through the fractured continuum, leading to a high and steady release of hydrogen, iron, and sulfate ions derived from pyrite oxidation in the matrix continua closest to the fractures. Likewise, high chloride concentrations resulted from the mixing and gradual release of relatively immobile solutes in the matrix as they interacted with percolating water in the fracture. In both cases, the use of a multiple continua approach was essential to resolve sharp gradients for advection and faster kinetic reactions, while reducing the model’s dependence on block size for diffusive transport at the fracture–matrix interface. The model further allows for the calculation and analysis of solute exchange and transport in the unsaturated overburden resulting from rebound and imbibition processes, something pioneering when compared to other models in the field.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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