矿物溶解速率的概率分布:晶格缺陷的作用

IF 2.6 Q2 WATER RESOURCES Frontiers in Water Pub Date : 2023-09-28 DOI:10.3389/frwa.2023.1225837
Inna Kurganskaya, Andreas Luttge
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引用次数: 0

摘要

矿物溶解速率的正确定量是宏观反应输运模型的关键任务。以往的研究表明,其速率变化幅度约为两个数量级,这不能仅用外部环境参数的变化来解释。如果速率不能作为一个常数参数来预测,那么关键的问题是它是否可以作为一个稳定的可重复的概率分布来预测。虽然各种各样的因素可能会导致跨尺度的总体方差,但缺陷密度和缺陷空间分布的影响可以被认为是关键的方差来源之一。在这里,我们测试了具有不同晶格位错数量和空间构型的科塞尔晶体概率分布的再现性。我们对具有相同配置的系统进行了几次测试,并计算了材料通量的概率。令人惊讶的是,我们发现位错密度对概率分布的影响很小。然而,位错的空间位置对速率分布的再现性有很大的影响。在多个蚀刻坑同时工作的情况下,无论位错的数量如何,都可以发现可重复的速率分布。在位错形成簇的情况下,一个大的蚀刻坑控制整个表面,并检测到可重复的概率分布集。然后,由于结果依赖于路径,预计会出现更复杂的统计行为。这些结果对反应输运模型中速率分布的实现产生了严重的影响。然而,需要进一步的研究来提供有关表面形貌、位错分布和溶解速率变化的明确指导。材料的特殊性质,如晶体结构和键合,在速率分布中的作用,应该另外加以解决。在实际应用中,晶粒边界、晶体尺寸和晶体习惯(包括纳米颗粒形式)在速率变化中的作用也应该得到解决。
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Probability distributions of mineral dissolution rates: the role of lattice defects
The correct quantification of mineral dissolution rates is a critical task for macroscopic reactive transport modeling. Previous studies showed a substantial rate variability of about two orders of magnitude, which cannot be explained by variance of external environmental parameters alone. If the rate cannot be predicted as a constant parameter, then the critical question is whether it can be predicted as a stable reproducible probability distribution. Although a large variety of factors may contribute to the overall variance across the scales, the effect of defect density and defect spatial distribution can be considered as one of the key variance sources. Here, we tested the reproducibility of probability distributions for Kossel crystals with a different amount and spatial configurations of lattice dislocations. We ran several tests on systems with the same configurations and calculated the probabilities of material flux. Surprisingly, we discovered that the density of dislocations has minimal impact on the probability distributions. However, the spatial location of dislocations has a substantial influence on the rate distributions reproducibility. In cases where multiple etch pits operate simultaneously, reproducible rate distributions are found regardless of the number of dislocations. In cases where dislocations formed clusters, one large etch pit controlled the entire surface, and sets of reproducible probability distributions were detected. Then, more complex statistical behavior is expected, since the result is path-dependent. These results have serious consequences for the implementation of rate distributions in reactive transport models. Further studies, however, are needed to provide clear guidance on relating surface morphologies, dislocation distributions, and dissolution rate variance. The role of material-specific properties, such as crystallographic structure and bonding, in rate distributions, should be additionally addressed. The role of grain boundaries, crystal size and crystal habit, including nanoparticulate forms, in rate variance, also should be addressed for practical applications.
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来源期刊
Frontiers in Water
Frontiers in Water WATER RESOURCES-
CiteScore
4.00
自引率
6.90%
发文量
224
审稿时长
13 weeks
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