Effect of pH, CO2, and Organic Ligand on the Kinetics of Talc and Lizardite Dissolution

IF 0.7 4区地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS Geochemistry International Pub Date : 2024-05-09 DOI:10.1134/S0016702923700167

O. N. Karaseva, L. Z. Lakshtanov, D. A. Khanin, A. S. Proskuryakova

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Abstract

Natural Mg phyllosilicates are potential sources of divalent cations, which are necessary for the mineralization of CO₂ into carbonates. The influence of inorganic (\({\text{HCO}}_{3}^{ - }\)) and organic (oxalate and citrate) ligands on the dissolution kinetics of talc and serpentine was studied in experiments in a flow-through reactor at 25°C. The dissolution rates of natural silicates r (mol cm^–2 s^–1) in solutions of various composition were calculated at the stationary stage of dissolution after a rapid initial stage, which is characterized by the formation of a surface leached layer depleted in magnesium. The presence of ligands increases the dissolution rate of magnesium silicates due to the formation of surface complexes, which leads to magnesium separation from the surface and transfer into solution. The initial incongruent stage may be the most promising for the development of carbonation technologies, because the minimum removal of the network-forming elements prevents the undesirable formation of secondary minerals (for example, clays), which exclude divalent cations from the carbonation process and greatly reduce the permeability of rocks.

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pH 值、二氧化碳和有机配体对滑石和蜥蜴石溶解动力学的影响

天然植硅酸镁是二价阳离子的潜在来源，而二价阳离子是二氧化碳矿化成碳酸盐的必要条件。在 25°C 的流动反应器中，研究了无机（{text{HCO}}_{3}^{ - }\ ）和有机（草酸盐和柠檬酸盐）配体对滑石和蛇纹石溶解动力学的影响。计算了天然硅酸盐在不同成分溶液中的溶解速率 r（mol cm-2 s-1），该速率是在快速溶解的初始阶段之后的静止阶段计算得出的，该阶段的特点是形成了一个表面浸出层，镁含量减少。配体的存在会增加硅酸镁的溶解速率，这是因为表面络合物的形成导致镁从表面分离并转移到溶液中。最初的不协调阶段可能是最有希望开发碳化技术的阶段，因为网络形成元素的最小去除可以防止次生矿物（如粘土）的不良形成，而次生矿物会将二价阳离子排除在碳化过程之外，并大大降低岩石的渗透性。

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来源期刊

Geochemistry International 地学-地球化学与地球物理

CiteScore

1.60

自引率

12.50%

发文量

审稿时长

1 months

期刊介绍： Geochemistry International is a peer reviewed journal that publishes articles on cosmochemistry; geochemistry of magmatic, metamorphic, hydrothermal, and sedimentary processes; isotope geochemistry; organic geochemistry; applied geochemistry; and chemistry of the environment. Geochemistry International provides readers with a unique opportunity to refine their understanding of the geology of the vast territory of the Eurasian continent. The journal welcomes manuscripts from all countries in the English or Russian language.