Dissolution and solubility of calcite-rhodochrosite solid solutions [(Ca1-xMnx)CO3] at 25 °C

IF 0.9 4区地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS

Geochemical Transactions Pub Date : 2021-05-26 DOI:10.1186/s12932-021-00075-1

Yinian Zhu, Peijie Nong, Nan Mo, Zongqiang Zhu, Huan Deng, Shen Tang, Hongqu Yang, Lihao Zhang, Xingxing Wang

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引用次数: 2

Abstract

A complete series of calcite-rhodochrosite solid solutions [(Ca_1-xMn_x)CO₃] are prepared, and their dissolution processes in various water samples are experimentally investigated. The crystal morphologies of the solid solutions vary from blocky spherical crystal aggregates to smaller spheres with an increasing incorporation of Mn in the solids. Regarding dissolution in N₂-degassed water, air-saturated water and CO₂-saturated water at 25?°C, the aqueous Ca and Mn concentrations reach their highest values after 1240–2400?h, 6–12?h and?<?1?h, respectively, and then decrease gradually to a steady state; additionally, the ion activity products (log_IAP) at the final steady state (≈ solubility products in log_K_sp) are estimated to be ??8.46?±?0.06, ??8.44?±?0.10 and ??8.59?±?0.10 for calcite [CaCO₃], respectively, and ??10.25?±?0.08, ??10.26?±?0.10 and ??10.28?±?0.03, for rhodochrosite [MnCO₃], respectively. As X_Mn increases, the log_IAP values decrease from ??8.44?~???8.59 for calcite to ??10.25?~???10.28 for rhodochrosite. The aqueous Mn concentrations increase with an increasing Mn/(Ca?+?Mn) molar ratio (X_Mn) of the (Ca_1-xMn_x)CO₃ solid solutions, while the aqueous Ca concentrations show the highest values at X_Mn?=?0.53–0.63. In the constructed Lippmann diagram of subregular (Ca_1-xMn_x)CO₃ solid solutions, the solids dissolve incongruently, and the data points of the aqueous solutions move progressively up to the Lippmann solutus curve and then along the solutus curve or saturation curve of pure MnCO₃ to the Mn-poor side. The microcrystalline cores of the spherical crystal aggregates are preferentially dissolved to form core hollows while simultaneously precipitating Mn-rich hexagonal prisms.

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方解石-菱锰矿固溶体[(Ca1-xMnx)CO3]在25℃下的溶解和溶解度

制备了一系列完整的方解石-菱锰矿固溶体[(Ca1-xMnx)CO3]，并对其在不同水样中的溶解过程进行了实验研究。固溶体的晶体形态变化，从块状球形晶体聚集体到更小的球体，随着固体中Mn含量的增加。关于n2脱气水、空气饱和水和co2饱和水在25?水溶液中Ca和Mn的浓度在1240 ~ 2400℃时达到最大值。h, 6 - 12 ?1 h和& lt; ? ?H，然后逐渐减小至稳态;此外，方解石[CaCO3]的最终稳态离子活度产物log_IAP(≈log_Ksp中的溶解度产物)分别为8.46±0.06、8.44±0.10和8.59±0.10，红锰矿[MnCO3]的离子活度产物log_IAP和溶解度产物log_Ksp分别为10.25±0.08、10.26±0.10和10.28±0.03。随着XMn的增加，方解石的log_IAP值从8.44°~ 8.59°下降到10.25°~ 10.28°。水溶液中Mn浓度随(Ca1-xMnx)CO3固溶体Mn/(Ca + Mn)摩尔比(XMn)的增加而增加，其中Ca浓度在XMn = 0.53 ~ 0.63时达到最高值。在构建的亚规则(Ca1-xMnx)CO3固溶体Lippmann图中，固体溶解不一致，水溶液的数据点依次向上移动到Lippmann溶质曲线，然后沿着纯MnCO3的溶质曲线或饱和度曲线向贫锰一侧移动。球晶聚集体的微晶芯优先溶解形成芯空，同时析出富锰六方棱柱。

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来源期刊

Geochemical Transactions 地学-地球化学与地球物理

CiteScore

3.70

自引率

4.30%

发文量

审稿时长

>12 weeks

期刊介绍： Geochemical Transactions publishes high-quality research in all areas of chemistry as it relates to materials and processes occurring in terrestrial and extraterrestrial systems.