Dissolution behavior and kinetic investigation of 〖Ca〗^(2+) in the dissolution of colemanite in propionic acid presence saturated with synthetic flue gas

Journal of Boron Pub Date : 2024-01-21 DOI:10.30728/boron.1380919

Mücahit Uğur

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Abstract

Colemanite (〖2CaO.3B〗_2 O_3.5H_2 O) is a calcium borate mineral and can be expressed as the primary material of industrial production of boric acid. Boric acid is one of the most essential raw materials obtained by solving colemanite ore in acidic solutions and gases. The dissolution behavior and kinetics of 〖Ca〗^(2+) in a solution of colemanite in a propionic acid solution saturated with synthetic flue gas were examined. In this context; the effects of particle size, reaction temperature, acid concentration, solid-liquid ratio and synthetic flue gas flow rate parameters were investigated. According to the experimental data, it was observed that the amount of 〖Ca〗^(2+) passing to the solution increased with the increase of the reaction temperature, acid concentration and gas flow rate, and with the decrease in solid-liquid ratio and grain size. Experimental results were analyzed by homogeneous and heterogeneous models using the Statistica package program, and it was determined that the dissolution of 〖Ca〗^(2+) in solution complies with the “Avrami” model. The activation energy (E) was found as 〖26.83 kJ.mol〗^(-1) and the Arrhenius constant (A) was found as 〖8.9*10〗^3.

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合成烟气饱和丙酸存在下珂罗曼石溶解过程中〖钙〗^(2+)的溶解行为和动力学研究

钴酸盐（〖2CaO.3B〗_2 O_3.5H_2 O）是一种硼酸钙矿物，可以说是工业生产硼酸的主要原料。硼酸是在酸性溶液和气体中溶解珂罗版纳矿石而获得的最基本原料之一。研究人员考察了〖钙〗^(2+)在珂罗曼石溶液中的溶解行为和动力学。在此背景下，研究了粒度、反应温度、酸浓度、固液比和合成烟气流速等参数的影响。实验数据表明，随着反应温度、酸浓度和气体流速的增加，溶液中〖〗Ca^(2+)的通过量增加，而随着固液比和粒度的减小，溶液中〖〗Ca^(2+)的通过量减小。利用 Statistica 软件包程序通过均相和异相模型对实验结果进行了分析，确定〖Ca〗^(2+)在溶液中的溶解符合 "Avrami "模型。活化能（E）为〖26.83 kJ.mol〗^(-1)，阿伦尼乌斯常数（A）为〖8.9*10〗^3。

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来源期刊

Journal of Boron

CiteScore

0.70

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0.00%

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