浸出(土壤学)
溶解
试剂
放热反应
化学
硅酸钙
原材料
钙
水解
冶金
化学工程
无机化学
醋酸
活化能
红土
硅酸盐矿物
硅酸盐
材料科学
铝土矿
镁
制浆造纸工业
浸出剂
碱度
反应机理
作者
Kai Zhang,Qiong Cang,Lijie Peng,Yitong Wang,Shan Zhang,Hongyang Li,Shan Yu,Baojia Hu,Xin Yao,Du Peipei,Yajun Wang
出处
期刊:Processes
[Multidisciplinary Digital Publishing Institute]
日期:2025-12-17
卷期号:13 (12): 4077-4077
被引量:2
摘要
Converter steel slag (BOFS) contains abundant reactive Ca-bearing minerals and represents a promising feedstock for indirect CO2 mineralization. However, conventional acid leaching suffers from excessive reagent consumption and low process sustainability. This study develops a “water–acetic acid” two-step leaching strategy aimed at reducing acid/alkali usage while enhancing calcium recovery. Thermodynamic calculations were performed to elucidate the hydrolysis behaviors of primary phases (f-CaO, C3S, and β-C2S) and the stability of secondary minerals in BOFS. The kinetic behavior and dissolution mechanisms of water-leached residues in acetic acid were further analyzed. Parametric experiments were conducted to evaluate the effects of the liquid-to-solid ratio (L/S), temperature, stirring rate, and acid concentration. Results show that the L/S is the dominant factor controlling Ca dissolution in both steps, while temperature exerts opposite effects: lower temperatures favor water leaching due to the exothermic nature of silicate hydrolysis, whereas higher temperatures enhance acid leaching. The proposed two-step route achieves a Ca recovery of 75.9%, representing a 7.6% improvement over direct acid leaching, while lowering acid consumption by ∼90%. This work provides mechanistic insight and process evidence supporting the efficient and sustainable utilization of BOFS for indirect CO2 mineralization.
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