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主办单位:煤炭科学研究总院有限公司、中国煤炭学会学术期刊工作委员会
硫酸铵强化石膏溶解矿化制备高纯CaCO3
  • Title

    Investigation on high-purity CaCO3 by ammonium sulfate enhancedgypsum dissolution mineralization

  • 作者

    刘妍汝钟山唐思扬杨柯宋磊李红娇梁斌

  • Author

    LIU Yanru;ZHONG Shan;TANG Siyang;YANG Ke;SONG Lei;LI Hongjiao;LIANG Bin

  • 单位

    四川大学化学工程学院四川发展环境科学技术研究院有限公司四川省工业废水污染治理及低碳资源化工程技术研究中心四川大学新能源与低碳技术研究院

  • Organization
    School of Chemical Engineering,Sichuan University
    Sichuan Development EnvironmentalScience and Technology Research Institute Co.,Ltd.
    Sichuan Provincial Industrial WastewaterPollution Control and Low Carbon Resource Utilization Engineering Technology Research Center
    Research Institute of New Energy and Low Carbon Technology,Sichuan University
  • 摘要
    近年来,利用固废石膏矿化CO2联产CaCO3及硫酸铵工艺技术受到广泛关注,然而由于固废石膏成分复杂,分离纯化困难,成本与矿化产品品质难以兼顾导致其无法大规模工业化利用。为此,以硫酸钙及磷石膏为原料,提出以石膏矿化液相产物硫酸铵溶液强化硫酸钙溶解浸出,液固分离后再进行矿化的间接矿化工艺。试验研究了溶解强化过程中硫酸铵浓度及溶解浸出时间对硫酸钙溶解特性的影响,以及矿化过程中氨水浓度、温度、矿化反应时间等因素对矿化过程和矿化产物的影响。确定了优化的溶解与矿化工艺条件,基于此,进一步研究磷石膏的间接矿化过程,结果表明,与直接矿化相比,间接矿化可使CaCO3产品纯度由82.2%提高至98.6%,且产品粒度D50由22.00μm降至10.98μm。间接矿化工艺可有效强化石膏溶解浸出过程,避免引入外加介质,并制备高纯度轻质CaCO3,相关研究可为固废石膏矿化CO2技术的经济应用提供基础支持。
  • Abstract
    In recent years, the technology of using solid waste gypsum to mineralize CO2 and co-produce CaCO3 and ammonium sulfate hasreceived widespread attention. However, due to the complex composition of solid waste gypsum, difficult separation and purificationprocesses, and the difficulty in balancing cost and mineralization products quality, the gypsum mineralization technology is unable toachieve large-scale industrial utilization. Therefore, calcium sulfate and phosphogypsum were used as raw materials and proposed an indirect mineralization process, which firstly using ammonium sulfate solution, a liquid phase product of gypsum mineralization, to enhancethe dissolution and leaching of calcium sulfate, followed by liquid-solid separation, and then mineralized with the calcium sulfate solution.The effects of ammonium sulfate concentration and dissolution leaching time on the dissolution strengthening process were experimentallyinvestigated, and the effects of ammonium concentration, temperature and mineralization reaction time on the mineralization processand mineralization products were discussed as well. The optimized dissolution and mineralization process conditions were determined, basing on which the indirect mineralization process of phosphogypsum was further studied. The experimental results show that, compared withdirect mineralization, indirect mineralization can increase the purity of CaCO3 products from 82.2% to 98.6%, and can decrease the particle size D50 from 22.00 μm to 10.98 μm. The indirect mineralization process can effectively strengthen the dissolution and leaching processof gypsum, avoid the introduction of external media, and prepare high-purity light CaCO3. The present research can provide basic supportfor the economic application of CO2 technology for solid waste gypsum mineralization.
  • 关键词

    CO2矿化溶解强化CaCO3石膏固废资源化利用

  • KeyWords

    CO2 mineralization;dissolution strengthening;CaCO3;gypsum based industrial solid waste;resourceful utilization

  • 基金项目(Foundation)
    四川省重点研发计划资助项目(2022YFS0448)
  • DOI
  • 引用格式
    刘妍汝,钟山,唐思扬,等.硫酸铵强化石膏溶解矿化制备高纯CaCO3[J].洁净煤技术,2024,30(4):137-145.
  • Citation
    LIU Yanru,ZHONG Shan,TANG Siyang,et al.Investigation on high-purity CaCO3 by ammonium sulfate enhanced gypsumdissolution mineralization[J].Clean Coal Technology,2024,30(4):137-145.
  • 相关专题
  • 图表
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    • 间接矿化反应流程示意

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