超镁铁质矿床综合矿物碳酸化过程研究进展

Jiajie Li, M. Hitch
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引用次数: 8

摘要

大气中二氧化碳浓度的急剧增加导致了气候变化,这对地球上的人类生活构成了重大威胁。通过矿物碳酸化封存二氧化碳是减缓全球变暖最有效的方法之一,也是唯一能永久封存二氧化碳的方法。近年来,超镁铁质矿床整合矿物碳酸化因其具有巨大的商业应用潜力而受到广泛关注。本综述汇编了过去几年来各种研究人员在采矿业综合矿物碳酸化过程中所做的工作,这些过程使用矿山废料作为矿物碳酸化的二氧化碳原料。本文首先介绍了矿物碳酸化的基本理论,并简要介绍了提高矿物碳酸化率的各种技术。强化矿物碳化策略包括通过热、化学和机械活化对原料进行预处理,以及在气/固相或水相下直接或间接碳化。然后介绍了综合矿物碳酸化的应用范围。这包括适合进行综合矿物碳酸化的矿山类型、适于封存二氧化碳的矿山废料的性质以及世界范围内可能可行的综合矿物碳酸化地点。此外,本文还对采矿业的综合矿物碳酸化过程进行了批判性的回顾和讨论。综合矿物碳酸化工艺包括改良的尾矿坝被动碳酸化技术和利用新鲜尾矿的非原位碳酸化路线。重点讨论了反应条件对不同矿物学的矿山废弃物碳酸化效率的影响,以及各种综合矿物碳酸化工艺的缺点。通过讨论,提出了综合矿物碳酸化工艺改进的建议。最后,对现有综合矿物碳酸化工艺的经济评价进行了综述。迄今为止的文献表明,增值副产品(即回收的金属,有价值的碳酸化产品)在综合矿物碳酸化过程的商业化中起着重要作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Review on Integrated Mineral Carbonation Process in Ultramafic Mine Deposit
Dramatical increase in the CO 2 concentration in the atmosphere has led to the climate change, which poses a significant threat to human life on Earth. CO 2 sequestration via mineral carbonation is the one of the most effective method for mitigating global warming, and is the only way that could store CO 2 permanently. In recent years, integrating mineral carbonation via ultramafic mine deposit has received significant attention due to its high potentiality towards commercial application. This review compiles the work conducted by various researchers over the last few years on integrated mineral carbonation processes in mining industry, which use the mine waste materials as CO 2 feedstock for mineral carbonation. This paper initially introduces the basic theory of mineral carbonation, with a brief description of various techniques that enhance the rate of mineral carbonation. The enhanced mineral carbonation strategies include pre-treatment of feedstock by thermal, chemical and mechanical activation, and carbonation in a direct or indirect carbonation routes under gas/solid phase or aqueous phase. This paper then introduces the scope of application of integrated mineral carbonation. This includes the types of mine suitable for integrated mineral carbonation, the properties of mine waste materials preferable for CO 2 sequestration, and the worldwide locations potentially viable for integrated mineral carbonation. Moreover, this paper critically reviews and discusses the integrated mineral carbonation process in mining industry. The integrated mineral carbonation processes include modified passive carbonation techniques at tailing dams, and ex-situ carbonation routes using fresh tailings. The focus of the discussions is the role of reaction condition on the carbonation efficiency of mine waste with various mineralogy, and the drawback of each integrated mineral carbonation process. All the discussions lead to the suggestions on the technology improvement in the integrated mineral carbonation process. Finally, this paper reviews the economical assessments on the existing integrated mineral carbonation process. Literature to date indicates that the value-add by-products (i.e. recovered metals, valuable carbonated products) play an important role in commercialization of an integrated mineral carbonation process.
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