Evaluation on liquefaction effect of potassium dissolution extraction from low-grade solid potash ore in Qarhan Salt Lake, northern of Tibetan Plateau

IF 1.1 4区 地球科学 Q3 GEOLOGY
Yachao Song, Han Hu, Chuanyong Ye, Yuanyi Zhao, Lichun Ma, Juan Zhang, Qunxiong Yan, Yuhan Lin
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Abstract

China, being the world’s largest consumer of potassium fertilizer, faces significant challenges due to limited potassium reserves. Qarhan Salt Lake stands out as a reservoir containing 296 million tons of low-grade solid potash ore (KCl), establishing itself as the premier potassium fertilizer production base in China. The extraction of low-grade solid potash ore via liquefaction technology, leading to the generation of potassium-rich brine, emerges as a pivotal strategy for sustainable potash exploitation in the region. This approach offers a promising solution to mitigate the potassium salt shortage in China. This paper systematically examines the transformation in KCl content of solid potash ore within the Bieletan section of Qarhan Salt Lake before (2007) and after liquefaction (2022). The study employs quantitative assessments to determine liquefaction volume and efficiency. Results reveal that, at a shallow depth of 23.20m, the average KCl content of solid potash ore decreases from 2.15% before liquefaction to 1.00% after liquefaction. This observed decrease of 1.15% (53% reduction) underscores the substantial impact of liquefaction. A total of 136.94 million tons of KCl are dissolved, providing a sustainable resource for approximately 15 years or more. During the initial stages of liquefaction (2007–2008), a rapid decline in the KCl content of solid potash ore is noted, with liquefaction efficiency significantly influenced by the positioning of the brine mining channel. As liquefaction progresses, efficiency diminishes, although the overall efficiency surpasses that of the Huobuxun section at the eastern extremity of Qarhan Salt Lake. This study holds significant implications for refining the solid potash liquefaction mining strategy in Qarhan Salt Lake, providing valuable guidance for future optimization efforts.

Abstract Image

青藏高原北部察尔汗盐湖低品位固体钾盐矿溶钾提取液化效应评价
中国是世界上最大的钾肥消费国,但由于钾储量有限,面临着巨大的挑战。察尔汗盐湖作为一个蕴藏着 2.96 亿吨低品位固体钾盐矿(氯化钾)的储层,成为中国首屈一指的钾肥生产基地。通过液化技术提取低品位固体钾盐矿,生成富钾盐水,是该地区钾盐可持续开发的关键战略。这种方法为缓解中国的钾盐短缺问题提供了一个前景广阔的解决方案。本文系统研究了察尔汗盐湖别勒滩段固体钾盐矿在液化前(2007 年)和液化后(2022 年)氯化钾含量的变化。研究采用定量评估来确定液化量和液化效率。结果显示,在 23.20 米的浅层,固体钾盐矿的平均氯化钾含量从液化前的 2.15% 降至液化后的 1.00%。观察到的 1.15%(减少 53%)的降幅凸显了液化的巨大影响。总共有 1.3694 亿吨氯化钾被溶解,提供了大约 15 年或更长时间的可持续资源。在液化的初始阶段(2007-2008 年),固体钾盐矿石中的氯化钾含量迅速下降,液化效率受到盐水开采通道位置的显著影响。随着液化的进行,液化效率逐渐降低,但总体效率超过了位于察尔汗盐湖东端的霍布逊段。这项研究对完善察尔汗盐湖固体钾盐液化开采战略具有重要意义,为今后的优化工作提供了宝贵的指导。
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来源期刊
Carbonates and Evaporites
Carbonates and Evaporites 地学-地质学
CiteScore
2.80
自引率
14.30%
发文量
70
审稿时长
3 months
期刊介绍: Established in 1979, the international journal Carbonates and Evaporites provides a forum for the exchange of concepts, research and applications on all aspects of carbonate and evaporite geology. This includes the origin and stratigraphy of carbonate and evaporite rocks and issues unique to these rock types: weathering phenomena, notably karst; engineering and environmental issues; mining and minerals extraction; and caves and permeability. The journal publishes current information in the form of original peer-reviewed articles, invited papers, and reports from meetings, editorials, and book and software reviews. The target audience includes professional geologists, hydrogeologists, engineers, geochemists, and other researchers, libraries, and educational centers.
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