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Digital Mine Research and Practice Based on Mining and Metallurgy System Engineering

An-lin Shao

《工程管理前沿（英文）》 2016年第3卷第1期页码 67-73 doi: 10.15302/J-FEM-2016006

摘要： Iron ore is necessarily basic raw material for industrialization and urbanization and related to the industrial distribution and development programming. The lean iron ore resource in our country is high-cost and low-efficiency, which cannot meet the demand of iron and steel industry, and even endanger the safety of industrial economy. Ansteel mining has created “grade decision-based multi-system integration” mode of mining and metallurgy system engineering and realized scale and efficient development of lean iron ore on basis of the construction of digital mines. Moreover, the “wisdom mines” was proposed and had led to the transformation and upgrading of iron developments.

关键词： exploration of lean iron ore mining and metallurgy system engineering digital mine wisdom mine

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Integrated Optimization and Management of Mining Engineering—Coordinative Operation and Optimal Managementof Five processes in Mining Engineering

An-lin Shao,Rui-yu Yin

《工程管理前沿（英文）》 2014年第1卷第2期页码 153-159 doi: 10.15302/J-FEM-2014023

摘要： In the view of engineering philosophy, the mining engineering is a dynamic operating process of ferrous material flow, in which the ferrous material flow is processed orderly through a series of continual coordinated procedures. It is also a process of discarding the dross, selecting the essential, and extracting the original metal. The object of management is to fulfill the multi-objective optimization. The proportion of lean ores in iron ore resources is 82% in the world and even 97% in China but their utilization is very low. Aiming at the bottleneck and weakness of China’s resource development, this paper analyzes and plans the mining engineering system as a whole based on the ideas and methods of system theory and engineering philosophical thinking. And the paper proposes the “grade decision-based multi-system integration” engineering management mode, which considers the relationship between engineering and environment and complies with the natural law. In the mode, the mining engineering, including geologic mining, ore blending, concentration and pelleting, can be viewed as a whole and the geological grade, mined ore grade, feed grade, concentrate grade and feed grade of blast furnace can be considered comprehensively. The mode reflected the overall structural optimization idea, realized the analysis, coordination and optimization among the multiple functions and processes, and thus drove the overall efficient and profit optimization throughout the processing flow. The establishment and the application of the “grade decision-based multi-system integration” mode have solved the lean iron ores exploitation problem and supported the “self-sufficiency” resource strategy.

关键词： multi-system integration engineering management objective optimization lean ores exploitation engineering philosophy mode

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2018年度化工、冶金与材料工程前沿

化工、冶金与材料工程项目组

《全球工程前沿》 2018年第2卷第1期页码 55-78

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科技创造卓越——飞速发展的长沙矿冶研究院

《中国工程科学》 2001年第3卷第8期页码 93-94

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抓住转制机遇加快改革发展的北京矿冶研究总院

《中国工程科学》 2000年第2卷第1期页码 90-91

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2019年度能源与矿业工程前沿

能源与矿业工程项目组

《全球工程前沿》 2019年第3卷第1期页码 73-102

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2022年度能源与矿业工程前沿

能源与矿业工程项目组

《全球工程前沿》 2022年第6卷第1期页码 92-123

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Technology Development and Engineering Practice for Protection and Utilization of Water Resources inCoal Mining in Western China

Da-zhao Gu

《工程管理前沿（英文）》 2016年第3卷第1期页码 59-66 doi: 10.15302/J-FEM-2016010

摘要： Shanxi, Shaanxi, Inner Mongolia, Ningxia, and Gansu (hereafter generally referred as “the Western Area”) are major coal-producing areas in China due to rich coal resources and good mining conditions. However, the Western Area has a serious water shortage. The surface evaporation is huge and a great amount of mine water generated in coal mining is evaporated and lost after discharging to surface. In order to protect and utilize the water resources during large-scale coal mining in the Western Area, Shenhua Group has put forward a technological idea to store mine water in underground mined areas and successfully researched and developed the coal mine underground reservoir technology by solving the technical difficulties of water source prediction, reservoir site selection, reservoir capacity design, dam construction, safety guarantee, water quality control and so on through 20 years of exploration. Now Shenhua Group has successfully established a batch of reservoir in the Shendong Mining Area, obtaining great economic and social benefits. The technology is also extended to other western mining areas, providing an effective path for harmonic mining of coal and water resources in western China.

关键词： Western Mining Area coal mining water resources coal mine underground reservoirs

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中国工程院化工、冶金与材料工程学部第五届学术会议

《中国工程科学》 2004年第6卷第11期页码 93-94

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2021年度能源与矿业工程前沿

能源与矿业工程项目组

《全球工程前沿》 2021年第5卷第1期页码 83-110

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2023年度能源与矿业工程前沿

能源与矿业工程项目组

《全球工程前沿》 2023年第7卷第1期页码 94-127

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中国铀矿采冶技术发展与展望

阙为民,王海峰,牛玉清,张飞凤,谷万成

《中国工程科学》 2008年第10卷第3期页码 44-53

摘要：

对中国铀矿采冶工业的发展作了全面的回顾，重点介绍了中国铀矿地浸、堆浸、原地爆破浸出技术的研究进展与应用水平；在对中国铀矿采冶形势和存在的问题分析的基础上，结合矿床资源的特点，指出了中国铀矿采冶技术发展的方向。21世纪中国铀矿冶工业面临新的发展机遇和挑战，只有开发新的采、选、冶技术，提高铀资源的利用水平，减少铀矿采冶对环境的影响，才能实现铀矿冶的可持续发展和经济与环境的协调发展。

关键词：铀矿开采地浸堆浸提取纯化发展