Blue Mining – Today’s Mine Planning for Future Mines

O. Langefeld, A. Binder
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Abstract

The future of mining will be characterized not only by the application of modern technology, but also by the harmonization of economic, environmental and social issues. These areas set major future challenges which are complex and demand extensive knowledge. As an example, mining of highly complex orebodies for the supply of often critical raw materials, needs to consider technically demanding and cost-intensive extraction issues. The amount of tailings, which need to be stored, increases with the amount of ore mined. Therefore, the negative impact on environment and society increases. Hence mining becomes expensive with regard to all three aspects: economy, environment and society. In view of a sustainable mining practice this challenge should be used as an opportunity. The positive impact should be maximized for present and future generations. The objective is to create and use the mining openings in an optimum way related to sustainability. The approach of Blue Mining, which focuses on energy and ergonomics in the field of Sustainable Development, enhances the closure planning by recommending subsequent usage of such openings for energy storage. The approach fosters among others the implementation of the 7th Goal for Sustainable Development defined by the United Nations with the assurance of access to affordable, reliable, sustainable and modern energy for all. The usage of underground storage increases the stability of solar and water power usage, which are otherwise unreliable. Blue Mining embeds these issues in the main planning effort long before groundbreaking. This approach involves experience from past and current projects. This paper introduces the concept of Blue Mining with respect to post-mining utilization of a mine for energy storage. Methods and perspectives are presented with examples covering best-practices and lessons-learned.
蓝色采矿-今天的矿山规划为未来的矿山
采矿的未来将不仅以现代技术的应用为特点,而且以经济、环境和社会问题的协调为特点。这些领域对未来构成了重大挑战,这些挑战既复杂又需要广泛的知识。例如,开采高度复杂的矿体以供应往往至关重要的原料,需要考虑技术要求高和成本高的开采问题。尾矿的储存量随着矿石开采量的增加而增加。因此,对环境和社会的负面影响增加。因此,采矿在经济、环境和社会三个方面都变得昂贵。鉴于可持续的采矿做法,这一挑战应作为一个机会加以利用。应该为今世后代最大限度地发挥积极影响。目标是以与可持续性相关的最佳方式创建和使用采矿开口。Blue Mining的方法侧重于可持续发展领域的能源和人体工程学,通过建议随后使用这些开口进行能源储存,加强了封闭规划。这一方针除其他外,促进落实联合国确定的第七个可持续发展目标,确保所有人都能获得负担得起的、可靠的、可持续的现代能源。地下储存的使用增加了太阳能和水力发电的稳定性,否则这些都是不可靠的。Blue Mining早在动工前就将这些问题纳入了主要规划工作。这种方法涉及过去和当前项目的经验。本文从矿山开采后储能利用的角度,介绍了蓝色开采的概念。方法和观点与涵盖最佳实践和经验教训的示例一起呈现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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