Low- and zero-cement frozen backfill within permafrost mining conditions: A review.

IF 8 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Journal of Environmental Management Pub Date : 2024-11-13 DOI:10.1016/j.jenvman.2024.123335
Fatemeh Tavanaei Sereshgi, Ferri Hassani, Alessandro Navarra, Agus Sasmito, Mehrdad Fadaei Kermani
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Abstract

This review examines the emerging field of unconventional backfilling methods in freezing conditions, specifically tailored for remote mining operations in permafrost regions. Meeting the demand for mineral resources while addressing environmental concerns necessitates innovative approaches in mineral production and mining operations. This review aims to give a very first catalog of novel unconventional backfills in freezing conditions which is being encountered in remote mining areas like permafrost regions. As mining expands into these challenging environments, logistical obstacles, high costs, and environmental considerations arise. Conventional backfilling often relies on cement, which poses economic and environmental challenges due to carbon emissions and costs. Research has explored alternative backfill compositions and deployment strategies. Unconventional mixtures, sometimes without cement or using alternative binders, have gained attention in freezing conditions. Studies suggest that frozen backfill can be stronger than unfrozen alternatives, with water acting as a natural binder during freezing. However, the extended freezing process requires innovative deployment methods and consideration of seasonal limitations. Key findings indicate that faster freezing processes can improve strength, yet the adverse effects of freezing on cement hydration necessitate alternative materials, such as zero-cement backfill and using alternative binders. Despite the promise of unconventional backfilling, several areas still require further exploration. Mechanisms to enhance freezing rates, alternative binder materials, and factors affecting strength and thermal conductivity need continued investigation. In our pursuit of novel backfilling methods, there remains much ground to cover. The main outcome of this review is the identification and evaluation of unconventional backfill materials and methods for use in freezing conditions, highlighting their potential advantages over conventional cement-based backfills. It underscores the need for further research into alternative binders, deployment strategies, and the optimization of freezing processes to enhance backfill strength and address economic and environmental concerns in remote mining areas.

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永冻土采矿条件下的低水泥和零水泥冷冻回填:综述。
本综述探讨了冰冻条件下的非常规回填方法这一新兴领域,特别是针对永久冻土地区的偏远采矿作业。要满足对矿产资源的需求,同时解决环境问题,就必须在矿产生产和采矿作业中采用创新方法。本综述旨在首次介绍在永冻土地区等偏远矿区遇到的冰冻条件下的新型非常规回填方法。随着采矿业向这些具有挑战性的环境扩展,出现了物流障碍、高成本和环境因素。传统的回填通常依赖水泥,由于碳排放和成本问题,这给经济和环境带来了挑战。研究人员探索了替代回填成分和部署策略。非常规混合物(有时不使用水泥或使用替代粘结剂)在冰冻条件下备受关注。研究表明,冷冻回填土比未冷冻的回填土更坚固,因为水在冷冻过程中起着天然粘结剂的作用。然而,延长冻结过程需要创新的部署方法并考虑季节限制。主要研究结果表明,更快的冻结过程可以提高强度,但冻结对水泥水化的不利影响使得有必要使用替代材料,如零水泥回填和使用替代粘结剂。尽管非常规回填技术前景广阔,但仍有几个领域需要进一步探索。需要继续研究提高冻结率的机制、替代粘结剂材料以及影响强度和导热性的因素。在探索新型回填方法的过程中,我们仍有许多工作要做。本综述的主要成果是确定和评估了在冰冻条件下使用的非常规回填材料和方法,强调了它们相对于传统水泥基回填材料的潜在优势。它强调了进一步研究替代粘结剂、部署策略和优化冻结过程的必要性,以提高回填强度,解决偏远采矿地区的经济和环境问题。
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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来源期刊
Journal of Environmental Management
Journal of Environmental Management 环境科学-环境科学
CiteScore
13.70
自引率
5.70%
发文量
2477
审稿时长
84 days
期刊介绍: The Journal of Environmental Management is a journal for the publication of peer reviewed, original research for all aspects of management and the managed use of the environment, both natural and man-made.Critical review articles are also welcome; submission of these is strongly encouraged.
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