Mining of non-metallic mineral deposits in the context of Ukraine’s reconstruction in the war and post-war periods

IF 2.8 Q2 MINING & MINERAL PROCESSING
P. Saik, Oleksii Cherniaiev, O. Anisimov, R. Dychkovskyi, Andrii Adamchuk
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Abstract

Purpose. The research purpose is to study the conditions for mining deposits of metamorphic and igneous origin to produce crushed stone products in conditions of limited electricity supply. Methods. The research uses an integrated approach, including data analysis on quarry field spatial dimensions and the overburden rock thickness, which provides the basis for identifying deposits into basic groups. For the identified groups of deposits, taking into account the hydrological characteristics of non-metallic deposits and their parameters, patterns have been determined that characterize the change in the normative atmospheric precipitation inflow, based on the quarry field area and the change in the specific costs for water drainage depending on the studied quarry field type. Based on data on technical characteristics of mobile and semi-stationary units and aggregates, the parameters of physical-mechanical properties of granites and diorites, technical-technological solutions for the formation of complexes for processing raw materials for the production of crushed stone products are proposed. Findings. Problems arising during mining operations under conditions of limited electricity supply, which is caused by mass attacks on Ukraine’s energy infrastructure, have been revealed. A systematization of deposits of igneous and metamorphic origin for mining of rock building materials, which are the basis for the production of crushed stone products, has been developed. The rates of water inflow into the mined-out space depending on the quarry field spatial parameters and the depth of mining operations have been studied. Technological schemes of the apparatuses of a complex for processing raw materials for production of crushed stone products and the apparatuses of a complex for processing siftings are proposed. Originality. Dependences of possible water inflow into the mined-out space of the quarry and change in energy consumption for water drainage have been determined, taking into account the accepted classification criteria, namely the quarry field spatial dimensions, the overburden rock thickness and the quarry depth. Practical implications. The obtained data on the possible water inflow into the mined-out space of the quarry and change in energy consumption for water drainage make it possible to assess the efficiency of pumping units. The proposed technical-technological solutions on formation of complexes for processing raw materials to produce crushed stone products have been developed in accordance with the fundamental provisions of the Law of Ukraine “On approval of the National program for the development of the mineral resource base of Ukraine for the period up to 2030”.
乌克兰战时和战后重建背景下的非金属矿开采
目的。研究目的是研究在电力供应有限的条件下,变质岩和火成岩矿床生产碎石产品的条件。研究方法。研究采用综合方法,包括对采石场空间尺寸和覆盖层岩石厚度进行数据分析,为确定矿床基本组别提供依据。对于已确定的矿床组,考虑到非金属矿床的水文特征及其参数,确定了以采石场面积为基础的常规大气降水流入量变化特征模式,以及根据所研究的采石场类型确定的排水具体成本变化特征模式。根据移动式和半固定式设备及集料的技术特征数据、花岗岩和闪长岩的物理机械性能参数,提出了为生产碎石产品而形成原材料加工联合体的技术工艺方案。研究结果揭示了在电力供应有限的条件下采矿作业时出现的问题,这些问题是由于乌克兰能源基础设施受到大规模攻击造成的。对火成岩和变质岩矿床的开采进行了系统化,这些矿床是生产碎石产品的基础。研究了根据采石场空间参数和采矿作业深度进入开采空间的水流速度。提出了用于生产碎石产品的原材料加工综合体设备和筛分物加工综合体设备的技术方案。独创性。考虑到公认的分类标准,即采石场空间尺寸、覆盖层岩石厚度和采石场深度,确定了可能流入采石场已开采空间的水量和排水能耗变化的相关性。实际意义。根据所获得的关于采石场开采空间可能的进水量和排水能耗变化的数据,可以对抽水装置的效率进行评估。根据乌克兰 "关于批准至 2030 年乌克兰矿产资源基础发展国家计划 "法律的基本 规定,制定了关于形成加工原材料以生产碎石产品的综合体的技术工艺方案。
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来源期刊
Mining of Mineral Deposits
Mining of Mineral Deposits MINING & MINERAL PROCESSING-
CiteScore
5.20
自引率
15.80%
发文量
52
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