Critical Technology Environment Management With CSR in BCCL

Mining is the most dangerous peacetime profession and coal mining is more so because of fire by spontaneous combustion, methane explosion, etc. Out of 7 subsidiaries of Coal India, Bharat Coking Coal Ltd. have maximum environmental challenges. The authors have studied the critical issues of management and presented summarily how the problems are being tackled. CIL has strongly fostered the belief that people living in mining areas are important stakeholders in the process of mine development and taking various activities for the development of the area. In this paper, the roles of different stakeholders in a coal company are analyzed for all-around development and cooperation. The global scenario on CSR has also been studied. In this paper, the authors have described special studies in sustainable mining with stakeholder engagement in Bharat Coking Coal Ltd, a subsidiary of Coal India Ltd, a major producer of valuable coking coal in India. The results ensured trouble-free operations among highly unemployed people in the mining areas, because of the closure of uneconomic mines. Keywords: Mines Fire Control; Pollution Control; Impact of Mining: Corporate Social Responsibility; Stake-holders role; Inclusive Growth.

Comminution and Mineral Separation—Geological Input to Metallurgy

Editor’s note: The aim of the Geology and Mining series is to introduce early-career professionals and students to various aspects of mineral exploration, development, and mining, in order to share the experiences and insight of each author on the myriad of topics involved with the mineral industry and the ways in which geoscientists contribute to each. Abstract Communication and collaboration during mine development and operation are essential if the maximum value of a mineral deposit is to be realized, since there are many links between the geology and mineralogy of an orebody and the complex task of an effective plant design. This is only achieved when geologists, metallurgists, and mining and environmental engineers jointly assess the results of metallurgical characterization. This requirement is examined here, albeit for only two of the three metallurgical ore-processing activities—comminution and mineral separation. Wealth is not captured (i.e., is destroyed) unless the most efficient and effective methods for comminuting and separating the mineral(s) of value in a deposit are identified. Benchmarking metallurgical test work requirements for the next mine development based solely on past experience does not address the variability that is unique to the mineralogy of each mineral deposit. Metallurgists are now slowly advancing from using a few (so-called) representative samples to assess the processing characteristics of a deposit to applying metallurgical testing to tens, or hundreds, of samples, with the increase in number of samples allowed by technological advances. More still needs to be done. Identifying the characteristics of different mineralization types of a deposit and grouping it into domains are crucially important. These steps simplify processing by separating ore into relatively few (4–6) types with similar expected metallurgical performance. Understanding what metallurgical tests are measuring and how representative the samples and tests are of the orebody domains are essential considerations for a testing program. No knowledge is bad; some is better or more useful than other. Testing for penalty elements (As, Bi, Hg, F, etc.) and, more importantly, for penalty-element minerals allows their effects to be mitigated during design of the processing plant; this should start during the early exploration stage. Continued evolution of orebody knowledge and confidence in processing ores will lead to better performance of the processing plant, thereby reducing investment risk.

MODERN METHODS OF GROUND-BASED INTERFEROMETRY IN MONITORING ADJACENT ROCK MASSES IN OPEN PIT MINING

This article analyzes modern monitoring methods using ground-based interferometric radars. Currently, there are only a few companies on the world market that offer interferometric scanning solutions. These are IDS (Italy), part of the Hexagon group, Groundprobe (Australia), Reutech (South Africa) and the very rare LISA (JRC-Lisalab) and GPRI (Gamma Remote Sensing). Such radars can be used in the open pit mine development of mineral resources for monitoring the safety of adjacent rock masses, dumps and dams. The article considers the general principle of interferometric radars’ operation and differences between them. It also describes different types of aerials, which are being used nowadays in ground-based interferometric scanning. The analysis results enabled to formulate the recommendations for using different type radars depending on the strategy of geotechnical monitoring.

Engineering and geological zoning of the Malmyzhsky deposit weathering crusts (Svoboda area)

Introduction. Interest in the study of weathering crusts arose at a time when geological engineers faced the problem of developing open pits formed by eluvial soils. However, the exact and detailed division of the weathering crusts into engineering-geological zones, especially when studying mineral deposits, is not given due attention even today. Therefore, in the course of prospecting, it is important to correctly determine weathering crust type and profile, and establish the possibility of changing the engineering and geological conditions when opening the rock mass by mine workings for further slope stability prediction of the designed mining structures. Research aim is to determine vertical engineering-geological zoning of the Malmyzhsky deposit weathering crusts (Svoboda area) and identify patterns in alluvial deposits physical and mechanical properties change, which define the safety of mine development. Methodology. A significant number of Russian and foreign scientists have considered the formation of weathering crusts from different positions. They established the geochemical zoning and engineeringgeological zoning of the weathering crusts. Results. The article describes the Svoboda area at the Malmyzhsky gold-copper-porphyry deposit. Engineering and geological zoning of the weathering crust section was carried out according to a set of features, including structural and textural features, mineral composition, physical and mechanical properties of rocks. Within it, three zones are identified at the Malmyzhsky field, the Svoboda area: IV – dispersed, III – litomarge, and II – clastic. Physical and mechanical properties of rock building up the considered weathering crust have been analyzed proving that change in geological conditions within even one zone of the Malmyzhsky gold-copper-porphyry deposit (Svoboda area) entails a change in the choice of projected pit wall angles.