Mishra, Debashish and Mohalik, N. K. and Mishra, D.P and Ray, S.K. and Pandey, J. K. (2022) Improving Workplace Environment of a Deep Underground Coal Mine with Multiseam Workings: An Alternative Approach. Mining, Metallurgy & Exploration , 39. pp. 1429-1443.

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Abstract

The increasing demand for coal and depletion of shallow depth reserves are pushing towards deeper mining. In deeper coal mines with multi seam workings, the problem of ventilation surges many folds primarily related to air quantity requirement, heat, humidity and spontaneous heating/fre in goaved (gobbed) out areas. The paper describes the design of a new approach to improve the ventilation system of a real-life deep underground coal mine with multiseam workings. For this, the ventilation problem of one deep underground coal mine 6&7 pits Bhutgoria Amalgamated Colliery of Tata Steel Ltd. with multiseam workings has been studied in detail to determine an appropriate solution. A ventilation survey of the mine and computer simulation of the ventilation network has been carried out to reach a practical solution. Ventilation survey results have been analyzed to develop a representative ventilation network of the mine for both qualitative and quantitative analysis. Further, computer simulation of the ventilation network of the mine has been performed to virtually verify the application of a high capacity booster fan in the present ventilation circuit without disturbing the vulnerable areas. Field validation is also carried out after the implementation of the solution in the mine to determine its efcacy. Thus, the findings of this paper can be directly applied for the installation of booster fans to achieve the required air quantity in deep underground coal mines with multiseam workings having spontaneous combustion liabilities of upper seam goaved out areas.

Item Type: Article
Uncontrolled Keywords: Ventilation system Multiseam workings Booster fan Computer simulation
Subjects: Geo-Mechanics and Mine Design
Divisions: UNSPECIFIED
Depositing User: Mr. B. R. Panduranga
Date Deposited: 22 Aug 2022 09:15
Last Modified: 23 Aug 2022 09:25
URI: http://cimfr.csircentral.net/id/eprint/2518

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