Backfill Technologies and Designs for Deep-Level Sylvinite Mining

Backfill Technologies and Designs for Deep-Level Sylvinite Mining

To reduce intensity of deformation in rocks prone to buckling and plastic deformation, and sensitive to geo- and gas-dynamic phenomena, the authors propose a consolidated backfill technology using salt waste and processing reuse brine at the consumption limits of water-yielding capacity. A set of la...

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Veröffentlicht in:Journal of mining science 2024-04, Vol.60 (2), p.332-340
Hauptverfasser: Ryl’nikova, M. V., Berger, R. V., Yakovlev, I. V., Tatarnikov, V. I., Zubkov, P. O.
Format: Artikel
Sprache:eng
Schlagworte:
Backfill
Brines
Buckling
Deformation
Earth and Environmental Science
Earth Sciences
Geophysics/Geodesy
Geotechnical Engineering & Applied Earth Sciences
Laboratory tests
Mineral Mining Technology
Mineral Resources
Mining
Plastic buckling
Plastic deformation
Potash
Potassium carbonate
Rocks
Water reuse
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Beschreibung
Zusammenfassung:To reduce intensity of deformation in rocks prone to buckling and plastic deformation, and sensitive to geo- and gas-dynamic phenomena, the authors propose a consolidated backfill technology using salt waste and processing reuse brine at the consumption limits of water-yielding capacity. A set of laboratory tests is carried out to find backfill mixtures adaptable to deep-level potash mining with estimation of deformation characteristics and strength properties of potash salt rocks. New principles and technologies of deep-level sylvinite extraction and backfill material transport by creating such geotechnical structures in stopes which ensure formation of consolidated backfill mass with the mined-out stope space factor close to one. This approach can enhance mine efficiency owing to increased extraction of sylvinite from rib and safety pillars.
ISSN:1062-7391
1573-8736
DOI:10.1134/S1062739124020145