@ARTICLE{Adams_Kenneth_K._On_2023,
 author={Adams, Kenneth K. and Chen, Tuo and Sainoki, Atsushi and Mitri, Hani S.},
 volume={vol. 68},
 number={No 4},
 journal={Archives of Mining Sciences},
 pages={543-569},
 howpublished={online},
 year={2023},
 publisher={Committee of Mining PAS},
 abstract={Sublevel caving (SLC) mining method has several features that make it one of the preferred methods for ore extraction due to its high productivity and early access to ore recovery. However, there are some major challenges associated with the SLC method such as ground surface subsidence, high unplanned ore dilution, and the potential for air blast. To remedy these shortcomings, a recent approach has been to modify the SLC method by introducing rockfill into the void atop the production zone to provide continued support for the host rock and prevent it from caving. This paper discusses in detail the merits of the Modified SLC or MSLC. In comparison with other long-hole stoping methods that are predominantly practiced in metal mines, the MSLC method boasts several advantages. Early production achieved from the topmost level helps reduce the payback period. Productivity is enhanced due to multilevel mining without the use of sill pillars. The cost of backfilling is significantly reduced as there is no need for the construction of costly backfill plants. Continuous stoping is achieved without delays as mining and backfilling take place concurrently from separate mining horizons. A significant reduction in underground development costs is achieved as fewer slot raises and crosscuts are required for stope preparation. These merits of the Modified SLC method in steeply dipping orebodies are discussed by way of reference to real-life mine case studies. Dilution issues are addressed, and the benefits of top-down mining are explained. Typical mine design, ventilation, materials handling, and mining schedules are presented. Geomechanics issues associated with different in-situ stress environments are discussed and illustrated with simplified mine-wide 3D numerical modeling study.},
 type={Article},
 title={On the Merits of Modified Sublevel Caving Mining Method – A Case Study},
 URL={http://journals.pan.pl/Content/129724/PDF/Archiwum-68-4-01-Adams.pdf},
 doi={10.24425/ams.2023.148149},
 keywords={underground mining, Long hole mining, sublevel caving, Modified sublevel caving, surface subsidence, Ore dilution, backfill, Air blast, Mine design, numerical modeling},
}