Optimizing Stope Boundary and the Undercut Level in Block Cave Mining
Publish place: Journal of Mineral Resource Engineering، Vol: 9، Issue: 2
Publish Year: 1403
نوع سند: مقاله ژورنالی
زبان: Persian
View: 22
This Paper With 13 Page And PDF Format Ready To Download
- Certificate
- من نویسنده این مقاله هستم
استخراج به نرم افزارهای پژوهشی:
شناسه ملی سند علمی:
JR_MHRE-9-2_003
تاریخ نمایه سازی: 11 تیر 1403
Abstract:
As near-surface mineral resources are being depleted, mining operations are focused on deepening. Rising environmental concerns prefer underground mining methods because their footprint is less than that of surface mining methods. Among the underground mining methods, block caving is a method with low operating costs and comparable production rate to open-pit mines. Mine design and planning optimization is performed to ensure the optimal use of mineral resources with minimal possible extraction costs. Stope boundary optimization is vital in the underground mining planning process, and numerous algorithms have been proposed in that regard. The floating stope algorithm is the most widely used algorithm which is presented for those mining methods where selective mining is possible. This paper tries to apply the floating stope algorithm for stope boundary optimization in the case of block caving. In that regard, a framework is discussed to determine the input parameters of the floating stope algorithm that are suited for block caving including minimum block size, floating ranges, and cutoff grade. These parameters are defined to customize the floating stope algorithm for the block caving method. Then the customized algorithm is applied to optimize the boundary of the underground block caving stope. Then, the corresponding undercut level is determined using the “effective cross-section” heuristic. The procedure is applied in the Songun copper mine. Based on the results, the minable reserve is ۶۱۷ million tons with an average copper grade of ۰.۵۳%.
Keywords:
Authors
M. Shami-Qalandari
M.Sc Student, Dept. of Mining Engineering, University of Tehran, Tehran, Iran
M. Rahmanpour
Assistant Professor, Dept. of Mining Engineering, University of Tehran, Tehran, Iran
S.M.M. Mirabedi
Assistant Professor, Dept. of Mining Engineering, University of Tehran, Tehran, Iran
مراجع و منابع این Paper:
لیست زیر مراجع و منابع استفاده شده در این Paper را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود Paper لینک شده اند :
