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| Ventilació de mines× | Criteri de Fallida de Hoek-Brown× | Optimització del Disseny de Talls× | |
|---|---|---|---|
| Camp | Enginyeria de mines | Enginyeria de mines | Enginyeria de mines |
| Família | Process / pipeline | Process / pipeline | Process / pipeline |
| Any d'origen≠ | 1880 | 1980 | 1960 |
| Autor original≠ | Mining Engineering Practice | Evert Hoek and E. T. Brown | Mining Engineering Practice |
| Tipus≠ | System design for safe air quality and worker cooling in underground mines | Empirical criterion for rock mass strength prediction | Optimization framework for underground mine excavation design |
| Font seminal≠ | Hartman, H. L., Mutmansky, J. M., Ramani, R. V., & Wang, Y. J. (2012). Mine ventilation and ambient air quality. Society for Mining, Metallurgy & Exploration, Inc. link ↗ | Hoek, E., & Brown, E. T. (2002). The Hoek-Brown failure criterion and GSI: 2018 update. Journal of Rock Mechanics and Geotechnical Engineering, 10(2), 445-463. link ↗ | Brady, B. H. G., & Brown, E. T. (2004). Rock mechanics for underground mining. Springer Science+Business Media. link ↗ |
| Àlies≠ | Underground Mine Ventilation, Air Flow Design, Mine Haulage Ventilation | Generalized Hoek-Brown Criterion, HB Criterion | Stope Design, Underground Mine Layout, Panel Design |
| Relacionats | 3 | 3 | 3 |
| Resum≠ | Mine ventilation is the design and operation of systems that deliver fresh air to underground mining areas and remove contaminated air, heat, and hazardous gases. It is critical for worker safety and productivity, maintaining breathable air (sufficient oxygen, low dust and gas concentrations) and acceptable temperatures. Proper ventilation design requires calculating heat loads from mining operations, determining required air volumes, and designing shaft/drift geometry to deliver adequate flow. | The Hoek-Brown Criterion, developed by Evert Hoek and E. T. Brown starting in 1980, is an empirical failure criterion that predicts the shear strength of rock masses as a function of confining pressure. It accounts for rock quality (via the Geological Strength Index, GSI) and thus bridges laboratory rock mechanics and field behavior. The criterion is widely used in mining for slope stability, pillar design, and stress analysis. | Stope layout optimization is the process of designing the size, shape, and spatial arrangement of underground mine excavations (stopes) to maximize ore recovery while maintaining safety and economic viability. It balances the desire for large extraction volumes against rock mechanics constraints and support costs. The layout determines mining productivity, capital investment in support systems, and long-term mine life. |
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