Theory and Technology of Mine Water Disaster Prevention and Resource Utilization
Materialtyp:
ArtikelUtgivningsinformation: Basel MDPI - Multidisciplinary Digital Publishing Institute 2024Beskrivning: 1 electronic resource (190 p.)Innehållstyp: - text
- computer
- online resource
- 9783725824892
- 9783725824908
- The Arts
- Performing arts
- Theatre studies
- Medicine
- Clinical & internal medicine
- Diseases and disorders
- Oncology
- BP neural network
- Dempster–Shafer evidence theory
- Loess Plateau area
- Northwest China
- Zhuoizishan coalfield
- acoustic emission
- classification model
- coal mining
- coal-mine water hazard
- combined method for accurate detection
- concealed water-conducting structures
- crushing zone
- debris flow disaster
- deformation damage
- drainage tunnel
- energy match
- explosive
- extension theory
- extremely thin coal seam
- fracture evolution
- fracturing zone
- fragmentation
- groundwater hydrogeochemical characteristics
- height of water-conducting fracture
- high-salinity mine water
- hydrochemical analysis
- hydrogeochemical
- hydrogeochemical characteristics
- hydrogeological drilling
- hydrophysical property
- immersion depth
- improved combination weighting method of game theory
- integrated mining geophysical prospecting
- intrusion event
- multiple regression model
- neural network
- particle flow
- porous sandstone
- principal component analysis
- risk assessment
- risk evaluation
- semi-arid regions
- strata movement
- thick hard overburden
- water
- water-conducting fracture zone
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The complex hydrogeological conditions in deep mining areas, coupled with large-scale and high-intensity mining activities, have triggered a series of mine water disasters and significant resource waste issues. The prevention of mine water disasters is crucial for the safe operation of mines. Studying the occurrence mechanism of water disasters, advanced detection, and disaster prevention can provide a theoretical basis and effective solutions for mine water treatment. By studying fundamental mechanics theories of water-bearing coal rocks, mechanisms of surrounding rock water disasters, and advanced technologies for early warning and prevention of mine water disasters, accurate prediction and rapid response to mine water hazards can be achieved. This can help to minimize the losses caused by mine water disasters.
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eng
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