TY - BOOK ID - 119318688 TI - Roof water disaster in coal mining in ecologically fragile mining areas : formation mechanism and prevention and control measures PY - 2023 SN - 3031331400 3031331397 PB - Cham : Springer International Publishing : Imprint: Springer, DB - UniCat KW - Coal mines and mining KW - Mine roof control. KW - Mine water. KW - Water-rock interaction. KW - Safety measures. KW - Roof control, Mine KW - Strata control in mines KW - Ground control (Mining) KW - Rock mechanics KW - Water in mines KW - Groundwater KW - Rock-water interaction KW - Rocks KW - Water chemistry KW - Weathering KW - Moisture KW - Geotechnical engineering. KW - Water. KW - Hydrology. KW - Refuse and refuse disposal. KW - Sedimentology. KW - Geotechnical Engineering and Applied Earth Sciences. KW - Waste Management/Waste Technology. KW - Petrology KW - Discarded materials KW - Disposal of refuse KW - Garbage KW - Household waste KW - Household wastes KW - Refuse and refuse disposal KW - Rubbish KW - Solid waste management KW - Trash KW - Waste disposal KW - Waste management KW - Wastes, Household KW - Sanitation KW - Factory and trade waste KW - Pollution KW - Pollution control industry KW - Salvage (Waste, etc.) KW - Street cleaning KW - Waste products KW - Aquatic sciences KW - Earth sciences KW - Hydrography KW - Water KW - Hydrology KW - Engineering, Geotechnical KW - Geotechnics KW - Geotechnology KW - Engineering geology KW - Environmental aspects UR - https://www.unicat.be/uniCat?func=search&query=sysid:119318688 AB - This book targets to earth scientists and engineers, in particular students, researchers, managers, and practitioners, who are interested in mining engineering, environmental engineering, green coal mining, sustainable water resource management, and effective measures to balance mine safety and ecological conservation. In the disciplines of mine hydrogeology and mining engineering, there have always been difficulties in the theoretical interpretation of the changes in the physical and hydraulic characteristics of water resisting strata during coal seam mining. In the past 10 years, the authors studied the relevant contents by using the methods of physical simulation, numerical simulation, field test and mining practice of similar materials, so as to understand the internal relationship between the stratigraphic sedimentary characteristics of the mining area and the occurrence mechanism of mine water disaster. On the premise of analyzing and studying the stratigraphic sedimentary environment in the mining area in detail, it is of great significance for the realization of "coal water" dual resource mining in the mining area to divide the types of roof water disaster in the mining area and study the formation mechanism of mine water disaster caused by different rock formation combinations and mining methods. ER -