Seepage problems on fractured rock accompanying with mass loss during excavation in coal mines with karst collapse columns

Under the background of China as a big coal-hungry country lasting till 2050, deep mining becomes more and more significant. However, deep coal seams usually have a very complex geological structure like Karst collapse columns, and excavation is often accompanied with water-inrush accidents, restric...

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Bibliographic Details
Published inArabian journal of geosciences Vol. 11; no. 19; pp. 1 - 13
Main Authors Kong, Hailing, Wang, Luzhen
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.10.2018
Springer Nature B.V
Subjects
Abrasion
Cementation
Chemical reactions
Coal
Coal industry
Coal mines
Coal mining
Collapse
Columns (structural)
Computational fluid dynamics
Computer simulation
Convection
Corrosion
Dredging
Dye dispersion
Earth and Environmental Science
Earth science
Earth Sciences
Ecological succession
Erosion
Excavation
Flow stability
Fluid flow
Fractures
Geological structures
Geology
Instability
Karst
Liquid flow
Lithology
Mass
Migration
Mines
Mining accidents & safety
Organic chemistry
Review Paper
Rocks
Seepage
Water flow
Water inrush
Mass loss
Karst collapse columns
Fractured rock
Seepage problems
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Summary:Under the background of China as a big coal-hungry country lasting till 2050, deep mining becomes more and more significant. However, deep coal seams usually have a very complex geological structure like Karst collapse columns, and excavation is often accompanied with water-inrush accidents, restricting the development of the coal industry. In order to study on seepage problems on fractured rock accompanying with mass loss during excavation in coal mines with karst collapse columns, researchers studied on water-inrush mechanism in karst collapse columns directly, researched on seepage behavior of fractured rock with pressure as the basis of studying on water-inrush mechanism indirectly, studied the fluid flow change in fractured rock regarding the change of liquid flow type in fractured rock as seepage instability, and observed and studied the phenomenon of mass loss during seepage in succession. In the following research, (1) the cementation, lithology, and match rate of testing samples, which are the foundation of the simulation study, need to be determined in more detail; (2) migrated particles in fractured rock should be distributed which are from migration, corrosion, erosion, and abrasion; (3) multi-permeate agents in the fractured geological structure, their diffusion and convection, and the related chemical reactions should be involved; (4) more and more contemporary mathematical methods will be introduced to help us to study the complex dynamic system; and (5) experimental equipment needs to be designed and improved. What we did before, do now, and will do later is to penetrate the mysteries of seepage problems on fractured rock accompanying with mass loss during excavation in coal mines with karst collapse columns.
ISSN:1866-7511
1866-7538
DOI:10.1007/s12517-018-3881-z