A boundary model of terrain reconstruction in a coal-mining subsidence waterlogged area

Mining of coal resources in an area with a high groundwater level causes large-scale water accumulation on the surface, which brings great difficulties to land reclamation. To improve the reclamation efficiency, a boundary mathematical model of terrain reconstruction in the subsidence waterlogged ar...

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Bibliographic Details
Published in:Environmental earth sciences 2021-03, Vol.80 (5), Article 187
Main Authors: Liu, Hui, Zhang, Min, Su, Lijuan, Chen, Xiaoxie, Liu, Chaofa, Sun, Aiguo
Format: Article
Language:English
Subjects:
Agricultural engineering
Agriculture
Aquaculture
Biogeosciences
Coal
Coal mines
Coal mining
Cultivated lands
Earth and Environmental Science
Earth Sciences
Elevation
Environmental Science and Engineering
Fisheries
Forestry
Geochemistry
Geology
Groundwater
Groundwater levels
Groundwater treatment
Hydrology/Water Resources
Inflection points
Land reclamation
Mathematical models
Mining
New technology
Original Article
Probability theory
Reconstruction
Subsidence
Terrain
Terrestrial Pollution
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Summary:Mining of coal resources in an area with a high groundwater level causes large-scale water accumulation on the surface, which brings great difficulties to land reclamation. To improve the reclamation efficiency, a boundary mathematical model of terrain reconstruction in the subsidence waterlogged area was established based on the Probability Integral Method (PIM) and the principle of equal amounts of digging and filling. The terrain reconstruction curve of deep-digging and shallow-filling was calculated through the linear combination of the surface’s predicted subsidence curve and the designed elevation line. The dividing boundary, inner boundary, and outer boundary of deep-digging and shallow-filling were defined. Finally, the whole subsidence area was divided into four different regions according to inflection points of the terrain reconstruction curve, and the ecological reconstruction schemes of agriculture, forestry, and fishery were put forward. The engineering practice of the 1013 panel in Wugou Coal Mine showed that 54.69%, 31.55%, and 13.76% of the subsided land were reclaimed for cultivated land, slope cultivated land, and aquaculture area, respectively, and all the subsided land was reasonably utilized. This method provides a new technology for eco-environment treatment in the subsidence area with a high groundwater level.
ISSN:1866-6280
1866-6299
DOI:10.1007/s12665-021-09508-7