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Environmental Earth Sciences
Erschienen in: Environmental Earth Sciences 7/2016

01.04.2016 | Original Article

Impact of particle transfer on flow properties of crushed mudstones

verfasst von: Dan Ma, Xiexing Miao, Haibo Bai, Hai Pu, Zhanqing Chen, Jiangfeng Liu, Yanhua Huang, Guimin Zhang, Qi Zhang

Erschienen in: Environmental Earth Sciences | Ausgabe 7/2016

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Abstract

Karst collapse pillar (KCP) is widespread in North China coalfields, where coal extraction above the Ordovician limestone aquifer is threatened by the abundant supply of water and a very high hydraulic pressure. KCP is composed of rock skeleton and fine fillings, which can be transferred under the effect of water flow, thus KCP usually functions as a channel for groundwater inrush. In order to investigate the mechanism of mining-induced groundwater inrush of KCP which was caused by fine fillings transfer, a self-designed particle transfer permeability testing system was used to test the crushed mudstones’ flow properties, which included fine filling particle transfer rate, porosity increase rate and permeability under the conditions of varying pore pressure, particle size mixture and compaction level (initial porosity). The tests indicate fine fillings transfer is the essential reason for mining-induced groundwater inrush (flow instability) of KCP. The flow properties changeability during fine particle transfer could be divided into four stages, i.e., initial flow stage, flow inrush stage, continued particle flow stage and stable flow stage, and flow inrush stage which is the key point to cause water inrush. Due to the crushing of edges and corners and the adjustment of the structure, the fluctuation of permeability–time relationship mainly distributed in the first two stages, which make a change to flow channel. Moreover, with the increasing of pore pressure, particle size mixture and initial porosity, the water inrush time and stable seepage time decreased more rapidly; the fine fillings, porosity and permeability increased gradually. The efficiency criteria analysis between measurement and calculation permeability shows an empirical equation can fit the relationship between porosity and permeability well, and not all of the pore structures were in flow; this means there was a part of pores that were invalid, but the effective porosity in flow can be treated as calculation value approximately.
Vorheriger Artikel Integration of ASTER and airborne geophysical data for mineral exploration and environmental mapping: a case study, Gabal Dara, North Eastern Desert, Egypt
Nächster Artikel Spatial and temporal precipitation variability in the source region of the Yellow River

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Metadaten
Titel
Impact of particle transfer on flow properties of crushed mudstones
verfasst von
Dan Ma
Xiexing Miao
Haibo Bai
Hai Pu
Zhanqing Chen
Jiangfeng Liu
Yanhua Huang
Guimin Zhang
Qi Zhang
Publikationsdatum
01.04.2016
Verlag
Springer Berlin Heidelberg
Erschienen in
Environmental Earth Sciences / Ausgabe 7/2016
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299
DOI
https://doi.org/10.1007/s12665-016-5382-2

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