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      Experimental Investigation on Hydraulic Properties of Granular Sandstone and Mudstone Mixtures

      1 , 2 , 1 , 1 , 1
      Geofluids
      Hindawi Limited

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          Abstract

          The caved zone during longwall mining has high permeability, resulting in a mass of groundwater storage which causes a threat of groundwater inrush hazard to the safe mining. To investigate the hazard mechanism of granular sandstone and mudstone mixture (SMM) in caved zone, this paper presents an experimental study on the effect of sandstone particle (SP) and mudstone particle (MP) weight ratio on the non-Darcy hydraulic properties evolution. A self-designed granular rock seepage experimental equipment has been applied to conduct the experiments. The variation of particle size distribution was induced by loading and water seepage during the test, which indicated that the particle crushing and erosion properties of mudstone were higher than those of sandstone. Porosity evolution of SMM was strongly influenced by loading (sample height) and SP/MP weight ratio. The sample with higher sample height and higher weight ratio of SP achieved higher porosity value. In particular, a non-Darcy equation, for hydraulic properties (permeability κ and non-Darcy coefficient ζ) calculation, was sufficient to fit the relation between the hydraulic gradient and seepage velocity. The test results indicated that, due to the absence and narrowing of fracture and void during loading, the permeability κ decreases and the non-Darcy coefficient ζ increases. The variation of the hydraulic properties of the sample within the same particle size and SP/MP weight ratio indicated that groundwater inrush hazard showed a higher probability of occurrence in sandstone strata and crushed zone (e.g., faults). Moreover, isolated fractures and voids were able to achieve the changeover from self-extension to interconnection at the last loading stage, which caused the fluctuation tendency of κ and ζ. Fluctuation ability in mudstone was higher than that in sandstone. The performance of an empirical model was also investigated for the non-Darcy hydraulic properties evolution prediction of crushing and seepage processes. The predictive results indicated that particle crushing and water erosion caused the increase of hydraulic properties, being the main reason that the experimental values are typically higher than those obtained from the predictive model. The empirical model has a high degree of predictive accuracy; however, κ has a higher predictive accuracy than ζ. Furthermore, the predictive accuracy of κ increases and ζ decreases with increasing weight ratio of SP.

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          Most cited references28

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          Variations of hydraulic properties of granular sandstones during water inrush: Effect of small particle migration

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            Effects of water content on fracture and mechanical behavior of sandstone with a low clay mineral content

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              Investigations of water inrushes from aquifers under coal seams

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                Author and article information

                Journal
                Geofluids
                Geofluids
                Hindawi Limited
                1468-8115
                1468-8123
                2018
                2018
                : 2018
                : 1-13
                Affiliations
                [1 ]School of Resources and Safety Engineering, Central South University, Changsha, Hunan 410083, China
                [2 ]Research Center of Coal Resources Safe Mining and Clean Utilization, Liaoning Technical University, Fuxin, Liaoning 123000, China
                Article
                10.1155/2018/9216578
                6967ede3-55f1-48c5-9fd8-6f24c271b2fa
                © 2018

                http://creativecommons.org/licenses/by/4.0/

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