Experimental Study of Seepage Properties of Broken Sandstone Under Different Porosities

In coal mining the water flow in broken rock is a very common phenomenon. Study of seepage properties of broken rock is one of the basic subjects required in order to understand the stability of rock surrounding roadways, preventing disasters such as water inrush and gas outbursts and developing und...

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Published in	Transport in porous media Vol. 86; no. 3; pp. 805 - 814
Main Authors	Miao, Xiexing, Li, Shuncai, Chen, Zhanqing, Liu, Weiqun
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.02.2011 Springer Springer Nature B.V
Subjects	Civil Engineering Classical and Continuum Physics Coal mines Coefficients Curve fitting Disasters Earth and Environmental Science Earth Sciences Earth, ocean, space Engineering and environment geology. Geothermics Exact sciences and technology Geotechnical Engineering & Applied Earth Sciences Grain size Hydrocarbons Hydrogeology Hydrology. Hydrogeology Hydrology/Water Resources Industrial Chemistry/Chemical Engineering Nonlinearity Outbursts Permeability Pollution, environment geology Porosity Properties (attributes) Roads & highways Rock Sandstone Sedimentary rocks Seepage Servocontrol Stone Variation Water flow Non-Darcy coefficient Steady seepage Broken sandstone Permeability Experimental study experimental studies permeability sandstone hydraulics fluctuations pore pressure displacements stability clastic rocks carbonaceous rocks Non-Darcy coefficient β porosity resources mining seepage transport velocity loading water sedimentary rocks grain size coal compression porous media methodology
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ISSN	0169-3913 1573-1634
DOI	10.1007/s11242-010-9653-1

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Abstract	In coal mining the water flow in broken rock is a very common phenomenon. Study of seepage properties of broken rock is one of the basic subjects required in order to understand the stability of rock surrounding roadways, preventing disasters such as water inrush and gas outbursts and developing underground resources. So far, quantitative studies on the nonlinear seepage properties of broken sandstone under different porosities are not extensive in the research literature. In this article, by means of an electro-hydraulic servo-controlled test system (MTS815.02) and a patent seepage device, the seepage properties under different conditions of porosity were tested on broken sandstone of five different grain sizes. Based on the loading method of controlling the axial compression displacement and steady permeating method, we obtained curves of the relation of pore pressure with time, as well as the relation curves between the pore pressure gradient for steady seepage and velocity. Furthermore, we calculated the permeability k and non-Darcy coefficient β corresponding to different porosities by fitting these curves with the binomial expression. This study indicates that: (1) the seepage properties of broken sandstone are closely related to grain size, load levels, and porosity structure; (2) the permeability k decreases, while the coefficient β increases with a decrease in porosity φ , but both the k − φ and the β − φ curves show some local fluctuations; (3) the permeability k of the broken sandstone has a magnitude of 10 −14 –10 −12 m 2 , while the coefficient β ranges from 10 10 to 10 12 m −1 . The results obtained provide some information for further study of the nonlinear seepage behavior of broken rock theoretically.
AbstractList	In coal mining the water flow in broken rock is a very common phenomenon. Study of seepage properties of broken rock is one of the basic subjects required in order to understand the stability of rock surrounding roadways, preventing disasters such as water inrush and gas outbursts and developing underground resources. So far, quantitative studies on the nonlinear seepage properties of broken sandstone under different porosities are not extensive in the research literature. In this article, by means of an electro-hydraulic servo-controlled test system (MTS815.02) and a patent seepage device, the seepage properties under different conditions of porosity were tested on broken sandstone of five different grain sizes. Based on the loading method of controlling the axial compression displacement and steady permeating method, we obtained curves of the relation of pore pressure with time, as well as the relation curves between the pore pressure gradient for steady seepage and velocity. Furthermore, we calculated the permeability k and non-Darcy coefficient β corresponding to different porosities by fitting these curves with the binomial expression. This study indicates that: (1) the seepage properties of broken sandstone are closely related to grain size, load levels, and porosity structure; (2) the permeability k decreases, while the coefficient β increases with a decrease in porosity φ, but both the k − φ and the β − φ curves show some local fluctuations; (3) the permeability k of the broken sandstone has a magnitude of 10−14–10−12 m2, while the coefficient β ranges from 1010 to 1012 m−1. The results obtained provide some information for further study of the nonlinear seepage behavior of broken rock theoretically. In coal mining the water flow in broken rock is a very common phenomenon. Study of seepage properties of broken rock is one of the basic subjects required in order to understand the stability of rock surrounding roadways, preventing disasters such as water inrush and gas outbursts and developing underground resources. So far, quantitative studies on the nonlinear seepage properties of broken sandstone under different porosities are not extensive in the research literature. In this article, by means of an electro-hydraulic servo-controlled test system (MTS815.02) and a patent seepage device, the seepage properties under different conditions of porosity were tested on broken sandstone of five different grain sizes. Based on the loading method of controlling the axial compression displacement and steady permeating method, we obtained curves of the relation of pore pressure with time, as well as the relation curves between the pore pressure gradient for steady seepage and velocity. Furthermore, we calculated the permeability k and non-Darcy coefficient β corresponding to different porosities by fitting these curves with the binomial expression. This study indicates that: (1) the seepage properties of broken sandstone are closely related to grain size, load levels, and porosity structure; (2) the permeability k decreases, while the coefficient β increases with a decrease in porosity φ , but both the k − φ and the β − φ curves show some local fluctuations; (3) the permeability k of the broken sandstone has a magnitude of 10 −14 –10 −12 m 2 , while the coefficient β ranges from 10 10 to 10 12 m −1 . The results obtained provide some information for further study of the nonlinear seepage behavior of broken rock theoretically. In coal mining the water flow in broken rock is a very common phenomenon. Study of seepage properties of broken rock is one of the basic subjects required in order to understand the stability of rock surrounding roadways, preventing disasters such as water inrush and gas outbursts and developing underground resources. So far, quantitative studies on the nonlinear seepage properties of broken sandstone under different porosities are not extensive in the research literature. In this article, by means of an electro-hydraulic servo-controlled test system (MTS815.02) and a patent seepage device, the seepage properties under different conditions of porosity were tested on broken sandstone of five different grain sizes. Based on the loading method of controlling the axial compression displacement and steady permeating method, we obtained curves of the relation of pore pressure with time, as well as the relation curves between the pore pressure gradient for steady seepage and velocity. Furthermore, we calculated the permeability k and non-Darcy coefficient Delta b corresponding to different porosities by fitting these curves with the binomial expression. This study indicates that: (1) the seepage properties of broken sandstone are closely related to grain size, load levels, and porosity structure; (2) the permeability k decreases, while the coefficient Delta b increases with a decrease in porosity Delta q, but both the k - Delta q and the Delta b - Delta q curves show some local fluctuations; (3) the permeability k of the broken sandstone has a magnitude of 10-14--10-12 m2, while the coefficient Delta *b ranges from 1010 to 1012 m-1. The results obtained provide some information for further study of the nonlinear seepage behavior of broken rock theoretically.
Author	Li, Shuncai Miao, Xiexing Chen, Zhanqing Liu, Weiqun
Author_xml	– sequence: 1 givenname: Xiexing surname: Miao fullname: Miao, Xiexing organization: State Key Laboratory for Geomechanics and Deep Underground Engineering, China University of Mining and Technology – sequence: 2 givenname: Shuncai surname: Li fullname: Li, Shuncai email: zsclsc@263.net organization: School of Mechanical and Electrical Engineering, Xuzhou Normal University – sequence: 3 givenname: Zhanqing surname: Chen fullname: Chen, Zhanqing organization: State Key Laboratory for Geomechanics and Deep Underground Engineering, China University of Mining and Technology – sequence: 4 givenname: Weiqun surname: Liu fullname: Liu, Weiqun organization: State Key Laboratory for Geomechanics and Deep Underground Engineering, China University of Mining and Technology
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Cites_doi	10.1016/0148-9062(76)90561-1 10.1080/00221687809499625 10.1061/(ASCE)0733-9429(2002)128:11(1027) 10.1061/(ASCE)0733-9429(1998)124:2(206) 10.1023/A:1006533931383 10.1016/S0169-1317(03)00093-0 10.1201/9780203022528-99
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Keywords	Non-Darcy coefficient Steady seepage Broken sandstone Permeability Experimental study experimental studies permeability sandstone hydraulics fluctuations pore pressure displacements stability clastic rocks carbonaceous rocks Non-Darcy coefficient β porosity resources mining seepage transport velocity loading water sedimentary rocks grain size coal compression porous media methodology
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References_xml	– reference: Liu, W.: Study on Theory and Application of Seepage in Overbroken Rock Mass. PhD Dissertation. China University of Mining and Technology, Beijing (2002) (in Chinese) – reference: LegrandJ.Revisited analysis of pressure drop in flow through crushed rocksJ. Hydraulic Eng.2002128111027103110.1061/(ASCE)0733-9429(2002)128:11(1027) – reference: LiB.GargaV.K.DaviesM.H.Relationships for non-Darcy flow in rock fillJ. Hydraulic Eng.1998124220621110.1061/(ASCE)0733-9429(1998)124:2(206) – reference: StephsonD.Hydraulic Calculation in Rock fills Engineering1984BeijingOcean Publishing Company – reference: BearJ.Dynamics of Fluid in Porous Media1979New YorkDover – reference: IrmayS.On the theoretical derivation of Darcy and Forchheimer formulasJ. Geophys. Res.1958394702707 – reference: EngelhardtI.FinsterleS.Thermal-hydraulic experiments with bentonite/crushed rock mixtures and estimation of effective parameters by inverse modelingAppl. Clay Sci.200323111112010.1016/S0169-1317(03)00093-0 – reference: GiorgiT.Derivation of the Forchheimer law via matched asymptotic expansionsTransp. Porous Media19972919120610.1023/A:1006533931383 – reference: ZobackM.D.ByerleeJ.D.Note on the deformational behavior and permeability of crushed graniteInt. J. Rock Mech. Min. Sci. Geomech. Abstr.1976131029129410.1016/0148-9062(76)90561-1 – reference: LiuW.MiaoX.A testing method for determining the permeability of overbroken rockJ. Exp. Mech.20031815761(in Chinese) – reference: McCorquodaleJ.A.HannouraA-A.A.NasserM.S.Hydraulic conductivity of rock fillsJ. Hydraulic Res.197816212313710.1080/00221687809499625 – reference: KongX.Advanced Mechanics of Fluid in Porous Media1999HefeiPress of China University of science and technology(in Chinese) – reference: Ma, Z.: Studies on Characteristics of Water Seepage in Overbroken Rock Mass of Gob. Xuzhou, China University of Mining and Technology (2003) (in Chinese) – reference: WangM.L.MiaoS.MajiA.K.Deformation mechanisms of WIPP backfillRadioactive Waste Manag. Environ. Restor.1996202191211 – reference: LiS.Nonlinear Dynamical Study on Non-Darcy Flow in Broken Rock2006XuzhouChina University of Mining and Technology(in Chinese) – reference: Pradip KumarG.N.VenkataramanP.Non-Darcy converging flow through coarse granular mediaJ. Inst. Eng. (India): Civil Eng. Div.199576611 – reference: KogureK.Experimental study on permeability of crushed rockMem. Def. Acad. Jpn.1976164149154 – volume: 13 start-page: 291 issue: 10 year: 1976 ident: 9653_CR17 publication-title: Int. J. Rock Mech. Min. Sci. Geomech. Abstr. doi: 10.1016/0148-9062(76)90561-1 – volume: 16 start-page: 123 issue: 2 year: 1978 ident: 9653_CR13 publication-title: J. Hydraulic Res. doi: 10.1080/00221687809499625 – volume: 128 start-page: 1027 issue: 11 year: 2002 ident: 9653_CR7 publication-title: J. Hydraulic Eng. doi: 10.1061/(ASCE)0733-9429(2002)128:11(1027) – volume: 18 start-page: 57 issue: 1 year: 2003 ident: 9653_CR11 publication-title: J. Exp. Mech. – ident: 9653_CR10 – volume: 124 start-page: 206 issue: 2 year: 1998 ident: 9653_CR9 publication-title: J. Hydraulic Eng. doi: 10.1061/(ASCE)0733-9429(1998)124:2(206) – volume-title: Hydraulic Calculation in Rock fills Engineering year: 1984 ident: 9653_CR15 – volume: 29 start-page: 191 year: 1997 ident: 9653_CR3 publication-title: Transp. Porous Media doi: 10.1023/A:1006533931383 – volume: 20 start-page: 191 issue: 2 year: 1996 ident: 9653_CR16 publication-title: Radioactive Waste Manag. Environ. Restor. – volume: 23 start-page: 111 issue: 1 year: 2003 ident: 9653_CR2 publication-title: Appl. Clay Sci. doi: 10.1016/S0169-1317(03)00093-0 – volume-title: Advanced Mechanics of Fluid in Porous Media year: 1999 ident: 9653_CR6 – ident: 9653_CR12 doi: 10.1201/9780203022528-99 – volume-title: Nonlinear Dynamical Study on Non-Darcy Flow in Broken Rock year: 2006 ident: 9653_CR8 – volume: 76 start-page: 6 year: 1995 ident: 9653_CR14 publication-title: J. Inst. Eng. (India): Civil Eng. Div. – volume: 39 start-page: 702 issue: 4 year: 1958 ident: 9653_CR4 publication-title: J. Geophys. Res. – volume-title: Dynamics of Fluid in Porous Media year: 1979 ident: 9653_CR1 – volume: 16 start-page: 149 issue: 4 year: 1976 ident: 9653_CR5 publication-title: Mem. Def. Acad. Jpn.
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Snippet	In coal mining the water flow in broken rock is a very common phenomenon. Study of seepage properties of broken rock is one of the basic subjects required in...
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SubjectTerms	Civil Engineering Classical and Continuum Physics Coal mines Coefficients Curve fitting Disasters Earth and Environmental Science Earth Sciences Earth, ocean, space Engineering and environment geology. Geothermics Exact sciences and technology Geotechnical Engineering & Applied Earth Sciences Grain size Hydrocarbons Hydrogeology Hydrology. Hydrogeology Hydrology/Water Resources Industrial Chemistry/Chemical Engineering Nonlinearity Outbursts Permeability Pollution, environment geology Porosity Properties (attributes) Roads & highways Rock Sandstone Sedimentary rocks Seepage Servocontrol Stone Variation Water flow
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Title	Experimental Study of Seepage Properties of Broken Sandstone Under Different Porosities
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