Experimental study on water vapor absorption of rock and its influencing factors

Zhang Na; Zhao Fangfang; Zhang Haohao; Qiao Fengchao; He Manchao

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Article Navigation > Journal of Mining Science and Technology > 2017 > 2(4): 336-347

Zhang Na, Zhao Fangfang, Zhang Haohao, Qiao Fengchao, He Manchao. Experimental study on water vapor absorption of rock and its influencing factors[J]. Journal of Mining Science and Technology, 2017, 2(4): 336-347.

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Experimental study on water vapor absorption of rock and its influencing factors

1.
State Key Laboratory for GeoMechanics and Deep Underground Engineering,Beijing 100083,China;2.School of Mechanics and Civil Engineering,China University of Mining and Technology,Beijing 100083,China

Received Date: 2016-09-04
Publish Date: 2017-07-25

Abstract

Abstract

Water absorption is one of the most important factors which can induce serious rock deformation and failure.Water vapor absorption experiments were carried out on rock samples collected from three different coal mines.Meanwhile,the mineral components,microstructure features and pore structure parameters were determined by means of X-ray diffraction,scanning electron microscopy and mercury intrusion porosimetry in order to comprehensively analyse the effects of clay minerals and micropore structure on water vapor absorption of the investigated rock samples.Results have shown that the patterns of the water vapor absorption curves of the three types of rocks were all characterized by a similar kind of dynamic process with decreasing water vapor absorption rate which could be well fitted by a negative exponential function.However,significant differences were found in water vapor absorption ability among the three types of rock samples which could be sorted in an order of Daqiang conglomerate > Shajihai mudstone > Halagou sandstone.Furthermore,the greater abundance of clay minerals contained in rock samples,especially smectite,the more and quicker water vapor absorption.Meanwhile,water vapor absorption is positively correlated with effective porosity,but is negatively correlated with fractional dimension which indicates that the bigger the effective porosity the greater the water vapor absorption ability and the more complicated the pore structures the weaker the water vapor absorption ability.
- coal strata sedimentary rock,
- water vapor absorption,
- clay minerals,
- microstructure,
- effective porosity

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References(51)

References

[1]	汤连生,王思敬.水-岩化学作用的力学效应研究与进展[J].工程地质学报,2000(S1):395-400,403.
[2]	Tang Liansheng,Wang Sijing.Research and development of the mechanical effect of water-rock and soil chemistry [J].Journal of Engineering Geology,2008(S1):395-400,403.
[3]	汤连生,王思敬.水-岩化学作用对岩体变形破坏力学效应研究进展[J].地球科学进展,1999,14(5):433-439.
[4]	Tang Liansheng,Wang Sijing.Progress in the study on mechanical effect of the chemical action of water-rock on deformation and failure of rocks [J].Advance in Earth Sciences,1999,14(5):433-439.
[5]	刘光廷,胡昱,李鹏辉.软岩遇水软化膨胀特性及其对拱坝的影响[J].岩石力学与工程学报,2006,25(9):1729-1734.
[6]	Liu Guangting,Hu Yu,Li Penghui.Behavior of soaking rock and its effects on design of arch dam [J].Chinese Journal of Rock Mechanics and Engineering,2006,25(9):1729-1734.
[7]	刘新荣,傅晏,王永新,等.水-岩相互作用对库岸边坡稳定的影响研究[J].岩土力学,2009,30(3):613-616.
[8]	Liu Xinrong,Fu Yan,Wang Yongxin,et al.Stability of reservoir bank slope under water-rock interaction [J].Rock and Soil Mechanics,2009,30(3):613-616.
[9]	藤宏伟,任松,姜德义,等.共和隧道页岩饱水软化试验研究[J].岩石力学与工程学报,2010,29(增1):2657-2662.
[10]	Teng Hongwei,Ren Song,Jiang Deyi,et al.Experimental study of mechanical properties of water-saturated weaken shale in Gonghe Tunnel [J].Chinese Journal of Rock Mechanics and Engineering,2010,29(S1):2657-2662.
[11]	钱自卫,姜振泉,孙强,等.深部煤系软岩遇水崩解的宏观特征及微观机理研究[J].高校地质学报,2011,17(4):605-610.
[12]	Qian Ziwei,Jiang Zhenquan,Sun Qiang,et al.Research on macro features and micro-mechanism of deep coal soft rocks degradation in water [J].Geological Journal of China Universities,2011,17(4):605-610.
[13]	何满潮,周莉,李德建,等.深井泥岩吸水特性实验研究[J].岩石力学与工程学报,2008,27(6):1113-1120.
[14]	He Manchao,Zhou Li,Li Dejian,et al.Experimental research on hydrophilic characteristics of mudstone in deep well [J].Chinese Journal of Rock Mechanics and Engineering,2008,27(6):1113-1120.
[15]	周莉,何满潮,李京阳,等.砂岩吸水特性试验[J].解放军理工大学学报:自然科学版,2009,10(6):580-585.
[16]	Zhou Li,He Manchao,Li Jingyang,et al.Experimental research on hydrophilic characteristics of sandstone in deep mine [J].Journal of PLA University of Science and Technology:Natural Science Edition,2009,10(6):580-585.
[17]	傅宴,刘新荣,张永兴,等.水岩相互作用对砂岩单轴强度的影响研究[J].水文地质工程地质,2009,36(6):54-58.
[18]	Fu Yan,Liu Xinrong,Zhang Yongxing,et al.Study on the influence of water-rock interaction to the strength of sandstone [J].Hydrogeology and Engineering Geology,2009,36(6):54-58.
[19]	孙强,姜春露,朱术云,等.饱水岩石水稳试验及力学特性研究[J].采矿与安全工程学报,2011,28(2):236-240.
[20]	Sun Qiang,Jiang Chunlu,Zhu Shuyun,et al.Water stability test and mechanical property of water saturated rocks [J].Journal of Mining & Safety Engineering,2011,28(2):236-240.
[21]	钱自卫,姜振泉,孙强,等.深部煤系软岩遇水崩解的宏观特征及微观机理研究[J].高校地质学报,2011,17(4):605-610.
[22]	Qian Ziwei,Jiang Zhenquan,Sun Qiang,et al.Research on macro features and micro-mechanism of deep coal soft rocks degradation in water [J].Geological Journal of China Universities,2011,17(4):605-610.
[23]	段宏飞,姜振泉,朱术云,等.深部矿井岩石水稳性微观机理及强度软化特性研究[J].岩土工程学报,2012,34(9):1636-1646.
[24]	Duan Hongfei,Jiang Zhenquan,Zhu Shuyun,et al.Micro-mechanism of water stability and characteristics of strength softening of rock in deep mines [J].Chinese Journal of Geotechnical Engineering,2012,34(9):1636-1646.
[25]	Rutter E H.The influence of temperature,strain rate and interstitial water in the experimental deformation of calcite rocks [J].Tectonophysics,1974,22:311-334.
[26]	Newman G H.The effect of water chemistry on the laboratory compression and permeability characteristic of North Sea Chalks [J].Journal of Petroleum Technology, 1983,35(5):976-980.
[27]	Feucht L J,Logan J M.Effects of chemically active solutions on shearing behavior of a sandstone [J].Tectonophysics,1990,175:159-176.
[28]	Karfakis M G.Effects of chemical solutions on rock fracturing [J].International Journal of Rock Mechanics and Mining Sciences and Geomechanics Abstracts,1993,30(7):1253-1259.
[29]	Hadizadeh J.Water-weakening of sandstone and quartzite deformed at various stress and strain rates [J].International Journal of Rock Mechanics and Mining Sciences,1991,28(5):431-439.
[30]	Post A ,Tullis J.The rate of water penetration in experimentally deformed quartzite:implications for hydrolytic weakening [J].Tectonophysics,1998,295:117-137.
[31]	Feng X T,Chen S L,Li S J.Effect of water chemistry on micro-cracking and compressive strength of granite [J].International Journal of Rock Mechanics and Mining Sciences,2001,38(4):557-568.
[32]	Heggheim T,Madland M V,Risnes R,et al.A chemical induced enhanced weakening of chalk by seawater [J].Journal of Petroleum Science and Engineering,2004,46(3):171-184.
[33]	Li N,Zhou Y,Su B,et al.A chemical damage model of sandstone in acid solution [J].International Journal of Rock Mechanics and Mining Sciences,2003,40(2):243-249.
[34]	Erguler Z A ,Ulusay R.Water-induced variations in mechanical properties of clay-bearing rocks [J].International Journal of Rock Mechanics and Mining Sciences,2009,46(2):355-370.
[35]	Cobanoglu I,Celik S B,Dincer I,et al.Core Size and time effects on water absorption values of rock and cement mortar samples [J].Bulletin of Engineering Geology and Environment:2009,68(4):483-489.
[36]	Taibi S,Duperret A,Fleureau J M.The effect of suction on the hydro-mechanical behaviour of chalk rocks [J].Engineering Geology,2009,106:40-50.
[37]	Török Á ,Vásárhelyi B.The influence of fabric and water content on selected rock mechanical parameters of travertine,examples from Hungary [J].Engineering Geology,2010,115:237-45.
[38]	Yilmaz I.Influence of water content on the strength and deformability of gypsum [J].International Journal of Rock Mechanics and Mining Sciences,2010,47(2):342-347.
[39]	Zhang N,Wang C,Xu X L,et al.Argillization of surrounding rock due to water seepage and anchorage performance protection [J].Materials Research Innovations,2011,15(S1):582-585.
[40]	Yang D S,Bornert M,Chanchole S,et al.Dependence of elastic properties of argillaceous rocks on moisture content investigated with optical full-field strain measurement techniques [J].International Journal of Rock Mechanics and Mining Sciences,2012,53:45-55.
[41]	Nara Y,Morimoto K,Hiroyoshi N,et al.Influence of relative humidity on fracture toughness of rock:Implications for subcritical crack growth [J].International Journal of Solids and Structures,2012,49(18):2471-2481.
[42]	赵杏媛,张有瑜.黏土矿物与黏土矿物分析[M].北京:海洋出版社,1990.
[43]	秦积舜,李爱芬.油层物理学[M].东营:中国石油大学出版社,2001.
[44]	贺承祖,华明琪.储层孔隙结构的分形几何描述[J].石油与天然气地质,1998,19(1):15-23.
[45]	He Chengzu,Hua Mingqi.Fractal geometry description of reservoir pore structure [J].Oil & Gas Geology,1998,19(1):15-23.
[46]	马新仿,张士诚,郎兆新.分形理论在岩石孔隙结构研究中的应用[J].岩石力学与工程学报,2003,22(增1):2164-2167.
[47]	Ma Xinfang,Zhang Shicheng,Lang Zhaoxin.Application of fractal theory to pore structure research [J].Chinese Journal of Rock Mechanics and Engineering,2003,22(S1):2164-2167.
[48]	李云省,邓鸿斌,吕国祥.储层微观非均质性的分形特征研究[J].天然气工业,2002,22 (1):37-40.
[49]	Li Yunsheng,Deng Hongbin,Lü Guoxiang.Research on the fractal characteristics of reservoir micro heterogeneity [J].Natural Gas Industry,2002,22(1):37-40.
[50]	秦跃平,傅贵.煤孔隙分形特性及其吸水性能的研究[J].煤炭学报,2000,25(1):55-59.
[51]	Qin Yueping,Fu Gui.Study on fractal characteristic of pore in coal and moisture-absorbing property of coal [J].Journal of China Coal Society,2000,25(1):55-59.

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