参考文献/References:
[1] 黄涵钗,孟凡震,李沐子,等.工质密度和储层渗透率演化对 EGS系统传热效能的影响[J].水利与建筑工程学报,2023,21(04):71-79.
[2] 易庆波,杨进军,牛志强,等.水电工程危岩体数据采集与稳定性分析[J].水利与建筑工程学报,2021,19(01):160-164.
[3] 胡明慧,刘日成,李树忱,等.废弃油气藏气体能源存储过程中不同浸润界面类型的断层活化试验研究[J].岩石力学与工程学报,2024,43(01):75-89.
[4] 申林方,曾 叶,王志良,等.考虑几何形貌特征的粗糙岩体裂隙渗流特性研究[J].岩石力学与工程学报,2019,38(S1):2704-2711.
[5] 徐 青,喻亚奇.岩石裂隙渗流立方定律的修正及应用[J].武汉大学学报(工学版),2024,57(08):1013-1021.
[6] BrownSR.Fluidflowthroughrockjoints:Theeffectofsurfaceroughness[J].JournalofGeophysicalResearch:24 水利与建筑工程学报 第 24卷SolidEarth,1987,92(B2):1337-1347.
[7] ZimmermanRW,BodvarssonGS.Hydraulicconductivi-tyofrockfractures[J].TransportinPorousMedia,1996,23:1-30.
[8] KlingT,SchwarzJO,WendlerF,etal.Fractureflowduetohydrothermallyinducedquartzgrowth[J].Ad-vancesinWaterResources,2017,107:93-107.
[9] 钟 振,闫金秀,徐从强,等.粗糙单裂隙渗透性尺寸效应及其影响因素研究[J].水利水电技术(中英文),2021,52(04):192-201.
[10] Pyrak-NolteLJ,NolteDD.Approachingauniversalscalingrelationshipbetweenfracturestiffnessandfluidflow[J]. NatureCommunications,2016,7(01):10663.
[11] WangLichun,CardenasMB.Developmentofanempir-icalmodelrelatingpermeabilityandspecificstiffnessforroughfracturesfromnumericaldeformationexperiments[J].JournalofGeophysicalResearch:SolidEarth,2016,121(07):4977-4989.
[12] HeXinxin,YuPengliang,EijsinkA,etal.Co-evolu-tionofspecificstiffnessandpermeabilityofrockfrac-turesoffsetinshear[J].JournalofGeophysicalRe-search:SolidEarth,2025,130(05):e2024JB030633.
[13] WalshJB.Effectofporepressureandconfiningpres-sureonfracturepermeability[J].InternationalJournalofRockMechanicsandMiningSciences&Geomechan-icsAbstracts,1981,18(05):429-435.
[14] AmadeiB,IllangasekareT.Amathematicalmodelforflowandsolutetransportinnon-homogeneousrockfrac-tures[J].InternationalJournalofRockMechanicsandMiningSciences& GeomechanicsAbstracts,1994,31(06):719-731.
[15] CaoCheng,XuZengguang,ChaiJunrui,etal.Radialfluidflowregimeinasinglefractureunderhighhydrau-licpressureduringshearprocess[J].JournalofHydrol-ogy,2019,579:124142.
[16] RenshawCE.Ontherelationshipbetweenmechanicalandhydraulicaperturesinrough-walledfractures[J].JournalofGeophysicalResearch:SolidEarth,1995,100(B12):24629-24636.
[17] JavanmardH,EbigboA,WalshSDC,etal.No-flowfraction(NFF)permeabilitymodelforroughfracturesundernormalstress[J].WaterResourcesResearch,2021,57(03):e2020WR029080.
[18] 陈跃都.水力耦合作用下岩体粗糙裂隙渗流及滑移失稳机理研究[D].太原:太原理工大学,2018.
[19] DengQinglin,ShangguanJianming,JiYinlin,etal.Relatingnormalstiffnesstopermeabilityofadeformedself-affineroughfractureusingitsgeometricproperties[J].JournalofRockMechanicsandGeotechnicalEngi-neering,2024,17(05):2829-2842.
[19] RttgerM C,SannerA,ThimonsLA,etal.Contactengineering-create,analyzeandpublishdigitalsurfacetwinsfromtopographymeasurementsacrossmanyscales[J].SurfaceTopography:MetrologyandProperties,2022,10(03):035032.
[20] LiuPengyuan,MengFanzhen,YueZhufeng,etal.Amulti-devicedatafusionmethodfor3Drockfracturere-construction:Development,comparison,andimplica-tionsforhydro-mechanicalsimulations[J].InternationalJournalofRockMechanicsandMiningSciences,2026,202:106507.
[21] 熊 峰.裂隙岩体非线性渗流特性及水热耦合模拟研究[D].武汉:武汉大学,2020
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