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Advances in constitutive modeling of jointed rock hydromechanical interactions at laboratory scale

Identyfikatory
Warianty tytułu
Konferencja
Proceedings of the 14th French-Polish Colloguium "Soli and Rock Mechanics. soil Mechanics - Geomaterials" Grenoble, August 29-31, 2007
Języki publikacji
EN
Abstrakty
EN
This study is a part of a wide multi-scale research based on in situ experiments and laboratory tests. The latest, radial water injections in the centre of the lower joint wall are done at constant normal stress ranging from 0 to 110 MPa and at pressures from 0 to 4 MPa. Four hydromechanical tests have been performed in the L3S laboratory on fractured limestone samples (two diaclase and two bedding plane). The measurement analysis shows a relation between the contact surface variations and the flow values inside the fracture. The hydromechanical modelling performed using 3DEC code can be improved compared with the previous analysis due to the modification of the relation between the joint hydraulic opening and the joint mechanical closure. The gap between simulations and measurements can be related to fracture asperity degradation and turbulent flow that have not been taken into account in the modelling.
Wydawca
Rocznik
Strony
223--233
Opis fizyczny
bibliogr. 11 poz.,
Twórcy
autor
autor
autor
autor
autor
  • INPL-LAEGO-ENSMN, Parc de Saurupt, Ecole des mines, 54000 Nancy, France
Bibliografia
  • [1] BARTON N.R., BANDIS S., BAKHTAR K., Strength, deformation and conductivity coupling of rock joints, International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, 1985, 22, 121–140.
  • [2] EVANS K.F., KOHL T. HOPKIRK R.J., RYBACH L., Modelling of energy production from hot dry rock systems, 1992, Proj Rep Eidgenössische Technische Hochschule (ETH), Zürich, Switzerland.
  • [3] GOODMAN, R.E., The mechanical properties of joints, Proc. 3rd Int. Congr. International Society of Rock Mechanics, 1–7 September, 1974, Denver, Colorado, National Academy of Sciences, Washington, DC, Vol. I, 127–140.
  • [4] HANS J., BOULON M., A new device for investigating the hydro-mechanical properties of rock joints, Int. J. Numer. Anal. Meth. Geomech., 2003, 27, 513–548.
  • [5] HUANG T.H., CHANG C.S., CHAO C.Y., Experimental and mathematical modelling for fracture of rock joint with regular asperities, Engineering Fracture Mechanics, 2002, Vol. 9, 1977–1996.
  • [6] LEE S.D., HARRISON J.P., Empirical parameters for non-linear fracture stiffness from numerical experiments of fracture closure, International Journal of Rock Mechanics and Mining Sciences, 2001, 38, 721–727.
  • [7] LONDE P., SABARLY F., La distribution des perméabilités dans la fondation des barrages voûtés en fonction du champ de contrainte, Proc. 1st Congr. Rock Mechanics, 25 Septembre–1 Octobre 1966, Lisbon, Lab. Nac. Eng. Civil., Lisbon, 1966, Vol. II, 517–522.
  • [8] NAZRIDOUST K., AHMADI G., SMITH D.H., A new friction factor correlation for laminar, single-phase flows through rock fractures, Journal of Hydrology, 2006, Vol. 329, 315–328.
  • [9] QIAN J., ZHAN H., ZHAO W., SUN F., Experimental study of turbulent unconfined groundwater flow in a single fracture, Journal of Hydrology, Vol. 311, Issues 1–4, 15 September 2005, 134–142.
  • [10] RUTQVIST J., STEPHANSSON O., The role of hydromechanical coupling in fractured rock engineering, Hydrogeology Journal, 2003, 11, Springer-Verlag, 7–40.
  • [11] WITHERSPOON P.A., WANG J.S.Y., IWAI K., GALE J.E., Validity of cubic law for fluid flow in a deformable rock fracture, Water Resour. Res., 1980, 16, 1016–1024.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW7-0010-0024
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