[Anthogalidis, A. Arslan, U. Reul, O. (2014). Numerical simulation on the design optimization of compaction grouting, in 8th European Conference on Numerical Methods in Geotechnical Engineering, Delft, Netherlands, 2014.10.1201/b17017-93]Search in Google Scholar
[Bader, T.A. (1981). Injection and Distribution of Silicate Grout in Sand, Ph.D. Thesis, Northwestern University, Evanston Illinois.]Search in Google Scholar
[Bear, J. (1972). Dynamics of Fluids in Porous Media, American Elsevier Publishing Co., NewYork.]Search in Google Scholar
[Bell, A.L. (1982). A cut-off in rock and alluvium at Asprokremmos Dam, in Proc. Conf. On Grouting in Geotech. Engng., New Orleans, ASCE, Newyork, pp.246-263.]Search in Google Scholar
[Bolisetti, T. Reitsma, S. Balachandar, R. (2007). Analytical solution for flow of gelling solutions in porous media, in Geophysical Research Letters, 34(24), Article No L24401.10.1029/2007GL031713]Search in Google Scholar
[Christie, I. Griffiths, D.F. Mitchell, A.R. Zienkiewicz, O.C. (1976). Variable upwinding and adaptive mesh refinement in convection-diffusion, in Int. J. for Num. Meth. In Engng., 19, pp. 341-353.]Search in Google Scholar
[Corey, A.T. (1977). Mechanics of Heterogeneous Fluids in Porous Media, Water Resources Publications, Colorado.]Search in Google Scholar
[Coskun, S.B. (2003). Numerical Simulation of Grouting, Ph.D. Thesis, Middle East Technical University, Turkey.]Search in Google Scholar
[Dai, H.L. Wang, X. Xie, G. Wang, X.Y. (2004). Theoretical model and solution for the rheological problem of anchor-grouting a soft rock tunnel, in Tunneling and Underground Space Technology, 19(6), pp. 551-565.]Search in Google Scholar
[Deng, S. Wang, X. Yu, J. Zhang, Liu, Z. Zhu, Y. (2018). Simulation of Grouting Process in Rock Masses Under a Dam Foundation Characterized by a 3D Fracture Network, Rock Mechanics and Rock Engineering, https://doi.org/10.1007/s00603-018-1436-y, pp. 1-22.10.1007/s00603-018-1436-y]Search in Google Scholar
[Maag, E. (1938) Ueber Die Verfstigung und Dictung des Bangrundes (Ijektionen), Course on Soil Mechanics, Zurich Tech. School.]Search in Google Scholar
[Raffle, J. Greenwood, D. (1961). Relation between the rheological characteristics of grouts and their capacity to penetrate soils, in Proc. Fifth Int. Conf. On SMFE, Switzerland, Balkema, Rotterdam. pp. 789-794.]Search in Google Scholar
[Scott, R.A. (1975). Fundamental conditions governing the penetration of grouts, in Method of Treatment of Unstable Ground, London, Butterworths.]Search in Google Scholar
[Hao, Z. Wang, S.H. Liu, B. (2002). Random simulation of grouting in rock mass, in 2nd International Conference on New Development in Rock Mechanics and Rock Engineering, Oct. 10-12, 2002.]Search in Google Scholar
[Heinrich, J.C., Huyakorn, P.S. Zienkiewicz, O.C. Mitchell, A.C. (1977). An upwind finite element scheme for two dimensional convective transport equation, in Int. J. for Num. Meth. In Engng., 11, pp. 131-143.10.1002/nme.1620110113]Search in Google Scholar
[Honma, S. (1984). Finite Element Analysis of the Injection and Distribution of Chemical Grout in Soils, Ph.D. Thesis, The University of Wisconsin-Milwaukee.]Search in Google Scholar
[Hori, M. Koyama, T. (1999). Numerical Simulation of Grouting by Two Grout Analysis Methods, in J. Geotech. Eng., JSCE, No.624, pp. 21-30.10.2208/jscej.1999.624_21]Search in Google Scholar
[Horslev, J. (1951). Time Lag and Soil Permeability in Groundwater Observations, in Bull. No.36, Waterways Experimental Station, U.S. Corps of Engineers.]Search in Google Scholar
[Huyakorn, P.S. Pinder, G.F. Faust, C.R. Mercer, J.W. (1978). Finite element simulation of two-phase floe in porous media, Computational Techniques for Interface Problems, in The Annual Meeting of ASME, San Francisco, California, pp. 19-44.]Search in Google Scholar
[James, A.N. (1963). Frouts and Drilling Muds in Engineering Practice: Discussion, London, Butterworths, pp.168-169.]Search in Google Scholar
[Karol, R.H. (1982). Chemical grouts and their properties, in Proc. Conf. On Grouting in Geotech. Engng., New Orleans, ASCE, Newyork, pp.564-575.]Search in Google Scholar
[Koga, M. Sasaoka, T. Shimada, H. Kubota, S. Matsui, K. (2001). Numerical Simulation on grouting material injection into soil, in 29th International Symposium on Computer Applications in the Mineral Industries, pp. 627-630.]Search in Google Scholar
[Modoni, G. Croce, P. Mongiovi, L. (2006). Theoretical modeling of jet grouting, in Geotechnique, 56(5), pp. 335-347.]Search in Google Scholar
[Nakayama, T. Tachibana, N. Okano, N. Akagi, H. (2011). A study on numerical simulation during chemical grouting, in Symposium on Advances in Grounded Technology and Geo-Information, Singapore, 2011.10.3850/978-981-07-0188-8_P050]Search in Google Scholar
[Oroveanu, J. (1966). Flow of Multiphase Fluids Through Porous Media (in Romanian), Academiei Republicii Socialiste Romanie, Bucurest, 1966.]Search in Google Scholar
[Ozdemir, O.N. Yildiz, E., Ger, A.M. (2007). A Numerical Model for Two-Phase Immiscible Fluid Flow in a Porous Medium, in Journal of Hydraulic Research, 45 (2), pp. 279-287.]Search in Google Scholar
[Potts, D.M. Ong, J.C.W. Addenbrooke, T.I. (2002). Finite element analysis of a compensation grouting field trial in soft clay, in Proceedings of the Institution of Civil Engineers-Geotechnical Engineering, 155(1), pp. 47-58.]Search in Google Scholar
[Saxena, S.K. Ger, A.M. (1982). Flow of Chemical Grouts in Soils, Proposal to National Science Foundation, Illinois Institute of Technology, Chicago, Unpublished.]Search in Google Scholar
[Schweiger, H.F. Kummerer, C. Otterbein, R. Falk, E. (2004). Numerical modeling of settlement compensation by means of fracture grouting, in Soils and Foundations, 44(1), pp. 71-86.]Search in Google Scholar
[Settari, A. Aziz, K. (1975). Treatment of non-linear terms in the numerical solution of partial differential equations for multiphase flow in porous media”, International Journal of Multiphase Flow, 1, pp. 817-844.]Search in Google Scholar
[Shroff, A.W. Shah, D.L. (1993). Grouting Technology in Tunneling and Dam Construction, A.A. Balkema, Rotterdam.]Search in Google Scholar
[Tunçdemir, F. (2007). Theoretical and practical aspects of compaction grouting, in Teknik Dergi, 18(1), pp. 4069-4080.]Search in Google Scholar
[Wallner, M. Wittke, W. (1976). Finite element analysis of grout propagation, in Numerical Methods in Geomechanics, pp. 1119-1132.]Search in Google Scholar
[Wisser, C. Augarde, C.E. Burd, H.J. (2005). Numerical modeling of compensation grouting above shallow tunnels, in International Journal for Numerical and Analytical Methods in Geomechanics, 29(5), pp. 443-471.]Search in Google Scholar