Discussion of “Measuring the Hydraulic Conductivity of Soil–Bentonite Backfill” by Jeremy P. Britton, George M. Filz, and Wayne E. Herring
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VIEW THE ORIGINAL ARTICLEPublication: Journal of Geotechnical and Geoenvironmental Engineering
Volume 132, Issue 6
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References
Association Française de normalisation (AFNOR). (1992). “Essai d’eau Lefranc.” Norme NF P94-132, Association Française de normalisation, Paris (in French).
Aubertin, M., Mbonimpa, M., Bussière, B., and Chapuis, R. P. (2003). “A model to predict the water retention curve from basic geotechnical properties.” Can. Geotech. J., 40(6), 1104–1122.
Aubertin, M., Ricard, J.-F., and Chapuis, R. P. (1998). “A predictive model for the water retention curve: Application to tailings from hard rock mines.” Can. Geotech. J., 35(1), 55–69.
Bradbury, K. R., and Muldoon, M. A. (1990). “Hydraulic conductivity determinations in unlithified glacial and fluvial materials.” Ground Water and Vadose Zone Monitoring, ASTM STP 1053, D. M. Nielsen and A. I. Johnson, eds., ASTM, Philadelphia, 138–151.
Britton, J. P. (2001). “Soil-bentonite cutoff walls: Hydraulic conductivity and contaminant transport.” Ph.D. dissertation, Virginia Polytechnic Institute & State Univ., Blacksburg, Va. ⟨http://scholar.lib.vt.edu/theses/available/etd-08132001-175622/⟩
Bruner, D. G., and Lutenegger, A. J. (1994). “Measurement of saturated hydraulic conductivity in fine-grained glacial tills in Iowa: Comparison of in situ and laboratory methods.” Hydraulic Conductivity and Waste Contaminant Transport in Soil, ASTM STP 1142, D. E. Daniel and S. J. Trautwein, eds., ASTM, Philadelphia, 255–265.
Butler, J. J., Jr. (1996). “Slug tests in site characterization: some practical considerations.” Envir. Geosciences, 3(2), 154–163.
Canada National Standard/Bureau de normmalization du Québec (CAN/BNO). (1988). “Soils—Determination of permeability by the Lefranc method.” 2501-135-M88, National Standard of Canada.
Cazaux, D., and Didier, G. (2002). “Comparison between various field and laboratory measurements of the hydraulic conductivity of three clay liners.” Evaluation and remediation of low permeability and dual porosity environments, ASTM STP 1415, M. N. Sara and L. G. Everett, eds., ASTM, West Conshohocken, Pa., 3–24.
Chapuis, R. P. (1998). “Overdamped slug test in monitoring wells: Review of interpretation methods with mathematical, physical and numerical analysis of storativity influence.” Can. Geotech. J., 35(5), 697–719.
Chapuis, R. P. (1999). “Borehole variable-head permeability tests in compacted clay liners and covers.” Can. Geotech. J., 36(1), 39–51.
Chapuis, R. P.,(2001). “Extracting piezometric level and hydraulic conductivity from tests in driven flush-joint casings.” Geotech. Test. J., 24(2), 209–219.
Chapuis, R. P. (2002). “The 2000 R. M. Hardy Lecture: Full-scale hydraulic performance of soil-bentonite and compacted clay liners.” Can. Geotech. J., 39(2), 417–439.
Chapuis, R. P. (2004). “Permeability tests in rigid-wall permeameters: Determining the degree of saturation, its evolution and influence on test results.” Geotech. Test. J., 27(3), 304–313.
Chapuis, R. P. (2005b). “Numerical analysis of rising-head permeability tests in a monitoring well after lowering the water level down to the screen.” Can. Geotech. J., 42(6), 705–715.
Chapuis, R. P. (2005a). “Using the velocity graph method to interpret rising-head permeability tests after dewatering the screen.” Geotech. Test. J., 28(3), 305–312.
Chapuis, R. P., Baass, K., and Davenne, L. (1989). “Granular soils in rigid-wall permeameters: Method for determining the degree of saturation.” Can. Geotech. J., 26(1), 71–79.
Chapuis, R. P., and Chenaf, D. (2003). “Variable-head field permeability tests in driven casings: Physical and numerical modeling.” Geotech. Test. J., 26(3), 245–256.
Cooper, H. H. Jr., Bredehoeft, J. D., and Papadopulos, I. S. (1967). “Response of a finite-diameter well to an instantaneous change of water.” Water Resour. Res., 3(1), 263–269.
Herzog, B. L., and Morse, W. J. (1986). “Hydraulic conductivity at a hazardous waste disposal site: Comparison of laboratory and field-determined values.” Waste Manag. Res., 4, 177–187.
Morin, P. (1991). “Improved measurement of consolidation properties with permeameter equipment.” Can. Geotech. J., 28, 127–133 (in French).
Ricard, J.-F. (1994). “Improvement of mine tailings that can be used in covers.” Master’s thesis, École Polytechnique, Montreal (in French).
Tavenas, F., Jean, P., Leblond, P., and Leroueil, S. (1983). “The permeability of natural soft clays. I: Methods of laboratory measurement.” Can. Geotech. J., 20(4), 629–644.
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