Abstract
Mixtures of kaolinite clay and quartz sand were packed in columns and leached with NaCl-CaCl2 solutions of different concentrations (ranging from 0.5 M to distilled water) having sodium adsorption ratios (SAR) of 5, 10 and 20. Sodium hexametaphosphate (NaHMP) (10 g/m3) was added to each solution. Changes in the hydraulic conductivity (HC) and clay concentration in the effluent were measured, and the dispersion of the clay was evaluated. In the absence of NaHMP, using distilled water instead of 0.01 M solutions caused some reduction in the HC; the reduction became more severe as the SAR increased. At SAR 20 the HC dropped to 73% of that obtained when the 0.5 M salt solution was used. This reduction in HC was related to increases in the pH of the effluent and partial dispersion of the clay. On adding the NaHMP to the leaching solutions, a marked decrease in the HC and severe clay dispersion were observed at all SAR levels, if the kaolinite-sand mixtures were leached with dilute solutions and distilled water. The HC dropped to 40% of that obtained when leaching with 0.5 M salt solution, and dispersed clay in the effluent peaked at about 1% in the SAR 20 treatment following leaching with distilled water. The observed reduction in the HC of the kaolinite-sand mixture when NaHMP was added to the leaching solutions was due to the dispersive effect of NaHMP and sodium on the kaolinite. The polyanion NaHMP reduced the edge-to-face particle interactions, thereby enabling the dimise double-layer repulsion forces to predominate. Following addition of the polyphosphate, the response of kaolinite to sodium and electrolyte concentration was similar to that reported in the literature for smectite.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alperovitch, N., Shainberg, I., Keren, R., and Singer, M. J. (1985) Effect of clay mineralogy and aluminum and iron oxides on the hydraulic conductivity of clay-sand mixtures: Clays & Clay Minerals 33, 443–450.
Bar-On, P. and Shainberg, I. (1970) Hydrolysis and decomposition of Na-montmorillonite in distilled water: Soil Sci. 109, 241–246.
Durgin, P. B. and Chaney, J. G. (1984) Dispersion of ka-olinite by dissolved organic matter from Douglas-fir roots: Can. J. Soil Sci. 64, 445–455.
Flegmann, A. W., Goodwin, J. W., and Ottewill, R. H. (1969) Rheological studies on kaolinite suspensions: Proc. Brit. Ceram.Soc. 13, 31–41.
Norrish, K. and Hutton, J. T. (1969) An accurate x-ray spectrographic method for the analysis of a wide range of geological samples: Geochim. Cosmochim. Acta 33, 431–453.
Oster, J. D., Shainberg, I., and Wood, J. D. (1980) Floc-culation value and gel structure of Na/Ca montmorillonite and illite suspensions: Soil Sci. Soc. Amer. J. 44, 955–959.
Quirk, J. P. and Schofield, R. K. (1955) The effect of electrolyte concentration on soil permeability: J. Soil Sci. 6, 163–178.
Rand, B. and Melton, I. E. (1977) Particle interactions in aqueous kaolinite suspensions. 1. Effect of pH and electrolyte upon the mode of particle interaction in homoionic sodium kaolinite suspensions: J. Colloid Interface Sci. 60, 308–320.
Schofield, R. K. and Samson, H. R. (1954) Flocculation of kaolinite due to the attraction of oppositely charged crystals faces: Disc. Faraday Soc. 18, 138–145.
Shainberg, I., Bresler, E., and Klausner, Y. (1971) Studies on Na/Ca montmorillonite systems. I. The swelling pressure: Soil Sci. III, 214–219.
Shainberg, I., Keren, R., Alperovitch, N., and Goldstein, D. (1987) Effect of exchangeable potassium on the hydraulic conductivity of smectite-sand mixtures: Clays & Clay Minerals 35, 305–310.
Shainberg, I., Alperovitch, N., and Keren, R. (1988) Effect of magnesium on the hydraulic conductivity of Na-smec-tite-sand mixtures: Clays & Clay Minerals 36, 432–438.
van Olphen, H. (1977) An Introduction to Clay Colloid Chemistry: 2nd ed., Interscience, New York, 92–110.
Author information
Authors and Affiliations
Additional information
Contribution from the Soil and Irrigation Research Institute, Private Bag X79, Pretoria 0001, Republic of South Africa.
Rights and permissions
About this article
Cite this article
Levy, G.J., Shainberg, I., Alperovitch, N. et al. Effect of Na-Hexametaphosphate on the Hydraulic Conductivity of Kaolinite-Sand Mixtures. Clays Clay Miner. 39, 131–136 (1991). https://doi.org/10.1346/CCMN.1991.0390203
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1346/CCMN.1991.0390203