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Density Studies in Clay—Liquid Systems, Part II: Application to Core Analysis

Published online by Cambridge University Press:  01 January 2024

C. T. Deeds  and
H. van Olphen
C. T. Deeds
Affiliation:
Shell Development Company (A Division of Shell Oil Company) Exploration and Production Research Division, Houston, Texas, USA
H. van Olphen
Affiliation:
Shell Development Company (A Division of Shell Oil Company) Exploration and Production Research Division, Houston, Texas, USA
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Abstract

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In Part I (Deeds and van Olphen, 1961) pycnometric data on expanding clays in water and in other displacement fluids were analyzed in terms of inaccessible void space within aggregates and of possible density anomalies of the adsorbed fraction of the displacement fluids.

Further details of this work are reported, and the consequences for the interpretation of core analysis data are discussed. It is concluded that in core analysis the density of the connate water can be assumed to be normal while the fraction of the total pore space which is filled with oil is computed, provided that the total pore space is determined by using water or a polar organic liquid. If a hydrocarbon liquid or an inert gas is used, a small correction for inaccessible pore space can be applied.

Type
Symposium on Industrial Applications
Information
Clays and Clay Minerals (National Conference on Clays and Clay Minerals) , Volume 10 , February 1961 , pp. 318 - 328
Copyright
Copyright © Clay Minerals Society 1961

References

Deeds, C. T. and van Olphen, H. (1961) Density studies in clay-liquid systems. Part I, The density of water adsorbed by expanding clays; Advances in Chemistry Series, Amer. Chem. Soc., "Solid Surfaces and the Gas-Solid Interface", Washington, D.C., pp. 332339.CrossRefGoogle Scholar
MacEwan, D. M. C. (1951) The montmorillonite minerals (montmorillonoids): in X-ray Identification and Crystal Structures of Clay Minerals, Mineralogical Society, London, pp. 86137. (2nd ed., 1961, pp. 143-207.).Google Scholar
Marshall, C. E. (1935) Layer lattices and the base-exchange clays: Z. Krist. A., v. 91. pp. 433449.Google Scholar
Ross, C. S. and Hendricks, S. B. (1945) Minerals of the montmorillonite group, their origin and relation to soils and clays: U.S. Geol. Survey Prof. Paper 205-B, pp. 2379.CrossRefGoogle Scholar