Hostname: page-component-78c5997874-v9fdk Total loading time: 0 Render date: 2024-11-02T22:21:02.116Z Has data issue: false hasContentIssue false

Role of Clay in Well-Log Interpretation

Published online by Cambridge University Press:  01 January 2024

M. R. J Wyllie*
Affiliation:
Development Company, Pittsburgh, Pennsylvania, USA
Rights & Permissions [Opens in a new window]

Abstract

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Part VII—Clay Technology in the Petroleum Industry
Copyright
© Clay Minerals Society 1952

References

Selected References

Archie, G E, The electrical resistivity log as an aid in determining some reservoir characteristics Am. Inst. Min. Met, Eng. Trans. 1942 146 5462.Google Scholar
Bergman, W E, Effect of calcium sulfate on properties of a bontonite suspension. Parts I and II World Oil 1952 134 5 5170.Google Scholar
Bush, R E Mardock, E S, The quantitative application of radioactivity logs Am. Inst. Min. Met. Eng. Trans. 1951 192 194198.Google Scholar
Case, L C, Base replacement studies of Oklahoma shales —critique of Taylor hypothesis Am. Assoc. Petroleum Geologists Bull. 1933 17 6679.Google Scholar
Claudet, A P, New methods of correlation by resistivity value of electrical logs Am. Assoc, Petroleum Geologists Bull. 1950 34 20272060.Google Scholar
de Sitter, L U, Diagenesis of oil-field brines Am. Assoc. Petroleum Geologists Bull. 1947 31 20302046.Google Scholar
de Witte, L, Experimental studies of the characteristics of the electrochemical potentials encountered in drill holes Am. Inst. Min. Met. Eng., Paper 12G, Oct. 13, 1950 meeting, Los Angeles, California [unpublished] 1950.Google Scholar
de Witte, L, Relations between resistivities and fluid contents of porous rocks Oil and Gas Jour. 1950 49 16 16120.Google Scholar
Doll, H G, The S.P. log-—theoretical analysis and principles of interpretations Am. Inst. Min. Met. Eng. Trans. 1949 179 146185.Google Scholar
Doll, H G, Selective S.P. logging Am. Inst. Min. Met. Eng. Trans. 1950 189 129142.Google Scholar
Doll, H G, The S.P. log in shaly sands Am. Inst. Min. Met. Eng. Trans. 1950 189 205214.Google Scholar
Grim, R E Cuthbert, F L, The bonding action of clays. Part 1—Clays in green molding sands Illinois Geol., Survey Rept. Inv. 102 1945.Google Scholar
Harned, H S Owen, B B, The physical chemistry of electrolytic solutions 1950 New York Reinhold Publishing Corp.Google Scholar
Kressman, T R E, in Duncan, J. P., Theory and practice of ion exchange Nature 1952 169 2224 10.1038/169022a0.Google Scholar
Marshall, C E, The electro-chemical properties of mineral membranes. VIII. The theorv of selective membrane behavior Jour. Phys. Colloid Chemistry 1948 52 12843295 10.1021/j150464a002.CrossRefGoogle Scholar
Marshall, C E, The colloid chemistry of the silicate minerals 1949 New York Academic Press, Inc..Google Scholar
McLean, E O Barber, S A Marshall, C E, Ionization of soils and soil colloids. I. Methods for simultaneous determination of two cationie activities Soil Sci. 1951 72 815 10.1097/00010694-195110000-00008.CrossRefGoogle Scholar
Meyer, K H Sicvers, J-F, La permeability des membranes. I. Theorie de la permeabiIitS ionique Helvetica Chimica Acta 1936 19 649664 10.1002/hlca.19360190199.CrossRefGoogle Scholar
Millot, G, in Mackenzie, R. C., Geological aspects of clay mineralogy Nature 1952 169 656 10.1038/169656a0.Google Scholar
Mounce, W D Rust, W M, Natural potentials in well logging Am. Inst. Min. Met. Eng. Trans. 1945 164 288294.Google Scholar
Patnode, H W Wyllie, M R J, The presence of conductive solids in reservoir rocks as a factor in electric log interpretation Am. Inst. Min. Met. Eng. Trans. 1950 189 4752.Google Scholar
Schlumberger, C Schlumberger, M Leonardon, E G, Electrical corin, a method of determining bottom-hole data by electrical measurements Am. Inst. Min. Met. Eng. Trans. 1934 130 237272.Google Scholar
Schlumberger, C Schlumberger, M Leonardon, E G, A new contribution to subsurface studies by means of electrical measurements in drill holes Am. Inst. Min. Met. Eng. Trans. 1934 110 273289.Google Scholar
Sollner, K, The physical chemistry of membranes with particular reference to the electrical behavior of membranes of porous character Jour. Phys. Colloid Chemistry 1945 49 171191 10.1021/j150441a001.CrossRefGoogle Scholar
Sollner, K, The origin of bi-ionic potentials across porous membranes of high ionic selectivity Jour. Phys. Colloid Chemistry 1949 53 12111239 10.1021/j150473a007.CrossRefGoogle Scholar
Sollner, K, Recent advances in the electrochemistry of membranes of high ionic selectivity Elcctrochem. Soc. Jour. 1950 97 139 10.1149/1.2777995.CrossRefGoogle Scholar
Taylor, E McK, The replaceable bases in the clays and shales overlying petroliferous strata Inst. Petroleum Technology Jour. 1929 15 207210.Google Scholar
Tajlor, E McK, An examination of clays associated with oil-bearing strata in the United States Inst. Petroleum Technology Jour. 1930 16 681683.Google Scholar
Teorell, T, An attempt to formulate a quantitative theory of membrane permeability Soc. Exper. Biol. Medicine Proc 1935 33 282285 10.3181/00379727-33-8339C.CrossRefGoogle Scholar
Teorell, T, Studies of the diffusion effect upon ionic distribution. I. Some theoretical considerations Nat. Acad. Sci. Proc 1935 21 152162 10.1073/pnas.21.3.152.CrossRefGoogle ScholarPubMed
Tixier, M P, Electric-log analvsis Oil and Gas Jour. 1949 48 7 7143.Google Scholar
Wyllie, M R J, Some electrochemical properties of shales Science 1948 108 684686 10.1126/science.108.2816.684.CrossRefGoogle ScholarPubMed
Wyllie, M R J, A quantitative analysis of the electrochemical component of the S.P. curve Am. Inst. Min. Met. Eng. Trans. 1949 186 1726.Google Scholar
Wyllie, M R J, Statistical study of accuracy of some connate-water resistivity determinations made from self-potential log data Am. Assoc. Petroleum Geologists Bull. 1949 33 18921900.Google Scholar
Wyllie, M R J, An investigation of the electrokinetic component of the self potential curve Am. Inst. Min. Met. Eng. Trans. 1953 192 118.Google Scholar
Wyllie, M R J, Theoretical considerations involved in the determination of petroleum reservoir parameters from electric log data 3d World Petroleum Cong. Proc, sec. II 1953 E. J. Brill Leiden, the Netherlands 378393.Google Scholar
Wyllie, M R J, U. S. Patent no. 2,569,625, October 2, 1951 1951.Google Scholar
Wyllie, M R J, Gordon research conference on ion exchange Am. Assoc. Advancement of Sci. 1952.Google Scholar
Wyllie, M R J, Procedures for the direct employment of neutron log data in electric log interpretation Geophysics 1952 17 790 10.1190/1.1437809.CrossRefGoogle Scholar
Wyllie, M R J Morgan, F, Comparison of electric log and core analysis data for Gulf’s Prank no. 1, Velma pool, Stephens County, Oklahoma, in Pifteenth technical conference on petroleum production Pennsylvania State College, Mineral Industries Exper. Sta., Bull. 1951 111127.Google Scholar
Wyllie, M R J Patnode, H W, The development of membranes prepared from artificial cation-exchange materials with particular reference to the determination of sodium-ion activities Jour. Phys. Colloid Chemistry 1950 54 204227 10.1021/j150476a004.CrossRefGoogle Scholar
Wyllie, M R J, Ion exchange membranes. I Jour. Phys. Chem. 1954 58 6773 10.1021/j150511a017.CrossRefGoogle Scholar
Wyllie, M R J Kanaan, S L, Ion exchange membranes. II Jour. Phys. Chem. 1954 58 7380 10.1021/j150511a018.CrossRefGoogle Scholar
Wyllie, M R J Southwick, P P, An experimental investigation of the S.P. and resistivity phenomena in dirty sands Jour. Petroleum Tech. 1954 6 2 244.Google Scholar