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346 Reservoir Engineering

42. Archie, G. E., “The Electrical Resistivity Log as an Aid in Determining Some
Reservoir Characteristics,” Trans., AIME (1942), pp. 54-61.
43. Wyllie, M. R. J., and Rose, W. D., “Some Theoretical Considerations Related
to the Quantitative Evaluation of the Physical Characteristics of Reservoir
Rock from Electrical Log Data,” Trans., AIME, Vol. 189 (1950), pp. 105-118.
44. Tixier, M. P., ”Porosity Index in Limestone fmm Electrical Logs,” Oil & Gas
J (Nov. 15, 1951), pp. 140-173.
45. Winsauer, W. O., “Resistivity of Brine-Saturated Sands in Relation to Pore
Geometry,” Bull., AAPG, Vol. 36, No. 2 (1952), pp. 253-277.
46. Wyllie, M. R. J., and Gregory, A. R., “Formation Factors of Unconsolidated
Porous Media: Influence of Particle Shape and Effect of Cementation,”
Trans., AIME, Vol. 198 (1953), pp. 103-109.
47. Cornell, D., and Katz, D. L., “Flow of Gases Through Consolidated Porous
Media,” Ind. 6’ Eng. Chem., Vol. 45 (Oct. 1953), pp. 2145-2152.
48. Owen, J. D., “Well Logging Study-Quinduno Field, Roberts County, Texas,”
Symp. on Formation Evaluation, AIME (Oct. 1955).
49. Hill, H. J., and Milbum, J. D., “Effect of Clay and Water salinity on Electrochemi-
cal Behavior of Reservoir Rocks,” Trans., AIME, Vd. 207 (1956), pp. 65-72.
50. Wyllie, M. R. J., and Gardner, G. H. F., “The Generalized Kozeny-Carman
Equation, Part 2-A Novel Approach to Problems of Fluid Flow,” World Oil
(April 1958), pp. 210-228.
51. Sweeney, S. A., and Jennings, H. Y., Jr., “Effect of Wettability on the
Electrical Resistivity of Carbonate Rock from a Petroleum Reservoir,” J Phys.
Chem., Vol. 64 (1960), pp. 551-553.
52. Carothers, J. E., “A Statistical Study of the Formation Factor Relation,” The
Log Analyst (Sept.-Oct. 1968), pp. 13-20.
53. Porter, C. R., and Carothers, J. E., “Formation Factor-Porosity Relation
Derived from Well Log Data,” The Log Analyst (Jan.-Feb. 1971), pp. 16-26.
54. Timur, A., Hemkins, W. B., and Worthington, A. W., ”Porosity and Pressure
Dependence of Formation Resistivity Factor for Sandstones,” Proc. Cdn. Well
Logging SOC., Fourth Formation Evaluation Symposium, Calgary, Alberta,
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55. Perez-Rosales, C., “On the Relationship Between Formation Resistivity Factor
and Porosity,” SOC. Pet. En6 J. (Aug. 1982), pp. 531-536.
56. Coates, G. R., and Dumanoir, J. L., “A New Approach to Log-Derived Perme-
ability,” Tm., SPWLA 14th Annual Logging Symp. (May 6-9, 1973), pp. 1-28.
57. Amyx, J. W., and Bass, D. M., Jr., “Properties of Reservoir Rocks,” Chap.
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2 (1962) 23/1-23/40.
58. Log Inte~retation-Princ~ples and Applications, Schlumberger Educational
Services, Houston (1972).
59. Patnode, H. W., and Wyllie, M. R. J., “The Presence of Conductive Solids
in Reservoir Rocks as a Factor in Electric Log Interpretation,” Trans., AIME,
Vol. 189 (1950), pp. 47-52.
60. Winn, R. H., “The Fundamentals of Quantitative Analysis of Electric Logs,”
Pmc., Symposium on Formation Evaluation (Oct. 1955), pp. 35-48.
61. Atkins, E. R., and Smith, G. H., “The Significance of Particle Shape in
Formation Resistivity Factor-Porosity Relationships,” J. Pet. Tech. (March
1961); TTIZ~S., AIME, VO~. 222, pp. 285-291.
62. Koepf, E. H., “Core Handling-Core Analysis Methods,” Chap. 3 in Deter-
mination of Residual Oil Saturation, Interstate Oil Compact Commission,
Oklahoma City, Oklahoma (1978), pp. 36-71.

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