Black Oils Chapter | 7  179


             Petrosky, G.E. and Farshad, F.F. 1995. Viscosity correlations for Gulf of Mexico crude oils. In:
                Paper SPE 29468 Presented at SPE Production Operations Symposium, April 2 4,
                Oklahoma City, OK, United States.
             Petrosky, G.E., Farshad, F., 1998. Pressure-volume-temperature correlations for Gulf of Mexico
                crude oils. SPE Res. Eval. Eng. J. 1 (05), 416 420. Available from: https://doi.org/10.2118/
                51395-PA.
             Rollins, J.B., McCain Jr., W.D., Creeger, J.T., 1990. Estimation of solution GOR of black oils.
                J. Pet. Tech. 42, 92 94. January. Transactions, AIME. Vol. 289.
             Sattarina, M., Modarresi, H., Bayata, M., Teymoria, M., 2007. New viscosity correlations for
                dead crude oils. Pet. Coal 49 (2), 33 39. ISSN 1335-3055.
             Spivey, J.P., Valko, P.P., McCain Jr., W.D., 2007. Applications of the coefficient of isothermal
                compressibility to various reservoir situations with new correlations for each situation. SPE
                Res. Eval. Eng. J. 10, 43 49.
             Standing, M.B., 1947. A pressure-volume-temperature correlation for mixtures of California oils
                and gases, Drilling and Production Practice. American Petroleum Institute, New York, NY,
                United States, January 1.
             Standing, M.B., 1981. Volumetric and Phase Behavior of Oil Field Hydrocarbon Systems, ninth
                ed. Society of Petroleum Engineers of AIME, Richardson, TX, United States.
             Steve, S.K. Sim, 1993. Pressure-Volume-Temperature Correlations for Crude Oils from the
                Illinois Basin. Illinois State Geological Survey 140.
             Sulaimon, A.A., Ramli, N., Adeyemi, B.J. and Saaid, I.M. 2014. New correlation for oil forma-
                tion volume factor. In: Paper SPE 172396 Presented at the SPE Nigeria Annual
                International Conference and Exhibition, August 5 7, Lagos, Nigeria.
             Sutton, R.P., Farshad, F., 1990. Evaluation of empirically derived PVT properties for Gulf of
                Mexico crude oils. SPE Res. Eng. J. 5 (1). Available from: https://doi.org/10.2118/13172-
                PA.
             Twu, C.H., 1985. Internally consistent correlation for predicting liquid viscosities of petroleum
                fractions. Ind. Eng. Chem. Process Des. Dev. 34 (4), 1287 1293.
             Ubong, U., Oyedeko, K., 2014. Improved dead oil viscosity model. J. Energy Technol. Policy 4
                (7), ISSN (Online) 2225-0573.
             Valko, P.P., McCain Jr., W.D., 2003. Reservoir oil bubblepoint pressures revisited; solution gas-
                oil ratios and surface gas specific gravities. J. Pet. Sci. Eng. 37, 153 169. Available from:
                https://doi.org/10.1016/S0920-4105(02)00319-4.
             Vasquez, M., Beggs, H.D., 1980. Correlation for fluid physical property predictions. JPT 32,
                968 970.
             Velarde, J., Blasingame, T.A., McCain Jr., W.D., 1997. Correlation of black oil properties at
                pressures below bubble point pressure - a new approach. JCPT 38 (13). Available from:
                https://doi.org/10.2118/97-93.
             Whitson, C.H., Brule, M.R., 2000. Phase Behavior. SPE Monograph, Vol. 20. SPE Richardson,
                TX, United States.


             FURTHER READING
             Craft, B.C., Hawkins, M.F., 1959. Applied Petroleum Reservoir Engineering. Prentice-Hall,
                Englewood Cliffs, NJ.
             McCain Jr., W.D., 1994. Heavy components control reservoir fluid behavior. J. Pet. Technol.,
                pp. 746 750. Technology Today Series; Trans., AIME, 297.