Present Situation Research on Axial Flow Displacement Theory During Cementing
Abstract
Key words: Axial flow; Displacement theory; Wall shear stress; Interface stability; Displacement efficiency
Keywords
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[1] Liu, C. J., Huang, B. Z., Xu, T. T., et al. (2001). Cementing Theory and Application in Wells. Beijing: Petroleum Industry Press.
[2] Peng, M. W., Xia, H. N., Tao, Q., et al. (2006). Study and Application of Enhancing Displacement Efficiency of Cement Slurry by Using Wall Shear Stress. Fault-Block Oil & Gas Field, 13(6), 68-70.
[3] Chen, Z. X., Kou, M. F., Yu, W. H., et al. (2004). Effects of Shear Stress of Cement Slurries Adhering to Walls on Cementing Qualities. Petroleum Drilling Techniques, 32(2), 27-29.
[4] Mclea, R. H., Manry C. W., Whitaker W. W., et al. (1967). Displacement Mechanics in Primary Cementing. JPT, 1967, 251-260.
[5] Parker, P. N., Ladd, B. J., Ross, W. N., & Wahl, W. W. (1965). An Evaluation of a Primary Cementing Technique Using Low Displacement Rates. Fall Meeting of the Society of Petroleum Engineers of AIME, 3-6 October 1965, Denver, Colorado.
[6] Parker, P. N. (1969). Cementing Successful at Low Displacement Rates. World Oil J, 1969, 93.
[7] Hautand, R. C., & Crook R. J. (1979). Primary Cementing: The Mud Displacement Process. SPE Annual Technical Conference and Exhibition, 23-26 September 1979, Las Vegas, Nevada.
[8] Haut, R. C., & Crook, R. J. (1980). Primary Cementing: Optimizing for Maximum Displacement. World Oil, 11, 105-116.
[9] Haut, R. C., & Crook, R. J. (1982). Laboratory Investigation of Light Weight Low-Viscosity Cementing Spacer Fluids. Journal of Petroleum Technology, 34(8), 1828-1834.
[10] Liu, C. J., Liu, X. L., Liu, N. Z., et al. (2003). Research on Raising Slurry Displacing Efficiency in a Slim Hole. Natural Gas Industry, 23(2), 46-49.
[11] Li, Z. Y., Guo, X. Y., & Yang, Y. G. (2004). Cementing Technologies to Adjust Drilling Fluid Properties Before Cementing and Displace Mud by Turbulent Prepad Fluid at Low Return- Velocity. Drilling Fluid & Completion Fluid, 21(4), 31-33.
[12] Song, H. G., Zhang, X. Y., Hu, J. Z., et al. (2009). The Effect of Slurry Rheological Parameters on the Distribution of Slurry’s Velocity. Xinjiang Petroleum Science & Technology, 19(3), 9-11.
[13] Feng, F. P., Ai, C., Yang, F. Y., et al. (2010). A Study on The Replacement Position of Laminar Flow in Eccentric Annulus at Retention Layer Boundaries. Acta Petrolei Sinica, 31(5), 858-862.
[14] Deng, J. M., Wang, Y. H., Jia, X. B., et al. (2011). The Method to Calculate Cementing Fluids’ Density and Rheological Parameters. Petroleum Drilling Techniques, 39(5), 45-48.
[15] Zheng, Y. G., Fang, D., & Hao, J. F. (1996). A Theoretical and Experimental Study of Cementing for Horizontal Wells. Journal of Hydrodynamics, 11(1), 19-23.
[16] Feng, F. P., Ai, C., Peng, W. Y., et al. (2011). Effect of Casing Eccentricity on Displacement in Horizontal Wells. Oil Drilling & Production Technology, 33(3), 12-16.
[17] Mcpherson, S. A. (2000). Cementation of Horizontal Wellbores. SPE Annual Technical Conference and Exhibition, 1-4 October 2000, Dallas, Texas.
[18] Szabo, P., & Hassager, O. (1997). Displacement of One Newtonian Fluid by Another: Density Effects in Axial Annular Flow. International Journal Multiphase Flow, 1997(1), 113-129.
[19] Eduardo, S., Dutra, S., & Monica, F. (2004). Liquid Displacement During Oil Well Cementing Operations. Annual Transactions of the Nordic Rheology Society, 2004(1), 93-100.
[20] Dutra, E. S. S., Martins, A. L., Miranda, C. R., et al. (2005). Dynamic of Fluids Substitution While Drilling and Completion Long Horizontal Section Well. SPE Latin American and Caribbean Petroleum Engineering Conference, 20-23 June 2005, Rio de Janeiro, Brazil.
[21] Gao, Y. H., Sun, B. J., Liu, D. Q., et al. (2005). Numerical Simulation on Stability of Cement Displacement Interface in Annulus. Acta Petrolei Sinica, 26(5), 119-122.
[22] Gao, Y. H., Sun, B. J., Zhao, X. X., et al. (2007). Numerical Simulation on Influence of Rheological Property of Front Fluid on Stability of Cement Displacement Interface. Journal of China University of Petroleum (Edition of Natural Science), 31(6), 51-54.
[23] Yang, J. B., Deng, J. M., Feng, Y. Q., et al. (2008). Numerical Simulation of Effect of Density Difference on Displacement Efficiency at Low Cement Slurry Velocity. Petroleum Drilling Techniques, 36(5), 62-65.
[24] Howard, G. C., & Clark, J. B. (1948). Factors to be Considered in Obtaining Proper Cementing of Casing. D.P. P.API, 1948, 257-272.
[25] Brice, J. W., & Holmes, R. C. (1964). Engineered Casing Cementing Programs Using Turbulent Flow Techniques. JPT, 1964, 503-508.
[26] Jakobsen, J., Sterri, N., Saasen, A., et al. (1991). Displacement in Eccentric Annulus During Primary Cementing in Deviated Wells. SPE Production Operations Symposium, 7-9 April 1991, Oklahoma City, Oklahoma.
[27] Zhang, X. G., Xu, S. Q., Su, H. S., et al. (2005). The Effect of Slurry Rheopexy on Displacement Efficiency. West-China Exploration Engineering, 2005(1), 74-75.
[28] Zhang, X. G., Xu, S. Q., Chen, R. M., et al. (2005). The Effects of Flow Pattern and Contact Time on Cementing Displacement. West-China Exploration Engineering, 2005(2), 74-76.
[29] Yang, J. B., Deng, J. M., Li, Z. H., et al. Effect of Density Difference on Displacement Efficiency During Low-Rate Cementing. Petroleum Drilling Techniques, 35(5), 79-82.
DOI: http://dx.doi.org/10.3968/j.aped.1925543820130602.1779
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