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TECHNICAL PAPERS

Impact of Perforating on Well Performance and Cumulative Production

[+] Author and Article Information
Turhan Yildiz

Colorado School of Mines, Petroleum Engineering Department, Golden, CO 80401-1887e-mail: tyildiz@mines.edu

J. Energy Resour. Technol 124(3), 163-172 (Aug 06, 2002) (10 pages) doi:10.1115/1.1487879 History: Received April 25, 2001; Revised April 18, 2002; Online August 06, 2002
Copyright © 2002 by ASME
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References

McDowell,  J. M., and Muskat,  M., 1950, “The Effect on Well Productivity of Formation Penetration Beyond Perforated Casing,” Trans. AIME, 189, pp. 309–312.
Howard,  R. A., and Watson,  M. S., 1950, “Relative Productivity of Perforated Casing-I,” Trans. AIME, 189, pp. 179–182.
Pan, Y. and Tang, Y., 1989, “Study on Underbalanced Deep Penetrating Perforating Technology,” Technical Report, Southwestern Petroleum Institute, Nanchong, Sichuan, China.
Harris,  S. D., 1966, “The Effect of Perforating on Well Productivity,” JPT, Apr., pp. 518–528.
Hong,  K. C., 1975, “Productivity of Perforated Completions in Formations With or Without Damage,” JPT, Aug., pp. 1027–1038.
Locke,  S., 1981, “An Advanced Method for predicting the Productivity Ratio of a Perforated Well,” JPT, Dec., pp. 2481–2488.
Tariq,  S. M., 1987, “Evaluation of Flow Characteristics of Perforations Including Nonlinear Effects With the Finite Element Method,” SPE Prod. Eng., May, pp. 104–112.
Tariq,  S. M., Ichara,  M. J., and Ayestaran,  L., 1989, “Performance of Perforated Completions in the Presence of Anisotropy, Laminations, or Natural Fractures,” SPE Prod. Eng., Nov., pp. 376–384.
Behie,  A., and Settari,  A., 1993, “Perforation Design Models for Heterogeneous, Multiphase Flow,” SPE Tech. Pap., SPE Paper 25901 pp. 591–602.
Dogulu,  Y. S., 1998, “Modeling of Well Productivity in Perforated Completions,” SPE Tech. Pap., SPE Paper 51048 pp. 109–118.
Bell, W. T., et al., 1995, Perforating, SPE Monograph Vol. 16, Richardson, TX.
McLeod,  H., 1983, “The Effect of Perforating Conditions on Well Performance,” JPT, Jan., pp. 31–39.
Karakas,  M., and Tariq,  S. M., 1991, “Semianalytical Productivity Models for Perforated Completions,” SPE Prod. Eng., Feb., pp. 73–82.
Brooks,  J. E., 1997, “A Simple Method for Estimating Well Productivity,” SPE Tech. Pap., SPE Paper 38148 pp. 57–64.
Yildiz,  T., and Ozkan,  E., 1999, “Pressure-Transient Analysis for Perforated Wells,” SPE J., June, pp. 167–176.
Yildiz,  T., 2000, “Productivity of Selectively Perforated Vertical Wells,” SPE Tech. Pap., SPE Paper 64783.
Yildiz,  T., and Cinar,  Y., 1998, “Inflow Performance and Transient Pressure Behavior of Selectively Completed Vertical Wells,” SPE Reservoir Eng., Oct., pp. 467–475.
Cinar, Y., 1995, Selectively Completed Well Performance, M.S. thesis, Istanbul Technical University, Feb.
Stefhest,  H., 1970, “Numerical Inversion of Laplace Transforms,” Commun. ACM, 13, No. 1, pp. 47–49.

Figures

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Decoupled flow model considered in the study
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Details of the perforation parameters considered in perforation total skin model
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The effect of shot density on flow rate decline
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The effect of shot density on cumulative production
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Influence of formation damage and crushed zone on transient rate decline
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Cumulative production influenced by damage and crushing around perforations
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The effect of penetration ratio on flow rate decline
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The effect of penetration ratio on cumulative production
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Flow rate versus time for the well selectively perforated at two intervals
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Cumulative production versus time for the well selectively perforated at two intervals

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