An experimental setup was built at the University of Tulsa to study buckling and post-buckling behavior of pipes constrained in straight horizontal and curved wellbores. Experiments were conducted to investigate the axial force transfer with and without static internal pressure. Different stages of buckling phenomena and their relation to the axial force, the pipe diameter (1/4 and 3/8 in.) and the pipe end-support conditions have also been investigated. Experimental results have shown that the buckling load is a strong function of the pipe diameter and the pipe end-support conditions. Static internal pressure appears to have insignificant influence on the buckling behavior of pipes. A brief review of recently developed mathematical models to predict buckling behavior of pipes in inclined, curved, and horizontal sections of wellbore is also presented. Applications of the current theory are presented by using recently developed computer simulator. Results of the theoretical analysis have confirmed the versatility and effectiveness of computer simulator for better understanding and solving buckling related problems in the field. [S0195-0738(00)00903-1]

1.
Lubinski, A., 1950, “A Study on the Buckling of Rotary Strings,” API Drilling and Production Practice, pp. 178–214.
2.
Dawson, R., and Paslay, P. R., 1984, “Drill Pipe Buckling in Inclined Holes,” JPT, Oct., pp. 1734–1738.
3.
Schuh, F. J., 1991, “The Critical Buckling Force and Stresses for Pipe in Inclined Curved Boreholes,” Proc., SPE/IADC Drilling Conference, SPE/IADC 21942, Amsterdam, Holland, March 11–14.
4.
He, X., and Kyllingstad, A., 1993, “Helical Buckling and Lock-Up Conditions for Coiled Tubing in Curved Wells,” Proc., SPE Asia Pacific Conference, SPE 25370, Singapore, February 8–11.
5.
McCann, R. C., and Suryanarayana, P. V. R., 1994, “Experimental Study of Curvature and Frictional Effects on Buckling,” Proc., Offshore Technology Conference, OTC 7568, Houston, TX, May 2–5.
6.
Wu, J., and Juwkam-Wold, H. C., 1994, “The Effect of wellbore Curvature on Tubular Buckling and Lockup,” Proc., ETCE Drilling Technology Symposium, New Orleans, LA, January 23–26.
7.
Qiu, W., Miska, S., and Volk, L., 1998, “Drill Pipe/Coiled Tubing Buckling Analysis in a Hole of Constant Curvature,” Proc., SPE Permian Basin Oil and Gas Recovery Conference, SPE 39795, Midland, TX, March 25–27.
8.
Lubinski, A., Althouse, W. S., and Logan, J. L., 1962, “Helical Buckling of Tubing Sealed in Packers,” JPT, June, pp. 655–670.
9.
Wu, J., and Juvkam-Wold, 1993, “Study of Helical Buckling of Pipes in Horizontal Wells,” SPE 25503, presented at Production Operation Symposium, Oklahoma City, OK, March 21–23.
10.
Chen, Y., Lin, Y., and Cheatham, J. B., 1990, “Tubing and Casing Buckling in Horizontal Wells,” JPT, Feb., pp. 140–191.
11.
Miska, S., and Cunha, J. C., 1995, “An Analysis of Helical Buckling of Tubulars Subjected to Axial and Torsional Loading in Inclined Wellbore,” Proc., SPE Production Operations Symposium, SPE 29460, Oklahoma City, OK, April 2–4.
12.
Johanscik, C. A., Friesen, B. B., and Dawson, R., 1984, “Torque and Drag in Directional Wells-Prediction and Measurement,” JPT, June, pp. 987–992.
13.
Mitchell, R. F., 1984, “Frictional Forces in Helical Buckling of Tubing,” Proc., SPE 59th Annual Technical Conference and Exhibition, SPE 13064, Houston, TX, September 16–19.
14.
Miska, S., Qiu, W., Robello, G. S., and Alfredo, S., 1997, “Advanced Horizontal Coiled Tubing Drilling System,” Final Report, U.S. DOE, Contract DE-AC22-94PC91008, The University of Tulsa, Tulsa, OK.
15.
Miska, S., Qiu, W., and Volk, L. 1996, “An Improved Analysis of Axial Force Along Coiled Tubing in Inclined/Horizontal Wellbores,” Proc., SPE International Conference on Horizontal Well Technology, SPE 37056, Calgary, Canada, November 18–20.
16.
Qiu, W., and Miska, S., 1998, “Prediction of Unit Contact Force for Drill Pipe/Coiled Tubing,” Proc., SPE Eastern Regional Conference, SPE 51092, Pittsburgh, PA, November 9–11.
17.
Qiu, W. 1997, “Theoretical and Experimental Study of Buckling Behavior of Coiled Tubing and Axial Force Transfer Modeling in Coiled Tubing Drilling,” Ph.D. thesis, The University of Tulsa, Tulsa, OK.
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