SPE Drilling & Completion
Volume 28, Number 1, March 2013, pp. 11-20

SPE-143997-PA

Perforation Cleanup by Means of Dynamic Underbalance: New Understanding

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DOI  More information 10.2118/143997-PA http://dx.doi.org/10.2118/143997-PA

Citation

  • Grove, B., Harvey, J., and Zhan, L. 2013. Perforation Cleanup by Means of Dynamic Underbalance: New Understanding. SPE Drill & Compl 28 (1): 11-20. SPE-143997-PA. http://dx.doi.org/10.2118/143997-PA.

Summary

Dynamic-underbalance (DUB) perforating is a completion technique that uses a perforating system engineered to create a rapid underbalance immediately upon formation perforation (within tens of milliseconds or faster). This technique--properly applied--improves well deliverability by effectively cleaning the newly created perforation tunnels, regardless of initial static pressure conditions (overbalanced, underbalanced, or balanced). The authors are engaged in a multiyear program of perforateand-flow laboratory experiments [along the lines of American Petroleum Institute Recommended Practice (API RP) 19B Section 4], carefully controlling and measuring wellbore transients and measuring post-shot productivities. Experiments thus far have been limited to static balanced conditions to ensure that any cleanup observed would be attributable solely to wellbore dynamics rather than to preshot static pressure conditions. Our results provide new insight into perforation-damage and -cleanup mechanisms. We observed that a dominant source of perforation damage can be the reduction in effective flowing perforation length, and a primary mechanism of DUB cleanup is to increase this effective length. Although increasing the permeability of the crushed zone that may surround the tunnel (a conventional simplified treatment of perforation damage and cleanup) does indeed improve the productivity of real wells, the additional processes of enlarging tunnel diameter and reducing crushed-zone thickness further improve productivity. Increasing the effective tunnel length provides yet another means of productivity gain and, under many circumstances, is the dominant beneficial effect. We present productivity predictions of various downhole scenarios to demonstrate and quantify these effects. These findings indicate that the performance differential (between DUB and non-DUB techniques) at downhole conditions can be more significant than previously recognized. Future work will explore varying initial static pressure conditions (underbalance, overbalance) in conjunction with shot-time wellbore pressure transients. Work is also ongoing to probe the limits of the findings reported herein, particularly the influences of formation properties (permeability, strength, and lithology) and drilling damage.

© 2013. Society of Petroleum Engineers

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History

  • Original manuscript received: 8 August 2011
  • Meeting paper published: 7 June 2011
  • Revised manuscript received: 13 September 2012
  • Manuscript approved: 23 October 2012
  • Published online: 8 March 2013
  • Version of record: 14 March 2013