SPE Drilling & Completion
Volume 26, Number 3, September 2011, pp. 396-407

SPE-134254-PA

Planning and Execution of Highly Overbalanced Completions From a Floating Rig: The Ursa-Princess Waterflood Project

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DOI  More information 10.2118/134254-PA http://dx.doi.org/10.2118/134254-PA

Citation

  • Stair, C.D., Hinnant, C.H., Hines, N.O., Schober, J.M, Davis, C.L., Lizak, K.F., and Pugh, B.A. 2011. Planning and Execution of Highly Overbalanced Completions From a Floating Rig: The Ursa-Princess Waterflood Project. SPE Drill & Compl  26 (3): 396-407. SPE-134254-PA. http://dx.doi.org/134254-PA.

Discipline Categories

  • 1.1.3 Equipment Integrity, Failure Analysis
  • 1.2.6 Well Control, Blowout Flow Modeling
  • 1.5.1 Formation Isolation
  • 1.5.2 Perforating
  • 1.5.3 Sand Control
  • 1.5.4 Completion Equipment
  • 1.1.5 Risk Reduction
  • 2.1.6 Contingency Planning and Emergency Response

Keywords

  • overbalanced completions, overbalanced perforating, well control, floating rigs

Summary

The Ursa-Princess Waterflood (UPWF) targets the Lower Yellow sand, the main reservoir in the Mars-Ursa basin in Mississippi Canyon, approximately 60 miles south of the mouth of the Mississippi River in the Gulf of Mexico (GOM). The Lower Yellow sand, a world-class Upper Miocene turbidite reservoir, has been on production in the Ursa and Princess fields since 1999, and has been drawn down nearly to the bubblepoint. The waterflood is intended to increase and stabilize reservoir pressure, and to improve sweep efficiency. To accomplish this, four subsea injectors were designed and constructed to inject treated seawater at 40,000 B/D each for a target life of 30 years.

Because the Lower Yellow reservoir was already highly depleted, unique risks were identified in the planned subsea completion operations, to be conducted from a mobile offshore drilling unit (MODU). Seawater, used as a completion fluid, was expected to be up to 4,000 psi overbalanced to the reservoir, depending on the well location. This created the risk of either an uncontrollable fluid-level drop in the marine riser or an extreme impairment to the sandface completion. In order to maintain well control with a fluid level at the surface and still deliver low-skin completions, multiple design and procedural issues needed to be addressed, including the following:

  1. Control systems on the rig and riser system to prevent uncontrollable fluid-level drop.
  2. Perforating systems to minimize impairment in a highly overbalanced environment without adding undue risk to well control.
  3. Pill designs that could both control fluid loss at the sandface and clean up effectively.
  4. Downhole completion systems capable of functioning either under very high pressure differentials or against very high loss rates.
  5. Development of high-burst screens suited to the use of fluid-loss-control pills as a contingency provision in the event that mechanical fluid-loss devices failed.

As more deepwater reservoirs approach depletion, specialized tools and procedures will be required to continue to deliver safe and effective sandface completions from floating rigs. This paper details many of these considerations and summarizes the execution experience and results for one such reservoir.

© 2011. Society of Petroleum Engineers

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History

  • Original manuscript received: 26 October 2010
  • Meeting paper published: 21 September 2010
  • Revised manuscript received: 22 February 2011
  • Manuscript approved: 6 April 2011
  • Published online: 6 September 2011
  • Version of record: 15 September 2011