Enhancing Production in Multizone Wells Utilizing Fracturing Through Coiled Tubing

Spady, Darcy; Udick, Thomas H.; Zemlak, Warren

doi:10.2118/57435-ms

Cited by 12 publications

(1 citation statement)

References 4 publications

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“…Hydraulic fracturing through CT has become an effective stimulation technique for multizone oil and gas wells (Gavin 2000;Spady et al 1999;Gulrajani and Olmstead 1999). It is also an attractive production-enhancement technique for multiseam coalbed-methane wells (Rodvelt et al 2001).…”

Section: Introductionmentioning

confidence: 99%

Correlations To Predict Frictional Pressure Loss of Hydraulic-Fracturing Slurry in Coiled Tubing

Shah

Zhou

Bailey

et al. 2009

SPE Production &Amp; Operations

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Compared with conventional-tubing fracturing, coiled-tubing (CT) fracturing has several advantages. CT fracturing has become an effective stimulation technique for multizone oil and gas wells. It is also an attractive production-enhancement method for multiseam coalbed-methane wells, and wells with bypassed zones. The excessive frictional pressure loss through CT has been a concern in fracturing. The small diameter of the string limits the cross-sectional area open to flow. Furthermore, the tubing curvature causes secondary flow and results in extra flow resistance. This increased frictional pressure loss results in high surface pumping pressure. The maximum possible pump rate and sand concentration, therefore, have to be reduced. To design a CT fracturing job properly, it is essential to predict the frictional pressure loss through the tubing accurately.This paper presents correlations for the prediction of frictional pressure loss of fracturing slurries in straight tubing and CT. They are developed on the basis of full-scale slurry-flow tests with 1½-in. CT and slurries prepared with 35 lbm/1,000 gal of guar gel. The extensive experiments were conducted at the full-scale CT-flow test facility. The proposed correlations have been verified with the experimental data and actual field CT-fracturing data. Case studies of wells recently fractured are provided to demonstrate the application of the correlations. The correlations will be useful to the CT engineers in their hydraulics design calculations.

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