Increasing the Wellbore Pressure Containment in Gulf of Mexico HP/HT Wells
- David A. Traugott (CSI Technologies) | Ronald E. Sweatman (Halliburton Energy Services Group) | Randal A. Vincent (Petsec Energy Inc.)
- Document ID
- Society of Petroleum Engineers
- SPE Drilling & Completion
- Publication Date
- March 2007
- Document Type
- Journal Paper
- 16 - 25
- 2007. Society of Petroleum Engineers
- 2 Well Completion, 2.4.3 Sand/Solids Control, 3 Production and Well Operations, 1.2.3 Rock properties, 1.12.2 Logging While Drilling, 1.8 Formation Damage, 1.12.1 Measurement While Drilling, 1.10.1 Drill string components and drilling tools (tubulars, jars, subs, stabilisers, reamers, etc), 1.2.1 Wellbore integrity, 1.11.2 Drilling Fluid Selection and Formulation (Chemistry, Properties), 1.14 Casing and Cementing, 1.6 Drilling Operations, 1.6.1 Drilling Operation Management, 1.1.2 Authority for expenditures (AFE), 4.1.2 Separation and Treating, 1.7 Pressure Management, 5.1.2 Faults and Fracture Characterisation, 1.6.6 Directional Drilling, 1.12.6 Drilling Data Management and Standards, 1.2.2 Geomechanics, 1.11 Drilling Fluids and Materials, 3.2.3 Hydraulic Fracturing Design, Implementation and Optimisation
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This article discusses the application of two wellbore pressure-containment integrity (WPCI) treatments that substantially increased the pressure-containment integrity in 852 ft of open hole in the last sidetrack for a production hole section. These treatments ultimately made it unnecessary to set pipe early, which could have jeopardized the commercial discovery of the lower gas sand. Earlier sidetracks attempted unsuccessfully to bypass the loss/flow problems that would not allow drilling ahead and increasing the 18.0-lb/gal mud weight (MW) to drill into a high-pressure zone on a deep, high-pressure/high-temperature (HP/HT) well in the western Gulf of Mexico shelf in offshore Louisiana. Various conventional lost-circulation material (LCM) treatments were used without success, increasing the hole's pressure containment.
The WPCI treatments raised the leakoff test (LOT) across the entire 852 ft of open hole to 19.1 pounds per gallon equivalent (ppge) vs. the lower LOT of 18.26 ppge before the first WPCI job. LOTs were performed before and after each of the two WPCI treatments to measure improvement in the open hole's pressure-containment integrity. This LOT data indicated that apparent fracture gradients can be simultaneously increased in multiple rock layers with various types of weak formations exposed in long, open holes by inducing near-wellbore stress fields created from WPCI treatments (Webb et al. 2001; Kelley Sweatman and Heathman 2001; Sweatman et al. 2001; Sanad and Waheed 2003). This approach can then allow use of increased mud weights (MW) and drilling pressures to prevent excessive gas influx from high-pressure sands without lost circulation (LC) in adjacent weak zones.
Also discussed are the WPCI treatment design and job procedures, including treatment optimization by the analysis of data from openhole wireline/logging while drilling (OHWL/LWD) logs, cuttings lithology, fracture-seal location indicators (torque on bit [TOB]/weight on bit [WOB]), and before/after LOT pressures. Real-time operations (Kulakofsky et al. 2002) (also described) enabled remote expert analysis and support so that wellsite personnel could: (1) interpret formation characteristics for optimized treatment design, and (2) analyze treatment pressure/rate data for selective placement of WPCI sealants.
The western shelf region in the Gulf of Mexico is known industry wide as one of the most challenging areas in the world to drill for oil and gas. Faulted formations, HP/HT conditions, abnormal pressure ramps, depleted reservoirs, and LC are only a few of the major challenges operators encounter on a regular basis. To deal with these issues, precise knowledge of well conditions and carefully planned contingencies are required.
The structural map in Fig. 1 details the many faults associated with this area. The well path associated with the example wellbore encountered many of these faulted areas; the fault lines show why pressure-integrity issues were encountered while drilling (Fig. 2). The main reason this well encountered so many pressure-integrity problems was that the mud-weight window (MWW) was too narrow.
Two weak zones were clearly identified before the WPCI job: one just below the shoe at 17,628 to 17,710 ft measured depth (MD), or 16,038 ft total vertical depth (TVD), and the other at 18,480 to 18,520 ft MD, or 16,679 ft TVD. Before the WPCI treatments, the maximum MW of 18.0 lb/gal was too low to hold back the lower production sand; as soon as the MW was increased, the well began to lose fluid to these weak zones up hole.
A number of conventional LCM treatments were used in an attempt to stop mud losses, but these had limited success and did not increase the WPCI of the well (Webb et al. 2001; Kelley et al. 2001; Sweatman et al. 2001; Sanad and Waheed 2003; Kulakofsky et al. 2002; Wang et al. 2003; Sanad et al. 2004; Sweatman et al. 2004; Wang et al. 2005). Finally, on the second sidetrack, two WPCI treatments were used to increase the pressure-containment integrity from 18.26 to 19.1 lb/gal. These treatments allowed for an increase in the MW to 18.3 lb/gal with no losses and permitted drilling ahead through the production sand to total depth (TD). Table 1 includes a summary of the well events and problems encountered before WPCI treatments were applied.
Borehole Strengthening Approaches
An open hole's WPCI may be increased to widen the MWW by various mechanisms and materials. One of the challenges is to understand enough about the types of formations in the open hole and the associated leak off flow paths to select the best initial approach, rather than applying possible methods by trial and error. The former approach can save significant amounts of rig time and well costs vs. the latter, which can, and has, resulted in high costs (10 to 100% over the AFE, or authority for expenditures), sidetracks, bypasses, and abandoned wells. When offset well data is not available or applicable, real-time measurements can be used to obtain the input data needed for an analysis to determine the leak off flow path characteristics. This data collection and analysis is explained in later sections of this article. The results of the data analysis may provide the understanding needed for selecting the most cost-effective approach.
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