Results from Systematic Rotary-Steerable Testing with PDC Drill-Bits Depict the Optimal Balance between Stability, Steerability, and Borehole Quality

SPE Annual Technical Conference and Exhibition

2008

Self Cite

It has been widely recognized that poor hole quality causes tight borehole, packing off, high torque/drag, stick-slip, degraded logging-while-drilling (LWD) and wireline log quality, unpredictable directional performance, and consequently problematic casing runs. Conventionally, borehole quality is monitored with LWD standoff caliper logs and caliper images. In wireline application, multi-arm mechanical calipers are used to create such logs. Until today, it is believed that the use of such equipment is the only way to detect 3-D borehole problems, such as borehole oscillation. This paper presents the industry's first 2-D and 3-D mechanical caliper image while drilling and back-reaming with rotarysteerable systems (RSS). The near-bit mechanical caliper integrated into the specific RSS 1,2,3 takes measurements 4 ft from the bit in push-the-bit configuration and 7 ft from the bit in point-the-bit configuration. This pad-contact mechanical caliper provides both real-time and memory-based caliper images.The advantage of this new type of near-bit caliper measurement is that the sensor measures borehole geometry right at the bit as compared to 50-100 feet behind the bit with conventional LWD sensors. Borehole washout, for example, does not necessarily occur at the bit, but could be caused by string stabilizers far away from the bit. The ability to detect borehole washout in real-time helps the operator take immediate corrective action while drilling to maintain borehole integrity since near-bit washout often affects the steerability of RSS.In this paper, 2-D and 3-D near-bit caliper logs are extensively examined from different RSS assemblies and bits. The downhole data were gathered through controlled non-commercial field tests, as well as commercial runs. Frequency analysis using the discrete Fourier transform is also applied to the depth-based caliper images to identify the BHA and borehole oscillation issues. The effect of bit selection, stabilizer size/profile/geometry, and spacing on borehole quality is analyzed using the 2-D and 3-D near-bit caliper logs. As a result, this new sensor information helped to improve the RSS assembly performance and resulted in optimized BHAs in both push-and point-the-bit configurations for superior steerability, stability and borehole quality.

Section: Steerabilitymentioning

confidence: 73%

Section: Bit Testing -Push-the-bitmentioning

confidence: 99%

Section: Drill Bits Testedmentioning

confidence: 99%

Section: Bit Amentioning

confidence: 99%

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The Use of the Industry's First 3-D Mechanical Caliper Image While Drilling Leads to Optimized Rotary-Steerable Assemblies in Push- and Point-the-Bit Configurations

SPE Annual Technical Conference and Exhibition

2008

Self Cite

“…The build rate with a point-the-bit configuration was 10.0°/100ft while the push-the-bit configuration produced 11.4°/100ft. More detailed test results are described by Jones et al in other literature [8].…”

Section: Point-the-bit and Push-the-bit Comparisonmentioning

confidence: 99%

Integrated Approach to Rotary-Steerable Drilling Optimization Using Concurrent Real-time Measurement of Near-bit Borehole Caliper and Near-bit Vibration

2008

All Days

Self Cite

A novel sensor system, integrated into a rotary steerable system (RSS), has led to a new level of drilling optimization by providing the concurrent real-time measurement of near-bit borehole caliper and near-bit vibration. This new sensor system gathers all the information 2 to 3 meters above the drill bit, whereas conventional MWD/LWD sensor measurements are made 20 to 40 meters away from the bit.Integration of these sensors with an RSS resulted in consistent measurements of borehole caliper and the three principal types of downhole vibration (torsional, lateral, and axial), which has helped facilitate comparative analysis of drill bit and BHA performance for different BHAs and wells. Additionally the real-time drilling data was available to a multi-disciplinary drilling optimization team consisting of engineers and researchers. Remote satellite communication and Internet technologies enabled the team to monitor the downhole drilling conditions around the clock and to provide critical feedback to rig site engineers for minimizing vibration-related failures and for improving drilling efficiencies. This paper will discuss the application of real-time near-bit caliper and vibration measurements while drilling with various hole-size RSS. One unique feature of this particular RSS is a shop-configurable point-the-bit or push-the-bit mode, depending upon the application. This paper also shows a comparison of borehole conditions and vibration between point-thebit and push-the-bit modes using an identical RSS, having consistency in stiffness, weight, force applying capability and control system.Through the integrated sensor and team approach, the ability to detect borehole washout conditions and/or BHA instability due to vibration allows RSS operators to take timely remedial action before the occurrence of downhole RSS failure. As a result, the performance and survivability of the RSS has been remarkably improved.

Concurrent Rotary-Steerable Directional Drilling and Hole Enlargement Applied Successfully: Case Studies in North Sea, Mediterranean Sea, and Nile Delta

IADC/SPE Drilling Conference

2008

Concurrent rotary-steerable directional drilling and hole enlargement utilizing concentric underreamers is becoming more commonplace. Significant cost savings can be obtained enlarging the hole while drilling with a rotary-steerable system (RSS) as opposed to using a designated hole-opener run after the pilot has been drilled. However, RSS underreamer assemblies are often challenged with BHA instability, excessive vibration and stick-slip problems when the two different cutting structures (bit and underreamer) interact with significantly different formations. This paper describes case histories of directional wells that have been drilled with both point-the-bit and push-the-bit RSS underreamer assemblies in the North Sea, Mediterranean Sea and Nile Delta (Egypt). In particular, RSS underreamer assemblies opening from 13" to as large as 17 ½", using 12 ¼" pilot holes will be discussed. A unique sensor system, integrated into this specific RSS provides measurements of near-bit borehole caliper, stick-slip and vibration. While drilling, borehole quality and downhole vibrations were monitored in real-time at the rig site and from a remote operating center. The real-time data was used to optimize drilling parameters and provide enhanced performance from the RSS underreamer assembly. The RSS solution to simultaneous wellbore enlargement has been analyzed in terms of vibration, efficiency, performance, directional objectives and cost. The physical components, operational aspects and limitations of RSS underreamer technology will be discussed. The combination of a specific RSS and underreamer with a balanced cutting structure has resulted in excellent ROP and directional control, while reducing reaming-related vibration and potential failures. Further, an automated directional drilling feature and real-time drilling process monitor have enabled optimum directional drilling performance. Introduction Hole enlargement while drilling using RSS and underreamers is becoming widely accepted on directional projects worldwide. Conventionally, steerable motors with bi-center bits were the only practical option for directional hole enlargement where casing pass-through was a restriction. Today, BHAs utilizing a combination of RSS and underreamers are commonly used on wells that require directional hole enlargement. Slim well casing programs, casing whipstocks or re-drilling around a fish all commonly use RSS underreamer technology. Common problems associated with bi-center bits are: poor directional control, inconsistent directional results in soft formations, low ROP, excessive vibration, and irregular and/or spiraled holes1–3. All these problems lead to the need for an alternative method of hole enlargement, with the ability to enlarge the hole beyond the size of existing casing. The RSS underreamer BHA has become the obvious solution to this problem.