Application of New Generation Rotary Steerable System for Reservoir Drilling in Remote Areas

Gruenhagen, Hartmut; Hahne, Ulrich; Alvord, Graham L.

doi:10.2118/74457-ms

Cited by 16 publications

(2 citation statements)

References 3 publications

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“…The rotary closed-loop system (Gruenhagen 2002;Johnston 2001) enables continuous steering while rotating and incorporates multiple propagation resistivity and gamma-ray measurements. Combined with an automated directional control, the system reduces hole tortuosity, differential sticking and, generally provides a more in-gauge hole.…”

Section: Rotary Steerable Systemmentioning

confidence: 99%

Innovative PDC Drill-Bit Cutter Technology Leads to Performance Improvements in Western Desert, Egypt

Ismail

Stockey

DiGiovanni

et al. 2015

Day 1 Mon, September 14, 2015

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The ongoing drilling campaign for an operator drilling in Egypt's Western desert area involved drilling vertical and directional wells approximately 5,000-to 5,500-m deep. The application involved drilling through very hard and abrasive sandstones, and intercalations of shale, sand, silt and dense dolomite inter-beds of about 25,000 psi unconfined compressive strength (UCS). Historically, poly crystalline diamond compact (PDC) drill-bit showed inconsistent bit performance that included premature bit failure and low rate of penetration (ROP), resulting in costly bit trips to the surface.New and improved bit technology was required to improve the penetration rate and footage to reduce bit trips to the surface and improve the overall drilling performance. An in-depth study of the formation properties, wireline logs, drilling parameters and bit dull analysis was performed. Detailed analysis identified this application can benefit from running cutters with a non-planar cutting face on a field-proven seven-blade PDC bit frame. The bit was run on a Rotary Steerable System (RSS) coupled with a positive displacement motor (PDM) on top of the BHA to further improve the drilling efficiency and overcome any challenges.Upon deployment, the 8½-in bit design with the new 16-mm cutters with non-planar cutting structure combined with optimized depth-of-cut control, stability, hydraulics efficiency and balling prevention features led to improved performance when drilling the complex, hook-shaped well profile (where torque and drag were an issue in the past). Compared to field offsets, the bit drilled very smoothly and aided the operator in placing the well in the correct direction with minimum bit-torque caused from bit and formation interaction. Offset bits fail to achieve the required directional plan in the past because of the severe nature of drilling in the area.This integrated solution resulted in a 15% improvement in the ROP as compared to the offsets and a 57% improvement in footage drilled. This performance replaced six drill bits, which were used to drill the same interval in the offset wells. The new innovative PDC cutter technology saved the operator at least USD 250,000 from the planned authority for expenditure (AFE) cost, as well as set two consecutive footage records. This paper outlines the problems in drilling this challenging area, the thought process behind using the various technologies incorporated in the PDC bit design and the keys to overall success.

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Section: Rotary Steerable Systemmentioning

confidence: 99%

Innovative PDC Drill-Bit Cutter Technology Leads to Performance Improvements in Western Desert, Egypt

Ismail

Stockey

DiGiovanni

et al. 2015

Day 1 Mon, September 14, 2015

View full text Add to dashboard Cite

show abstract

“…Rotary steerable drilling systems are described extensively (Edmondson et al 2000;Hahne et al 2004;Weijermans et al 2001;Chen, Gaynor, Comeaux 2002;Stuart et al 2003;Gruenhagen, Hahne, Alvord 2002) and have become the preferred technology for drilling complex or lengthy drainholes, primarily because the tools can negotiate the planned well path without stopping to "steer" as with conventional steerable motor systems. These systems have not only found favour in terms of improving gross drilling efficiency and reducing risk as well complexity increases, they are also frequently favoured by geology and geophysics (G&G) groups in the operator's asset team since they can steer more precisely to and through challenging reservoir targets.…”

Section: Introductionmentioning

confidence: 99%

Lessons Learned From Drilling Horizontal Wells on Didon Field, Offshore Tunisia

Jardine¹,

Chaaouri

Guyard

et al. 2010

Proceedings of North Africa Technical Conference and Exhibition

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The Didon field is located offshore Tunisia in the Pelagian Basin. It was discovered in 1976, and first production began in 1998. Following a decline in production from initial development wells, the latest phase of development drilling began upon commissioning of the production platform in 2006. Horizontal wells drilled in this latest development phase have resulted in production benefits. To date, six horizontal wells have been drilled on the field using various drilling techniques to optimize drilling efficiency and wellbore placement. Using wells drilled to date, this paper outlines the challenges involved in developing the Didon field. It describes lessons learned from application of the different drilling technologies together with the value of pre-well geological modelling and real-time geosteering techniques.

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Experience With Rotary Steerable System for Reservoir Drilling in Iranian Offshore Oilfields

Molayee

Teimoori

2006

SPE Asia Pacific Oil &Amp; Gas Conference and Exhibition

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractThe majority of the wells which have been drilled in Iranian oilfields in Persian golf include a horizontal section through the reservoir and the most of them have been drilled by the conventional steerable mud notor assemblies. Steerable motor drilling is a relatively inefficient process with associated problems, ranging from trajectory control in unstable shales, pipe sticking in lost circulation zones and slide drilling in carbonate reservoirs. In order to minimize the effect of these issues, rotary steerable system has been deployed in a number of wells for reservoir lateral drilling over the past year. This paper looks at a range of specific applications where the change from steerable motor to rotary steerable system has been both technically and commercially successful in offshore Iranian oilfields. Through the case histories, this paper will demonstrate both tangible and intangible benefits resulting from the use of rotary steerable systems that have led to a step change in overall drilling performance.

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Application of New Generation Rotary Steerable System for Reservoir Drilling in Remote Areas

Cited by 16 publications

References 3 publications

Innovative PDC Drill-Bit Cutter Technology Leads to Performance Improvements in Western Desert, Egypt

Innovative PDC Drill-Bit Cutter Technology Leads to Performance Improvements in Western Desert, Egypt

Lessons Learned From Drilling Horizontal Wells on Didon Field, Offshore Tunisia

Experience With Rotary Steerable System for Reservoir Drilling in Iranian Offshore Oilfields

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