Torque and Drag-Two Factors in Extended-Reach Drilling

Aarrestad, T.V.; Blikra, Harald

doi:10.2118/27491-pa

“…This development became very important not only to drain older fields more efficiently, but also to reduce the number of offshore platforms in new development projects. Eek-Olsen et al (1993, 1994 and Alfsen et al (1993) demonstrate the evolution from a 3-km horizontal reach to more than 7 km. Payne et al (1998) describes concerns regarding torque and drag considerations including buckling, cuttings bed and wellbore trajectory.…”

Section: Review Of Previous Workmentioning

confidence: 97%

“…Mechanical methods are like using special equipment or tubular in the wellbore to reduce T&D and chemicals are those which use lubricants, etc. Aarrestad (1994) discussed application of catenary well profile in a well in North Sea that has been introduced by Sheppard (1987) and later changed it to modified catenary profile by Alfsen (1993) and Aadnoy (2006) which is a hyperbolic function well profile and the drillstring is hanging from two fixed points. This is like an ambitious profile that almost has zero contact force with the hole wall.…”

Section: Review Of Previous Workmentioning

confidence: 99%

New Aspects of Torque-and-Drag Modeling in Extended-Reach Wells

Mirhajmohammadabadi

¹

,

Fazaelizadeh

²

,

Kaarstad

³

et al. 2010

SPE Annual Technical Conference and Exhibition

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The length and inclination of wells have increased significantly the past decades. The record horizontal departure today is about 11 km from the platform. Because of this evolution the number of offshore platforms to drain a field has been significantly reduced. Excessive torque and drag can be critical limitations in extended-reach drilling (ERD). Torque and drag modeling is regarded as an invaluable process to assist in well planning and to predict and prevent drilling problems. It discusses how to use torque and drag calculations and measurements to plan long-reach well profiles, to execute drilling operations that minimize torque and drag effects, to monitor hole cleaning, and to plan jarring operations. Torque and drag models have proven to be useful in all three stages of an extended reach well: planning, drilling and post-analysis. During planning phase the models are used to optimize the trajectory design to minimize the torque, drag and contact forces between drillstring and borehole wall. Used together with monitoring of hole conditions during drilling, T&D models are particularly useful in diagnosing hole cleaning problems, impending differential sticking, and severe doglegs as well as determining the possibility of reciprocating casing during cementing operations. In post-analysis the models help to determine true causes of hole problems that previously were unexplained or attributed to other factors such as mud weight, mud chemistry or problem shales.In this study a general overview on most of the available literature on the subject is presented. Different models that have been developed for torque and drag predictions along with pros and cons of the models will be discussed and the validity will be checked by applying the model for one field case study from an ERD well in North Sea. The field case also demonstrates the challenges and importance of buoyancy effects and well path effects.

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“…With consideration to eliminating drilling problems such as excessive torque and drag, poor hole cleaning, stuck pipe, low rates-of-penetration and well-bore stability, increasingly these wells are being drilled with invertemulsion muds. 1,2,3 Invert-emulsion muds have evolved over the past several decades, primarily in response to government-imposed restrictions on the discharge of contaminated cuttings. LTOBM were introduced into the UK sector of the North Sea in the early 1980's and the number of wells drilled with LTOBM steadily increased in the late 1980's, with growing concern about the impact of discharges on aquatic life.…”

Section: Drilling Fluidsmentioning

confidence: 99%

Development Process and Field Applications of a New Ester-Based Mud System for ERD Wells on Australia's Northwest Shelf

Eckhout

¹

,

Dolan

²

,

Gogan

³

et al. 2000

IADC/SPE Asia Pacific Drilling Technology

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fax 01-972-952-9435. AbstractExtended reach wells drilled from the Goodwyn Alpha platform are highly aggressive and have been drilled with a variety of invert-emulsion mud systems. Historically, mud system selection for these wells was based on compliance to environmental regulations and satisfaction of technical criteria. In order to take a more proactive approach to mud system selection and to raise environmental standards to new levels, an initiative was undertaken to replace the environmentally acceptable, and technically competent mud system being used on Goodwyn with a new ester-based system. Ester-based mud systems are considered the "systemof-choice" in terms of environmental acceptability and possess inherent lubricating qualities for torque and drag reduction. This paper describes the development process and 4 successful field applications of the new ester-based mud system. A new ester, which exhibits the lowest kinematic viscosity of commercially available esters, was identified and selected for use. New and innovative technologies were introduced in the laboratory development and field applications to address barite sag, hole cleaning efficiency and hydrolytic stability.The system development and field testing processes were enhanced by daily communication with the development teams in Aberdeen, Houston and Perth. Down-hole friction factors were significantly lower than modeled predictions. Barite sag problems encountered on previous wells were eliminated, and hole cleaning efficiency was optimized.

show abstract

“…With consideration to eliminating drilling problems such as excessive torque and drag, poor hole cleaning, stuck pipe, low rates-of-penetration and well-bore stability, increasingly these wells are being drilled with invertemulsion muds. 1,2,3 Invert-emulsion muds have evolved over the past several decades, primarily in response to government-imposed restrictions on the discharge of contaminated cuttings. LTOBM were introduced into the UK sector of the North Sea in the early 1980's and the number of wells drilled with LTOBM steadily increased in the late 1980's, with growing concern about the impact of discharges on aquatic life.…”

Section: Drilling Fluidsmentioning

confidence: 99%

Development Process and Field Applications of a New Ester-based Mud System for ERD Wells on Australia's Northwest Shelf

Daniel¹,

Shane²,

Ray³

et al. 2000

Proceedings of IADC/SPE Asia Pacific Drilling Technology

1

0

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fax 01-972-952-9435. AbstractExtended reach wells drilled from the Goodwyn Alpha platform are highly aggressive and have been drilled with a variety of invert-emulsion mud systems. Historically, mud system selection for these wells was based on compliance to environmental regulations and satisfaction of technical criteria. In order to take a more proactive approach to mud system selection and to raise environmental standards to new levels, an initiative was undertaken to replace the environmentally acceptable, and technically competent mud system being used on Goodwyn with a new ester-based system. Ester-based mud systems are considered the "systemof-choice" in terms of environmental acceptability and possess inherent lubricating qualities for torque and drag reduction. This paper describes the development process and 4 successful field applications of the new ester-based mud system. A new ester, which exhibits the lowest kinematic viscosity of commercially available esters, was identified and selected for use. New and innovative technologies were introduced in the laboratory development and field applications to address barite sag, hole cleaning efficiency and hydrolytic stability.The system development and field testing processes were enhanced by daily communication with the development teams in Aberdeen, Houston and Perth. Down-hole friction factors were significantly lower than modeled predictions. Barite sag problems encountered on previous wells were eliminated, and hole cleaning efficiency was optimized.

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Torque and Drag-Two Factors in Extended-Reach Drilling

Cited by 33 publications

References 0 publications

New Aspects of Torque-and-Drag Modeling in Extended-Reach Wells

New Aspects of Torque-and-Drag Modeling in Extended-Reach Wells

Development Process and Field Applications of a New Ester-Based Mud System for ERD Wells on Australia's Northwest Shelf

Development Process and Field Applications of a New Ester-based Mud System for ERD Wells on Australia's Northwest Shelf

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