Maximizing Hole Enlargement While Drilling (HEWD) Performance With State-of-the-art BHA Dynamic Analysis Program and Operation Road Map

Algu, Dave; Denham, Waitus W.; Nelson, Gail; Tang, Wei; Compton, Molly; Courville, David; Fitzmorris, David Lawrence

doi:10.2118/115607-ms

Cited by 46 publications

(10 citation statements)

References 5 publications

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“…The study also enabled engineers to incorporate a high degree of stability into each design and to quantitatively analyze the results of iterative design changes. [20][21][22][23][24][25][26][27][28][29][30][31][32] The result was optimized rock removal feature that produced a new-style PDC bit with a combination shearing/crushing rock failure mechanism. Virtual testing of the new PDC bit design swiftly advanced the engineering concept and confirmed the bit would improve ROP, eliminating costly and time-consuming field trials.…”

Section: Confirming Modificationsmentioning

confidence: 99%

Pointing Towards Improved PDC Bit Performance: Innovative Conical Shaped Polycrystalline Diamond Element Achieves Higher ROP and Total Footage

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Segal

et al. 2013

SPE/IADC Drilling Conference

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Vibration induced impact damage can significantly reduce PDC bit/cutter life in hard/abrasive and interbedded formations. To develop a more stable fixed cutter bit for these difficult lithologies, an R&D initiative was launched to investigate new cutter designs and experiment with their count/placement to improve drilling efficiency and mitigate vibration. The research yielded an innovative cutting structure and a conical shaped polycrystalline diamond element (CDE) with an ultra-thick synthetic diamond layer.The element is positioned at bit center with the conical tip pointing vertically down towards the rock. The location of the conical element combined with the optimized placement of the conventional PDC cutters allows an uncut rock column to develop. The stress relieved rock column is continuously crushed by the centrally positioned conical element. This enables the bit to deliver faster ROP and reduce the potential for vibration.The conical element has undergone extensive laboratory testing to evaluate its potential to improve ROP. Using a single cutter test apparatus, engineers measured the element's ability to fracture rock at varying depths-of-cut. They determined the new CDE exhibits up to a 70% increase in cutting efficiency compared to standard PDC cutters. An existing PDC bit was modified to include the new CDE at bit center. A Mi616 type bit was fitted with CDE and run in North Dakota and Utah through a highly mixed sequence of formations, where the objective was to increase ROP and to reach KOP in one run. The bit improved ROP over a longer interval drilled compared to benchmark PDCs used in offsets. Subsequent field testing has substantiated the CDE's potential and how it can be used to improve PDC bit performance.

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Section: Confirming Modificationsmentioning

confidence: 99%

Pointing Towards Improved PDC Bit Performance: Innovative Conical Shaped Polycrystalline Diamond Element Achieves Higher ROP and Total Footage

Azar

White

Segal

et al. 2013

SPE/IADC Drilling Conference

View full text Add to dashboard Cite

show abstract

“…[2][3][4][5][6][7][8][9][10][11] The system allows engineers to perform multiple design iterations to get the best fit for the specific drilling scenario as provided by the field. Using the system, it was possible for engineers to virtually drill a short interval to understand how each selected PDC bit behaved under dynamic drilling conditions.…”

Section: Fea Analysismentioning

confidence: 99%

Solving Slow Drilling/Hole Deviation Issues: Modeling Effort Increases ROP by 250% Saving Operator 14-Days Rig Time, Turfan Basin China

et al. 2012

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The operator must reduce deviation tendencies in the 8-1/2" vertical hole section drilling the difficult J2x formation to efficiently develop gas reserves in Turfan basin, China. The challenge is to maintain near perfect perpendicular hole trajectory from 2400-3500m while drilling interbedded sandy claystone and coal layers. In the worst case scenario, the operator is forced to make several costly correction runs before starting the horizontal production hole. To solve the problems, engineers experimented with pendulum and steerable motor BHAs to maintain wellbore vertically with limited success.Most recently, Kekeya wells Ke28 and Ke33 required 6-5 bits/trips respectively to complete the 8-1/2" hole section at unacceptably low average ROPs of 1.6 m/hr and 2.4 m/hr. The operator required a PDC/deviation control tool to maintain verticality and increase ROP. To accomplish the objective, the drilling team utilized a rock strength program and a bit/BHA modeling system to investigate several different cutting structures to determine the best blade count and cutter placement configuration. Based on the study, a six-bladed 8-1/2" PDC bit was identified as the best candidate to accomplish the objectives. To mitigate deviation tendencies, a reliable automatic vertical drilling system (VDS) was selected. The reliable VDS tool does not require a MWD logging sub and can be deployed during normal drilling operations including backreaming and shoe drillout.The new-style 8-1/2" PDC bit was run in combination with VDS on new well Ke282 with outstanding results. The bit/VDS bottom hole assembly drilled the entire 740m section at 7.1 m/hr through the difficult J2x formation in a single run setting a new field benchmark. The optimized PDC bit increased ROP by 250% while reducing trips/bit consumption by 82%. The performance improvement saved the operator more than 14 days of rig time for a total cost savings of $93,000 USD.

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“…To accomplish the operator's objective, a comprehensive FEA-based engineering program was used to model the total drilling system. [7][8][9][10][11][12][13][14] The design tool accurately predicted the drill bit's performance and behavior as an integral part of the total downhole system. The first step was to select a PDC design based on the operator's application requirements and analysis of offset performance.…”

Section: Fea Modeling/pdc Design Iterationsmentioning

confidence: 99%

Solving Deep, Hard/Abrasive 16" Application Challenges with New PDC Technology Saves Operator 13 Days Rig Time, Kuwait

et al. 2011

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Drilling the deep vertical 16" hole (starting at 9,300ft) in northern Kuwait is challenging due to the complex stratigraphic section that contains abrasive Zubair sand (with pyrite), reactive Ratawi shale, hard Ratawi, Minagish, Makhul limestones and Hith anhydrite (UCS 10-30kpsi). Completing the 16" section typically requires around 45 days of rig-time and four polycrystalline diamond compact (PDC) bits on a positive displace motor (PDM) driven bottom hole assembly (BHA). However, inconsistent PDC bit performance/durability and lack of downhole stability was causing premature bit/motor failure. The operator required new PDC technology that could efficiently drill the abrasive, Zubair and continue as far as possible into the Ratawi without premature cutter failure at acceptable rates of penetration (ROP). The PDC bit would also need to possess improved stability characteristics to reduce PDM failures/trip hours.An engineering team was assembled to analyze the latest drilling/PDC technologies, optimize BHA design, and determine the best practices to enable reaching section TD with two PDC bits/runs. A finite element analysis (FEA) based engineering system was utilized to predict the dynamic behavior of each BHA component. The resulting information led to greater bit stability when drilling in lithologies comparable to the specific field application. The development of a new abrasion resistant cutter was considered important to improving durability and maintaining cutting efficiency.The in-depth study and PDC design changes/advanced cutter technology produced a new nine-bladed PDC bit. The new bit was run on a performance motor in Raudhatain field and set new PDC footage and ROP records for drilling through Zubair (1,200ft) in northern Kuwait (Figure 1). Historically, the Zubair alone required three/four TCIs or two/three PDCs to complete the formation interval. Next an eight-bladed PDC, fitted with the new cutter technology, drilled 2,508ft from Ratawi to section TD for the first time in Kuwait. The improved performance reduced rig hours by an average of 13 days for a total savings of approximately $390,000USD compared to the closest two PDC offset runs. SPE 139873Conclusions KOC's Deep Drilling Team 1, working in conjunction with the service provider, set a new performance benchmark drilling the deep 16" vertical hole section utilizing teamwork and new PDC bit/cutter technology. The new HPHT PDC cutters have reduced accelerated cutter wear and diamond table loss enhancing penetration rates and bit durability. Using the advanced dynamic FEA engineering software systems helped prevent BHA and formation induced vibrations, associated failures and trips by providing dynamically stable BHA and PDC bit combinations. The application specific bit design was tested and certified according to the operator's requirements through the use of dynamic simulations and rock laboratory tests. The result saved the operator rig time and reduced drilling costs by eliminating the traditional trial and error improvement/optimization...

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Maximizing Hole Enlargement While Drilling (HEWD) Performance With State-of-the-art BHA Dynamic Analysis Program and Operation Road Map

Cited by 46 publications

References 5 publications

Pointing Towards Improved PDC Bit Performance: Innovative Conical Shaped Polycrystalline Diamond Element Achieves Higher ROP and Total Footage

Pointing Towards Improved PDC Bit Performance: Innovative Conical Shaped Polycrystalline Diamond Element Achieves Higher ROP and Total Footage

Solving Slow Drilling/Hole Deviation Issues: Modeling Effort Increases ROP by 250% Saving Operator 14-Days Rig Time, Turfan Basin China

Solving Deep, Hard/Abrasive 16" Application Challenges with New PDC Technology Saves Operator 13 Days Rig Time, Kuwait

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