Performance Comparison of Rolling Cutter Bits with Alternate Nozzle Configurations

Moffitt, S. R.; McGehee, D.Y.

doi:10.2118/18630-ms

Cited by 6 publications

(1 citation statement)

References 10 publications

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“…11 Moffitt and McGehee report that this bit drilled 31% faster than conventional bits in the laboratory. 12 Slaughter reports an increase in ROP of up to 27% over conventional nozzle bits in field tests. 10 In 1992, Moffitt et al describe tests in which a variety of nozzle targets in the neighborhood of Slaughter's original directed nozzle were evaluated.…”

Section: Introductionmentioning

confidence: 99%

Advanced Hydraulics Analysis Optimizes Performance of Roller Cone Drill Bits

Ledgerwood¹,

Wells²,

Wiesner³

et al. 2000

Proceedings of IADC/SPE Drilling Conference

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Section: Introductionmentioning

confidence: 99%

Advanced Hydraulics Analysis Optimizes Performance of Roller Cone Drill Bits

Ledgerwood¹,

Wells²,

Wiesner³

et al. 2000

Proceedings of IADC/SPE Drilling Conference

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Performance Comparison of Rolling-Cutter Bits With Alternative Nozzle Designs

Moffitt¹,

McGehee²

1990

SPE Drilling Engineering

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Controversy exists regarding the optimum nozzle design for rolling-cutter bits. This paper describes the use of controlled laboratory conditions to isolate the true benefit of various hydraulic designs. Tests were conducted in a pressurized drilling environment with 9Ys-in. [2S1-mm] tooth and insert bits in Mancos shale. Hydraulic designs include combinations of standard-and directed-nozzle bits with center jets and long and short extended-nozzle bits. Results indicate that directed nozzles provide substantially better bit cleaning and rate of penetration (ROP) than the standard-and short extended-nozzle designs and a slightly faster ROP than long extended-nozzle designs.

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The Effects of Asymmetric Nozzle Sizing on the Performance of Roller Cone Bits

Wells¹,

Pessier

1993

SPE/IADC Drilling Conference

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A major factor governing the performance of roller cone drill bits is the efficiency with which the drilling fluid removes rock cuttings (and fines) generated beneath the bit. Traditionally, the hydraulics at the bit has been optimized by expressing the losses in the circulating system as a function of flow rate then maximizing either horsepower at the bit or impact force without regard to the position and size distribution of the nozzles. This paper describes results obtained using a novel technique where the hydraulic cleaning and scouring of the bottom of borehole is optimized by using an Asymmetric Nozzle Sizing procedure. Unlike the conventional practice of uniform nozzle sizing, this procedure combines a single large nozzle with two smaller nozzles. The jetting action of the larger nozzle enhances the crossflow component of the global flow pattern and greatly intensifies the turbulence levels beneath the bit.

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Performance Comparison of Rolling Cutter Bits with Alternate Nozzle Configurations

Cited by 6 publications

References 10 publications

Advanced Hydraulics Analysis Optimizes Performance of Roller Cone Drill Bits

Advanced Hydraulics Analysis Optimizes Performance of Roller Cone Drill Bits

Performance Comparison of Rolling-Cutter Bits With Alternative Nozzle Designs

The Effects of Asymmetric Nozzle Sizing on the Performance of Roller Cone Bits

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