Recently, a new type of jet mill bit (JMB) has been introduced to improve the cutting transport efficiency in horizontal drilling by comminuting cuttings into dust-like particles immediately after the cuttings are generated. To promote the application of JMBs in the field, in this work, JMBs were further improved by including junk slots (JS) all around to allow cuttings to flow through the annulus and thereby prevent sticking from occurring while tripping out. Moreover, numerical and experimental investigations on the feasibility of horizontal drilling with the new type of JMB were carried out. The finite element method was used to analyze the strength of the new type of JMB, and flow field simulation analysis was also performed for JMBs with different sizes of JS. The simulation results indicated that the weakest point of the JMB was located at the bit connection instead of the bit frame, and it was demonstrated that the structural strength of the JMB met the requirements of actual working conditions. The JMB JS had a negative effect on promoting the upward return of cuttings from the bottom of the hole, and the larger the slot sizes were, the more negative the effects. Through a trip-out experiment with the new type of JMB, this paper studied the influence of the slot size on the trip-out process safety. The experimental results indicated that the minimum safe slot width was 60 mm. Finally, in a synthesis of the simulation and experimental results, the reasonable range of slot width was determined to be 60–70 mm; the aforementioned range was the most suitable for the bit based on safety and efficiency considerations. This paper provides guidance for the improvement and application of JMBs.
Issue Section:
Petroleum Wells-Drilling/Production/Construction
References
1.
Rui
, Z.
, Wang
, X.
, Zhang
, Z.
, Lu
, J.
, Chen
, G.
, Zhou
, X.
, and Patil
, S.
, 2018
, “A Realistic and Integrated Model for Evaluating Oil Sands Development With Steam Assisted Gravity Drainage Technology in Canada
,” Appl. Energy
, 213
, pp. 76
–91
. 2.
Zhang
, Z.
, Xiong
, Y.
, and Guo
, F.
, 2018
, “Analysis of Wellbore Temperature Distribution and Influencing Factors During Drilling Horizontal Wells
,” J. Energy Resour. Technol.
, 140
(9
), p. 092901
. 3.
Chen
, P.
, Gao
, D.
, Wang
, Z.
, and Huang
, W.
, 2015
, “Study on Multi-Segment Friction Factors Inversion in Extended-Reach Well Based on an Enhanced PSO Model
,” J. Nat. Gas Sci. Eng.
, 27
, pp. 1780
–1787
. 4.
Chen
, P.
, Gao
, D.
, Wang
, Z.
, and Huang
, W.
, 2017
, “Study on Aggressively Working Casing String in Extended-Reach Well
,” J. Pet. Sci. Eng.
, 157
, pp. 604
–616
. 5.
Al Dushaishi
, M. F.
, Nygaard
, R.
, and Stutts
, D. S.
, 2018
, “An Analysis of Common Drill Stem Vibration Models
,” J. Energy Resour. Technol.
, 140
(1
), p. 012905
. 6.
Jingbin
, L.
, Guangqing
, Z.
, Gensheng
, L.
, Zhongwei
, H.
, and Weichang
, L.
, 2018
, “A Method to Double the Extension Ability of Radial Jet Drilling Technology
,” J. Energy Resour. Technol.
, 140
(9
), p. 093102
. 7.
Wang
, X.
, Ni
, H.
, Wang
, R.
, Zhang
, L.
, and Wang
, P.
, 2019
, “Drag-Reduction and Resonance Problems of a Jointed Drillstring in the Presence of an Axial Excitation Tool
,” J. Energy Resour. Technol.
, 141
(3
), p. 032904
. 8.
Gao
, E.
, and Young
, A. C.
, 1995
, “Hole Cleaning in Extended Reach Wells: Field Experience and Theoretical Analysis Using a Pseudo-Oil (acetal) Based Mud
,” SPE/IADC Drilling Conference
, Amsterdam, Netherlands
, Feb. 28–Mar. 2
, Paper No. SPE-29425-MS.9.
Sorgun
, M.
, 2013
, “Simple Correlations and Analysis of Cuttings Transport With Newtonian and Non-Newtonian Fluids in Horizontal and Deviated Wells
,” J. Energy Resour. Technol.
, 135
(3
), p. 032903
. 10.
Guild
, G. J.
, Wallace
, I. M.
, and Wassenborg
, M. J.
, 1995
, “Hole Cleaning Program for Extended Reach Wells
,” SPE/IADC Drilling Conference
, Amsterdam, Netherlands
, Feb. 28–Mar. 2
, Paper No. SPE-29381-MS.11.
Schamp
, J. H.
, Estes
, B. L.
, and Keller
, S. R.
, 2006
, “Torque Reduction Techniques in ERD Wells
,” IADC/SPE Drilling Conference
, Miami, FL
, Feb. 21–23
, Paper No. SPE-98969-MS.12.
Corredor
, F. E. R.
, Bizhani
, M.
, and Kuru
, E.
, 2016
, “Experimental Investigation of Cuttings Bed Erosion in Horizontal Wells using Water and Drag Reducing Fluids
,” J. Pet. Sci. Eng.
, 147
, pp. 129
–142
. 13.
Heydari
, O.
, Sahraei
, E.
, and Skalle
, P.
, 2017
, “Investigating the Impact of Drillpipe’s Rotation and Eccentricity on Cuttings Transport Phenomenon in Various Horizontal Annuluses Using Computational Fluid Dynamics (CFD)
,” J. Pet. Sci. Eng.
, 156
, pp. 801
–813
. 14.
Zeng
, C.
, Yan
, X.
, Zeng
, Z.
, and Yang
, S.
, 2018
, “The Formation and Broken of Cuttings Bed During Reaming Process in Horizontal Directional Drilling
,” Tunn. Undergr. Sp. Technol.
, 76
, pp. 21
–29
. 15.
Yi
, P.
, Kumar
, A.
, and Samuel
, R.
, 2015
, “Realtime Rate of Penetration Optimization using the Shuffled Frog Leaping Algorithm
,” J. Energy Resour. Technol.
, 137
(3
), p. 032902
. 16.
Rui
, Z.
, Li
, C.
, Peng
, F.
, Ling
, K.
, Chen
, G.
, Zhou
, X.
, and Chang
, H.
, 2017
, “Development of Industry Performance Metrics for Offshore Oil and Gas Project
,” J. Nat. Gas Sci. Eng.
39
, pp. 44
–53
. 17.
Chen
, X.
, Gao
, D.
, Guo
, B.
, Luo
, L.
, Liu
, X.
, and Zhang
, X.
, 2014
, “A New Method for Determining the Minimum Gas Injection Rate Required for Hole Cleaning in Horizontal Gas Drilling
,” J. Nat. Gas Sci. Eng.
, 21
, pp. 1084
–1090
. 18.
Cho
, H.
, Shah
, S. N.
, and Osisanya
, S. O.
, 2001
, “Effects of Fluid Flow in a Porous Cuttings-Bed on Cuttings Transport Efficiency and Hydraulics
,” SPE AnnualConference and Exhibition
, New Orleans, Louisiana
, Sep. 30–Oct. 3
, Paper No. SPE-71374-MS.19.
GhasemiKafrudi
, E.
, and Hashemabadi
, S.
, 2016
, “Numerical Study on Effects of Drilling Mud Rheological Properties on the Transport of Drilling Cuttings
,” J. Energy Resour. Technol.
, 138
(1
), p. 012902
. 20.
Guo
, B.
, Miska
, S.
, and Lee
, R.
, 1994
, “Volume Requirements for Directional Air Drilling
,” SPE/IADC Drilling Conference
, Dallas, TX
, Feb. 15–18
, Paper No. SPE-27510-MS.21.
Sorgun
, M.
, and Ulker
, E.
, 2016
, “Modeling and Experimental Study of Solid–Liquid Two-Phase Pressure Drop in Horizontal Wellbores With Pipe Rotation
,” J. Energy Resour. Technol.
, 138
(2
), p. 022902
. 22.
Werner
, B.
, Myrseth
, V.
, and Saasen
, A.
, 2017
, “Viscoelastic Properties of Drilling Fluids and Their Influence on Cuttings Transport
,” J. Pet. Sci. Eng.
, 156
, pp. 845
–851
. 23.
Chen
, X.
, and Gao
, D.
, 2016
, “Jet Mill Bit for Improving Cuttings Carrying Capacity in Horizontal Gas Drilling
,” Abu Dhabi International Petroleum Exhibition & Conference
, Abu Dhabi, UAE
, Nov. 7–10
, Paper No. SPE-183032-MS.24.
Chen
, X.
, Gao
, D.
, and Guo
, B.
, 2016
, “A Method for Optimizing Jet-Mill-Bit Hydraulics in Horizontal Drilling
,” SPE J.
, 21
(2
), pp. 416
–422
. 25.
Chen
, X.
, Gao
, D.
, and Guo
, B.
, 2016
, “Optimal Design of Jet Mill Bit for Jet Comminuting Cuttings in Horizontal Gas Drilling Hard Formations
,” J. Nat. Gas Sci. Eng.
, 28
, pp. 587
–593
. 26.
Gradl
, C.
, Eustes
, A. W.
, and Thonhauser
, G.
, 2012
, “An Analysis of Noise Characteristics of Drill Bits
,” J. Energy Resour. Technol.
, 134
(1
), p. 013103
. 27.
Kamel
, M. A.
, Elkatatny
, S.
, Mysorewala
, M. F.
, Al-Majed
, A.
, and Elshafei
, M.
, 2018
, “Adaptive and Real-Time Optimal Control of Stick–Slip and Bit Wear in Autonomous Rotary Steerable Drilling
,” J. Energy Resour. Technol.
, 140
(3
), p. 032908
. 28.
Li
, H.
, Butt
, S.
, Munaswamy
, K.
, and Arvani
, F.
, 2010
, “Experimental Investigation of Bit Vibration on Rotary Drilling Penetration Rate
,” 44th US Rock Mechanics Symposium and 5th US-Canada Rock Mechanics Symposium
, Salt Lake City, Utah
, June 27–30
, Paper No. ARMA-10-426.29.
Qiu
, H.
, Yang
, J.
, and Butt
, S.
, 2018
, “Investigation on Bit Stick-Slip Vibration With Random Friction Coefficients
,” J. Pet. Sci. Eng.
, 164
, pp. 127
–139
. 30.
Yigit
, A. S.
, and Christoforou
, A. P.
, 2006
, “Stick-Slip and Bit-Bounce Interaction in Oil-Well Drillstrings
,” J. Energy Resour. Technol.
, 128
(4
), pp. 268
–274
. 31.
Gerbaud
, L.
, Menand
, S.
, and Sellami
, H.
, 2006
, “PDC Bits: All comes from the Cutter Rock Interaction
,” IADC/SPE Drilling Conference
, Miami, FL
, Feb. 21–23
. p. 1
.32.
Chen
, P.
, Miska
, S. Z.
, Ren
, R.
, Yu
, M.
, Ozbayoglu
, E.
, and Takach
, N.
, 2018
, “Poroelastic Modeling of Cutting Rock in Pressurized Condition
,” J. Petrol. Sci. Eng.
, 169
, 623
–635
. 33.
Akbari
, B.
, and Miska
, S. Z.
, 2017
, “Relative Significance of Multiple Parameters on the Mechanical Specific Energy and Frictional Responses of Polycrystalline Diamond Compact Cutters
,” J. Energy Resour. Technol.
, 139
(2
), p. 022904
. 34.
Dagrain
, F.
, and Tshibangu
, J.-P.
, 2002
, “Use of the D3 Model for the Estimation of Forces Acting on a Cutter in Rock Cutting and Drilling
,” SPE/ISRM Rock Mechanics Conference
, Irving, TX
, Oct. 20–23
, Paper No. SPE-78242-MS.35.
Liang
, E. G.
, Li
, Z. F.
, and Zou
, D. Y.
, 2009
, “Experimental Research on Integrated Mechanical Model of PDC Bit
,” Rock Soil Mech.
, 30
(4
), pp. 938
–942
.http://ytlx.whrsm.ac.cn/EN/Y2009/V30/I4/93836.
Moslemi
, A.
, and Ahmadi
, G.
, 2014
, “Study of the Hydraulic Performance of Drill Bits Using a Computational Particle-Tracking Method
,” SPE Drill. Completion
, 29
(1
), pp. 28
–35
. 37.
Watson
, G. R.
, Barton
, N. A.
, and Hargrave
, G. K.
, 1997
, “Using New Computational Fluid Dynamics Techniques to Improve PDC Bit Performance
,” SPE/IADC Drilling Conference
, Amsterdam, Netherlands
, Mar. 4–6
, Paper No. SPE-37580-MS.Copyright © 2019 by ASME
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