The early detection of a kick and mitigation with appropriate well control actions can minimize the risk of a blowout. This paper proposes a downhole monitoring system, and presents a dynamic numerical simulation of a compressible two-phase flow to study the kick dynamics at downhole during drilling operation. This approach enables early kick detection and could lead to the development of potential blowout prevention strategies. A pressure cell that mimics a scaled-down version of a downhole is used to study the dynamics of a compressible two-phase flow. The setup is simulated under boundary conditions that resemble realistic scenarios; special attention is given to the transient period after injecting the influx. The main parameters studied include pressure gradient, raising speed of a gas kick, and volumetric behavior of the gas kick with respect to time. Simulation results exhibit a sudden increase of pressure while the kick enters and volumetric expansion of gas as it flows upward. This improved understanding helps to develop effective well control and blowout prevention strategies. This study confirms the feasibility and usability of an intelligent drill pipe as a tool to monitor well conditions and develop blowout risk management strategies.
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June 2018
Research-Article
A Numerical and Experimental Study of Kick Dynamics at Downhole
Rakibul Islam,
Rakibul Islam
Centre for Risk, Integrity and
Safety Engineering (C-RISE),
Faculty of Engineering and Applied Science,
Memorial University of Newfoundland,
St. John's NL A1B 3X5, Canada
Safety Engineering (C-RISE),
Faculty of Engineering and Applied Science,
Memorial University of Newfoundland,
St. John's NL A1B 3X5, Canada
Search for other works by this author on:
Faisal Khan,
Faisal Khan
Centre for Risk, Integrity and
Safety Engineering (C-RISE),
Faculty of Engineering and Applied Science,
Memorial University of Newfoundland,
St. John's NL A1B 3X5, Canada
e-mail: fikhan@mun.ca
Safety Engineering (C-RISE),
Faculty of Engineering and Applied Science,
Memorial University of Newfoundland,
St. John's NL A1B 3X5, Canada
e-mail: fikhan@mun.ca
Search for other works by this author on:
Ramchandran Venkatesan
Ramchandran Venkatesan
Centre for Risk, Integrity and
Safety Engineering (C-RISE),
Faculty of Engineering and Applied Science,
Memorial University of Newfoundland,
St. John's, NL A1B 3X5, Canada
Safety Engineering (C-RISE),
Faculty of Engineering and Applied Science,
Memorial University of Newfoundland,
St. John's, NL A1B 3X5, Canada
Search for other works by this author on:
Rakibul Islam
Centre for Risk, Integrity and
Safety Engineering (C-RISE),
Faculty of Engineering and Applied Science,
Memorial University of Newfoundland,
St. John's NL A1B 3X5, Canada
Safety Engineering (C-RISE),
Faculty of Engineering and Applied Science,
Memorial University of Newfoundland,
St. John's NL A1B 3X5, Canada
Faisal Khan
Centre for Risk, Integrity and
Safety Engineering (C-RISE),
Faculty of Engineering and Applied Science,
Memorial University of Newfoundland,
St. John's NL A1B 3X5, Canada
e-mail: fikhan@mun.ca
Safety Engineering (C-RISE),
Faculty of Engineering and Applied Science,
Memorial University of Newfoundland,
St. John's NL A1B 3X5, Canada
e-mail: fikhan@mun.ca
Ramchandran Venkatesan
Centre for Risk, Integrity and
Safety Engineering (C-RISE),
Faculty of Engineering and Applied Science,
Memorial University of Newfoundland,
St. John's, NL A1B 3X5, Canada
Safety Engineering (C-RISE),
Faculty of Engineering and Applied Science,
Memorial University of Newfoundland,
St. John's, NL A1B 3X5, Canada
1Corresponding author.
Manuscript received April 6, 2017; final manuscript received December 11, 2017; published online March 2, 2018. Assoc. Editor: Alba Sofi.
ASME J. Risk Uncertainty Part B. Jun 2018, 4(2): 021010 (9 pages)
Published Online: March 2, 2018
Article history
Received:
April 6, 2017
Revised:
December 11, 2017
Citation
Islam, R., Khan, F., and Venkatesan, R. (March 2, 2018). "A Numerical and Experimental Study of Kick Dynamics at Downhole." ASME. ASME J. Risk Uncertainty Part B. June 2018; 4(2): 021010. https://doi.org/10.1115/1.4039016
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