Perforating Gunshock Loads - Prediction and Mitigation

Baumann, Carlos Erik; Lazaro, Angel L.; Valdivia, Paulo G.; Williams, Harvey; Stecchini, Paulo

doi:10.2118/163549-ms

Cited by 17 publications

(3 citation statements)

References 30 publications

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“…The challenge of addressing tubing safety issues remains difficult. Utilizing numerical simulation, a widely applied computer technology in engineering [23,24], allows for the comprehensive simulation and calculation of the entire perforation process.…”

Section: Introductionmentioning

confidence: 99%

Numerical Simulation Study on the Damage Mechanism of the Combined Perforating Well Testing Tubing in Ultra-Deep Wells

Jiang,

Deng,

Yang

et al. 2024

Processes

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During perforation in ultra-deep wells, the blast shock wave can induce dynamic responses of the perforating tubing, leading to potential downhole accidents such as vibration, deformation, and even fracture of the perforating tubing. To comprehend the dynamic response characteristics of the perforating tubing under blast impact load, we conducted a joint finite element simulation using SolidWorks, Hypermesh, and LS-DYNA. The simulation included deformation analysis, motion analysis, and strength analysis of the perforating tubing. By analyzing these factors, we obtained the change in velocity, acceleration, and equivalent stress of the perforating tubing over time under the blast load. The finite element analysis indicates the following: (a) the bottom of the perforating tubing is susceptible to significant tension compression cycle; (b) the velocity amplitude variation is smallest at the top of the perforating tubing, while the frequency and peak values of velocity changes are maximal at the bottom of the perforating tubing; and (c) the top and bottom of the tubing string are the vulnerable parts of the perforating tubing system.

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Section: Introductionmentioning

confidence: 99%

Numerical Simulation Study on the Damage Mechanism of the Combined Perforating Well Testing Tubing in Ultra-Deep Wells

Jiang,

Deng,

Yang

et al. 2024

Processes

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“…In addition to the Formation Testing capability, the mechanical strength of the tubing will ensure the integrity of the system when it is submitted to the high forces of the gun blast. The shock caused by the detonation of these extensive gun strings might break a wireline cable or bend a coiled tubing if the job is not carefully planned (BAUMANN et al, 2013). In the TCP technique mentioned, the overbalance is achieved by keeping the drilling or completion fluid in the wellbore.…”

Section: The Perforating Systemmentioning

confidence: 99%

“…Fast gauges combined with pressure and temperature sensors will provide the details of the perforated zone response right after the detonation(GUEDES et al, 2019). The comparison between the simulated and the actual values can be done while still pulling the gun out of the hole(BAUMANN et al 2013).…”

mentioning

confidence: 99%

Análise técnico-econômica do canhoneio de poços do pré-sal brasileiro utilizando diferentes métodos de condução do canhão.

Zuliani

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I would like to also thank my daughters, Maria Alice, and Maria Luiza, for understanding the absence of their father during weekends and for keeping the volume low during my study sessions.Thanks to my advisor, Prof. Dr. Nara Policarpo for the reviews and guidance during this educational journey.My gratitude to Prof. Dr. Carina Ulsen for accepting me as student, in the beginning of the project when I faced challenges to continue the master's path.Thanks to my colleagues and dear friends at USP, Michele and Bruno Schaefer for the endless conversation about the process and for being present when doubts emerged.My appreciation to the oil and gas perforating community with a special thanks to Eduardo Schnitzler, Marcos Tsuchie Jun, Carlos Baumann, and Carlos Eduardo Guedes who happily contributed to this work.A special thanks to Beleza Matsuoka and Elisabete Ramos from CCP PPGEMin secretary who provided guidance through the USP educational process. "Televisão não dá camisa para ninguém."Rosemary Muratore RESUMO ZULIANI, Paulo Celso Muratore. Análise técnico-econômica do canhoneio de poços do présal brasileiro utilizando diferentes métodos de condução do canhão. 2023. Dissertação

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