TY - GEN
T1 - Improved IMC for Pressure Control of Oil Wells During Drilling Modeled with an Integrative Term Under Time-Delay
AU - Silva, Carlos Alexis Alvarado
AU - de Oliveira, Geraldo César Rosário
AU - Rosado, Víctor Orlando Gamarra
AU - de Azevedo Silva, Fernando
N1 - Publisher Copyright:
© 2022, The Author(s), under exclusive license to Springer Nature Switzerland AG.
PY - 2022
Y1 - 2022
N2 - Controlling the pressure of oil wells during drilling can be one of the most complex and dangerous processes of the exploration stage. This study proposes the design of an improved internal model controller (IMC) to control the pressure at the bottom of wells during drilling operations based on Managed Pressure Drilling (MPD). In the first part of this work, there was obtained a mathematical linear model of the process, which is founded on fluid mechanics. The dynamic process showed an integrator element, moreover, is considered the addition of a time-delay between the action of the valve and the response of the downhole pressure variation. In the second part, the improved IMC controller was designed to offset the effect of the integrate term with time delay looking for the best performance and robustness of the system. Finally, the proposed controller is tested by common problems during drilling simulations (loss of fluid, influxes, pipe connection, and loss of pump power) showing its viability.
AB - Controlling the pressure of oil wells during drilling can be one of the most complex and dangerous processes of the exploration stage. This study proposes the design of an improved internal model controller (IMC) to control the pressure at the bottom of wells during drilling operations based on Managed Pressure Drilling (MPD). In the first part of this work, there was obtained a mathematical linear model of the process, which is founded on fluid mechanics. The dynamic process showed an integrator element, moreover, is considered the addition of a time-delay between the action of the valve and the response of the downhole pressure variation. In the second part, the improved IMC controller was designed to offset the effect of the integrate term with time delay looking for the best performance and robustness of the system. Finally, the proposed controller is tested by common problems during drilling simulations (loss of fluid, influxes, pipe connection, and loss of pump power) showing its viability.
KW - Control of oil wells pressure
KW - IMC controller
KW - Manage pressure drilling
KW - Two degrees of freedom IMC controller
KW - Wells drilling
UR - http://www.scopus.com/inward/record.url?scp=85135063763&partnerID=8YFLogxK
U2 - 10.1007/978-3-031-08545-1_70
DO - 10.1007/978-3-031-08545-1_70
M3 - Conference contribution
AN - SCOPUS:85135063763
SN - 9783031085444
T3 - Smart Innovation, Systems and Technologies
SP - 705
EP - 712
BT - Proceedings of the 7th Brazilian Technology Symposium, BTSym 2021 - Emerging Trends in Systems Engineering Mathematics and Physical Sciences
A2 - Iano, Yuzo
A2 - Saotome, Osamu
A2 - Kemper Vásquez, Guillermo Leopoldo
A2 - Cotrim Pezzuto, Claudia
A2 - Arthur, Rangel
A2 - Gomes de Oliveira, Gabriel
PB - Springer Science and Business Media Deutschland GmbH
T2 - 7th Brazilian Technology Symposium, BTSym 2021
Y2 - 8 November 2021 through 10 November 2021
ER -