Return to search

Estudos de controle na perfura??o de po?os de petr?leo em presen?a de Kick de g?s / Control study on oil well drilling under presente of gas kick

Submitted by Sandra Pereira (srpereira@ufrrj.br) on 2017-04-20T13:29:23Z
No. of bitstreams: 1
2016 - Rafael Veloso Patr?cio.pdf: 9711857 bytes, checksum: 5f7e5b198769c9a633040fd42126df03 (MD5) / Made available in DSpace on 2017-04-20T13:29:23Z (GMT). No. of bitstreams: 1
2016 - Rafael Veloso Patr?cio.pdf: 9711857 bytes, checksum: 5f7e5b198769c9a633040fd42126df03 (MD5)
Previous issue date: 2016-08-24 / Funda??o de Apoio a Pesquisa Cient?fica e Tecnol?gica da UFRRJ-FAPUR / Controling of downhole pressure is essential for a safety process of oil well drilling. In a permeable formation, fluids from reservoir come into the annulus region (wellbore) when the downhole pressure is below pore pressure, featuring a disorder called kick. Literature reports some mathematical models developed to predict the behavior of the wellbore in presence of gas kick, however, there are few works reporting control and experiments. By this reason, it was built an experimental plant in order to study system?s behavior during fluid inlet (gas) from reservoir to annulus, and then, sought to develop a control strategy able to mitigate this disorder, without shut-in the well. A strategy with reconfiguration of the control law feedback?feedforward was designed to reject disturbance (gas inlet in the annular), to ensure the drilling within the operating window. Parallelly,simulation studies were developed which are: the construction of mathematical model, validated by the employment of the experimental unit, and the implementation of control based on reconfiguration of control law. / O controle da press?o anular de fundo ? fundamental para que a perfura??o de po?os de petr?leo seja feita de forma segura. Em uma forma??o perme?vel, fluidos do reservat?rio migram para a regi?o anular quando a press?o anular de fundo est? abaixo da press?o de poros, caracterizando o dist?rbio denominado kick. A literatura reporta alguns modelos matem?ticos desenvolvidos para prever o comportamento do po?o na presen?a de kick de g?s, por?m poucos s?o os trabalhos abordando controle e experimentos. A partir desta motiva??o, foi constru?do uma planta experimental para estudar o comportamento do sistema durante a entrada de fluido (g?s) do reservat?rio no anular, e assim, buscou-se desenvolver uma estrat?gia de controle que mitigue tal dist?rbio sem a necessidade do fechamento total do po?o. Uma estrat?gia com reconfigura??o da lei de controle feedback?feedforward foi desenvolvida para rejeitar a perturba??o (entrada de g?s no anular), visando assegurar a perfura??o dentro da janela operacional. Paralelamente, foram desenvolvidos estudos de simula??o quais sejam: a constru??o de um modelo matem?tico, validado empregando-se a unidade experimental, e a implanta??o de controle baseado em reconfigura??o da lei de controle

Identiferoai:union.ndltd.org:IBICT/oai:localhost:jspui/1543
Date24 August 2016
CreatorsPatr?cio, Rafael Veloso
ContributorsDomiciano, M?rcia peixoto Vega, Lage, Antonio Carlos Vieira Martins, Secchi, Argimiro Resende
PublisherUniversidade Federal Rural do Rio de Janeiro, Programa de P?s-Gradua??o em Qu?mica, UFRRJ, Brasil, Instituto de Tecnologia
Source SetsIBICT Brazilian ETDs
LanguagePortuguese
Detected LanguageEnglish
Typeinfo:eu-repo/semantics/publishedVersion, info:eu-repo/semantics/masterThesis
Formatapplication/pdf
Sourcereponame:Biblioteca Digital de Teses e Dissertações da UFRRJ, instname:Universidade Federal Rural do Rio de Janeiro, instacron:UFRRJ
Rightsinfo:eu-repo/semantics/openAccess
Relation6 REFER?NCIAS BIBLIOGRAFICAS AHMED, M. A.; HEGAB, O. A.; SABRY, a., Early detection enhancement of the kick and near-balance drilling using mud logging warning sign, Egyptian Journal of Basic and Applied Sciences, doi: 10.1016/j.ejbas.2015.09.006, 2015. ANP, Ag?ncia Nacional do Petr?leo, G?s Natural e Biocombust?veis: Boletim Mensal do G?s Natural, 2011. Dispon?vel em: <www.anp.gov.br> Acesso em: 23/08/2015 19:23. AVELAR, C. S.; RIBEIRO, P. R.; SEPEHRNOORI, K., Deepwater gas kick simuation, J. of Petroleum Science and Engineering, v. 67, p. 13-22, 2009. BUTCHER, J.C., The numerical analysis of ordinary differential equations: RungeKutta and general linear methods. Wiley-Interscience, New York, NY, USA, 1987. CALADO, T. C.; CARVALHO NETO, H. S.; SOTOMAYOR, O. A. Z., MPC baseado em M?ltiplos Modelos Lineares para Controle de Po?os em Opera??es de Perfura??o com Press?o Controlada, 6? Congresso Brasileiro de Pesquisa e Desenvolvimento em Petr?leo e G?s (PDPETRO), 2011. CARLSEN, L. A.; NYGAARD, G.; NIKOLAOU, M., Evaluation of control methods for drilling operations with unexpected gas influx, J. of Process Control, v. 23, p. 306?316, 2013. COHEN, G.H.; COON, G.A., Theoretical considerations of retarded control, Transactions of the ASME, p. 827-834, 1953. DUTRA, J. C. S. Controle de processos baseado em esquemas de reconfigura??o, Tese Doutorado, UFRJ/COPPE, Rio de Janeiro, 2012. 102 FENG, J; FU, J; CHEN, P; LIU, Z; WEI, H, Predicting pressure behavior during dynamic kill drilling with a two-phase flow, J. of Natural G?s Science and Engineering, v. 22, p. 591-597, 2015. FREITAS, M. G., Controle da press?o anular de fundo durante a perfura??o de po?os de petr?leo, Disserta??o de Mestrado, Programa de P?s-Gradua??o em Engenharia Qu?mica/ UFRRJ, Serop?dica, 2013. FU, J; SU, Y.; JIANG, W.; XU, L., Development and testing of kick detection system at mud line in deepwater drilling, J. of Petroleum Sci. and Eng., V. 135, p. 452-460, 2015. GALVES, L. V. Impact of gas solubility on kick detection in n-paraffin, ENAHPE, Teres?polis, 2013. GHAURI, A. A., Use of the AUSMV scheme for simulation of gas migration, bullheading and Pressurized Mud Cap Drilling, Disserta??o de Mestrado, Faculdade de Ci?ncia e Tecnologia, University of Stavanger, 2014. GODHAVN, J. M.; PAVLOV, A.; KAASA, G. O.; ROLLAND, N. L., Drilling seeking automatic control solutions, 18th IFAC World Congress, Milano, 2011. GRACE, R. D., Blowout and Well Control Handbook, Elsevier Science, 2003. HAUGE, E.; AAMO, O. M.; GODHAVN, J. M.; NYGAARD, G.. A novel model based scheme for kick and loss mitigation during drilling. J. of Process Control, v. 23, pg. 463-472, 2013. JUNIOR, J. A. R.; LACHTER E. R.; NASCIMENTO R. S. V., Novos aditivos polim?ricos multifuncionais para fluidos de base aquosa a serem utilizados na perfura??o de po?os de grande afastamento horizontal em ?guas ultraprofundas, Boletim t?cnico da Produ??o de Petr?leo, v. 2, Rio de Janeiro, 2007. 103 KAASA, O-G. A Simple Dynamic Modelo of Drilling for Control. Technical Report. StatoilHydro Reserch Centre Porsgrunn, 2007. LAGE, A. C. V. M. Two-Phase Flow Models and Experiments for Low-Head and Underbalanced Drilling. Tese doutorado, Stavanger University College, 2000. LIMA, H. Controle de po?o submarino, Maca?, wellcap/iadc, 2006. LUYBEN, W. L., Process modeling, simulation and control for chemical engineers, 2? ed, McGraw-Hill, 1996. McCANN, R. C.; ISLAS, C. G., Frictional pressure loss during turbulent flow in coiled tubing, SPE, 36345, 2006. MENG, Y.; XU, C.; WEI, N.; LI, G.; LI, H.; DUAN, M., Numerical simulation and experiment of the annular pressure variation caused by gas kick/injection in wells, J of Natural Gas Science and Engineering, v. 22, p. 646-655, 2015. MILLERO, F. J.; HUANG, F., The compressibility of seawater from 0 to 95 ?C at 1 atm, Marine Chemistry, v.126, p. 149-154, 2011. MITCHELL, R. F., MISKA, S. Z., Fundamentals of drilling engineering, SPE Text Book Series, No. 12, 2011. NAYEEM, A. A.; VENKATESAN R.; KHAN, F., Monitoring of down-hole parameters for early kick detection, Journal of Loss Prevention in the Process Industries, v. 40, p. 43-54, 2016 NYGAARD, G.; NAEVDAL, G., Nonlinear model predictive control scheme for stabilizing annulus pressure during oil well drilling, J. of Process Control, v. 16, p. 719-732, 2006. OGATA, K., Modern control engineer, 5? ed., Prentice Hall, Minessota, 2009. 104 OLIVEIRA, G. E.; GALDINO, J. F.; FRANCO, A. T.; NEGR?O, C. O. R.; MARTINS, A. L., Pressure propagation in drilling fluids during a kick of gas, ENAHPE, Teres?polis, 2013. OMEL. Rot?metros. 2016. Dispon?vel em: <http://www.omel.com.br/nossos-produtos/rotametros/>. Acesso em: 08/06/2016. PLANETFORLIFE, How to Control a Deepwater Oil well. 2010. Dispon?vel em: <www.planetforlife.com/dwphysics/control.html>. Acesso em: 07/04/2016. REID, R. C., PRAUSNITZ, J. M., POLING, B. E., The properties of gases and liquids, 4? ed., McGraw-Hill, 2000. ROCHA, L. A. S.; AZEVEDO, C. T., Projeto de po?os de petr?leo: Geopress?es e Assentamento de Colunas de Revestimento, 2? ed., Interci?ncia, Rio de Janeiro, 2009. RUSSANO, E., Controle de perda de circula??o durante a perfura??o de po?os de petr?leo. Disserta??o de Mestrado Programa de P?s-Gradua??o em Engenharia Qu?mica/ UFRRJ. Serop?dica, 2014. SANTOS, O. L. A., Seguran?a de po?o na perfura??o, Edgar Bl?cher, S?o Paulo, 2014. SAVITZKY, A.; GOLAY, M. J. E., Smoothing and Differentiation of Data by Simplified Least Squares Procedures, Anal. Chem., v. 36, p. 1627-1639, 1964. SEBORG, D., E.; EDGAR, T., F.; MELLICHAMP, D., A.; DOYLE, F., J., Process, dynamics and control, 3? ed., Wiley, 2011. SIRINIVASAN, R.; QIAN, M. S., Online fault diagnosis and state identification during process transitions using dynamics locus analysis, Chemical engineering science, v. 61, p. 6109-6132, 2006. 105 SRINIVASAN, P. S.; NANDAPURKAR, F. A.; HOLLAND, F. A., Friction Factors for Coils, Trans. Instn. Chem. Engrs., v. 48, p. Tl56-Tl61, 1970. STAMNES, ?. N.; ZHOU, J.; KAASA, G. O.; AAMO, O. M.. Adaptative Observer Design for the Bottonhole Pressure of a Managed Pressure Drilling System. 47?IEEE Conference on Decision and Control, pg. 2961-2966, 2008. STEFFEN, T. Control Reconfiguration of Dynamical Systems, Springer, 2005. STEPHANOPOULOS, G. Chemical Process Control, Prentice Hall, Englewood Cliffs, 1984. SUNDARESAN, K. R.; KRISHNASWANY P. R., Estimation of time delay time constant parameters in time, frequency, and Laplace domains, J. Chem. Eng., v. 56, 1977. TELAS, F. A., Operador de sonda de perfura??o: Controle de po?os, Prominp, Petrobras, Mossoro, 2008. THOMAS, J. E., Fundamentos de Engenharia de Petr?leo, 2? ed., Interci?ncia, 2004 SCHWARTZ, J., Marking 4 years since the BP Deepwater Horizon blowouts, 2014. Dispon?vel em: <greenpeaceblogs.org/2014/04/19/marking-4-years-since-bp-deepwater-horizon-blowout/>. Acesso em: 07/04/2016. VAJARGAH, A. K.; van OORT, E., Early kick detection and well control decision making for managed pressure drilling automation, J. of Natural Gas Science and Engineering, v. 27, p. 354e366, 2015. VALDMAN, B.; FOLLY, R.; SALGADO, A., Din?mica, controle e instrumenta??o de processos, UFRJ, Rio de janeiro, 2008. VIEIRA, F. R. B., Controle da press?o anular de fundo durante a perfura??o de po?os de petr?leo - rejei??o de perturba??o: kick de l?quido. Disserta??o de 106 Mestrado. Programa de P?s-Gradua??o em Engenharia Qu?mica/ UFRRJ. Serop?dica, 2009. WALDMANN, A.; ANDRADE, A.R.; MARTINS A.L.; LOMBA, R.F.T.; ARAG?O, A.F.L, Sobre os mecanismos respons?veis por minimizar a invas?o do fluido de perfura??o na rocha reservat?rio, ENAHPE, Pedra Azul, 2006. WANG, Z.; SUN, B., Deepwater gas kick simulation with consideration of the gas hydrate phase transition, J. of Hydrodynamics, v. 26, p. 94-103, 2014. WATSON, J. Kick Theory, 2015. Dispon?vel em: <www.drillinghandbook.com/category/kick-theory/> Acesso em:25/02/2016. WENJUN, S.; SHIXIAN, T.; FAN, F.; WEIMIN, Y.; ZHITAO, Z.. Research on the Drilling Fluid Technology for High Temperature over 240oC. Procedia Engineering, v. 73, 2014. ZAKHAROVA, A.; ZATTONI E.; YUA, M.; J?MS?-JOUNELAA, S., A performance optimization algorithm for controller reconfiguration in fault tolerant distributed model predictive control, J. of Process Control, v. 34, p. 56?69, 2015. ZHANG, Y.; JIANG, J., Bibliografical review on reconfigurable fault-tolerant control systems, Annual reviews in control, v. 32, p. 229-252, 2008. ZHOU, J.; NYGAARD, G., Automatic model-based control scheme for stabilizing pressure during dual-gradient drilling, J of Process Control, v. 21, p. 1138?1147, 2011. ZHOU, J.; STAMNES, ?. N.; AAMO, O. M; KAASA, G., Switched Control for Pressure Regulation and Kick Attenuation in a Managed Pressure Drilling System, IEEE Transactions on control systems technology, v. 19, n. 2, 2011. ZIEGLER, J. G. NICHOLS, N. B. Optimum Settings for Automatic Controllers. Transactions of the A.S.M.E., V. 64, p. 759-768, 1942.

Page generated in 0.0049 seconds