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Diseño de un sistema de control avanzado para regular la velocidad de una turbina de vapor acoplada a un generador DC

dc.contributor.authorGonzález-Acevedo, Hernandospa
dc.contributor.authorGonzález-Acuña, Hernanspa
dc.date2018-01-01spa
dc.identifierhttp://revistas.ustabuca.edu.co/index.php/ITECKNE/article/view/1964spa
dc.identifier10.15332/iteckne.v15i1.1964spa
dc.descriptionThe paper presents the methodology for the design of two control strategies, LQG (Linear-Quadratic-Gaussian Control) and DMPC (Discrete Time Model Predictive Control), for speed control in a steam turbine coupled to separately excited DC generator. The dynamics of the system is represented by a linear model in which the model parameters are calculated using an optimization algorithm. The control strategies were implemented on a distributed control system (DCS), Delta V. The goal is to maintain the speed constant despite the variation of pressure in the steam pipeline and changes in the field resistance of the DC generator.eng
dc.descriptionEl artículo presenta la metodología para el diseño de dos estrategias de control, LQG (Linear Quadratic Gaussian Control) y DMPC (Discrete Time Model Predictive Control), para regular la velocidad de una turbina de vapor acoplada a un generador DC de excitación independiente. La dinámica del sistema es representada por un modelo lineal en el cual los parámetros del modelo se calculan a partir de un algoritmo de optimización. Las estrategias de control se implementan en el sistema de control distribuido (DCS), Delta V. El objetivo es mantener constante la velocidad ante variaciones de la presión en la tubería de vapor y modificación de la resistencia del bobinado de campo del generador DC.spa
dc.format.mimetypeapplication/pdfspa
dc.language.isospaspa
dc.publisherUniversidad Santo Tomás. Seccional Bucaramangaeng
dc.relationhttp://revistas.ustabuca.edu.co/index.php/ITECKNE/article/view/1964/1527spa
dc.relation/*ref*/Ç.L. Hubka y P. Skolnik, “Steam turbine and steam reheating simulation model”. International Conference on Process Control, Junio, 2003. DOI: 10.1109/PC.2013.6581378spa
dc.relation/*ref*/P. Jiang, L. Gao y Y. Dai, “A new non-linear model of steam turbine unit for dynamic analysis of power system”. International Conference on Power System Technology, Octubre, 2010. DOI: 10.1109/POWERCON.2010.5666735spa
dc.relation/*ref*/G. Han, L. Chen, J. Shao y Z. Sum, “Study of fuzzy PID controller for industrial steam turbine governing system”. International Symposium on Communications and Information Technology, Octubre, 2005. DOI: 10.1109/ISCIT.2005.1567100spa
dc.relation/*ref*/I. Mohamed, “Adaptation of PID controller using AI technique for speed control of isolated steam turbine”. Conference on Electronics, Communications and Computers, Marzo, 2012. DOI: 10.1109/JECECC.2012.6186962spa
dc.relation/*ref*/H. Reza y R. Mohseni, “Generalized Model Predictive Control for a Multivariable Boiler- Turbine Unit”. 11th International Conference on Control, Automation and Systems, Octubre, 2011. ISSN: 2093-7121.spa
dc.relation/*ref*/M. Kordestani, M. Soleimani y A. Mirzaee, “Predictive control of large steam turbines”. 9th Asian Control Conference, Junio, 2013. DOI: 10.1109/ASCC.2013.6606366spa
dc.relation/*ref*/B. Codrons, “LQG control of steam temperature in power plants”. European Control Conference, Septiembre, 2003. Print ISBN: 978-3-9524173-7-9.spa
dc.relation/*ref*/M. Dulau y D. Bica, “Mathematical modelling and simulation of the behavior of the steam turbine”. 7th International Conference Interdisciplinarity in Engineering, Octubre, 2013. DOI: 10.1016/j.protcy.2013.12.555spa
dc.relation/*ref*/S. Chapman, Máquinas Eléctricas. McGraw Hill. ISBN 958-600-125-3, Segunda edición, pp. 283-290, 1993.spa
dc.relation/*ref*/K. Ogata, Sistemas de control en tiempo discreto. Ed. Pearson Educacion. ISBN 0-13-034281-5, pp. 596-609, 1995.spa
dc.relation/*ref*/R. Burns, Advanced Control Engineering. Ed. Butterworth Heinemann. ISBN 0750651008, pp. 288-299, 2001.spa
dc.relation/*ref*/X. Lan Li, J. Gyu y H. Shin, “Comparison and evaluation of anti-windup PI Controllers”. Journal of Power Electronics, vol. 11 no. 1, Enero, 2011.spa
dc.relation/*ref*/L. Wang, Model Predictive Control System Design and Implementation Using MATLAB. ISBN 978-84882-330-3, pp. 85-142, 2009.spa
dc.rightsCopyright (c) 2018 ITECKNEeng
dc.sourceITECKNE; Vol 15, No 1 (2018); 51-62spa
dc.sourceITECKNE; Vol 15, No 1 (2018); 51-62eng
dc.source2339-3483spa
dc.source1692-1798spa
dc.titleAdvanced controller design for speed control in a steam turbine coupled to DC generatoreng
dc.titleDiseño de un sistema de control avanzado para regular la velocidad de una turbina de vapor acoplada a un generador DCspa
dc.typeinfo:eu-repo/semantics/articlespa
dc.typeinfo:eu-repo/semantics/publishedVersionspa
dc.subject.proposalTurbina de vapor; generador DC; control LQG; control DMPCspa
dc.subject.proposalSteam turbine; DC generator; LQG control; DMPC controleng


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