Artículos
Publicado 2008-05-09
Palabras clave
- Turbina eólica,
- modelo del viento,
- sistema mecánico,
- generador DFIG,
- Control por orientación del flujo del estator
- control ángulo de paso ...Más
Cómo citar
González Acevedo, H., & Vargas Torres, H. R. (2008). Control de una turbina eólica de velocidad variable conectada a la red eléctrica. Revista UIS Ingenierías, 7(1), 9–21. Recuperado a partir de https://revistas.uis.edu.co/index.php/revistauisingenierias/article/view/391
Resumen
Este artículo presenta la descripción de un sistema de generación eólica compuesto por un generador de inducción doblemente alimentado (DFIG), además del modelo dinámico de cada uno de los subsistemas que la conforman. Se propone una estrategia de control clásica para regular la potencia activa y reactiva suministrada por el generador, y un sistema de control por ángulo de paso para regular la velocidad de la turbina.
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Referencias
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Carvalho Rosas, Pedro André. Dynamic Influences of Wind Power on The Power System. Ph.D. Thesis. Technical University of Denmark, March 2003.
Iov, Florin. Contributions to Modelling, Analysis and Simulation of Ac Drive Systems. Application to Large Wind Turbines. Ph.D. Thesis. Dunarea de Jos University- Galati. 2003.
Vidal, Paul Etienne. Pietrzak Maria.Stator Flux Oriented Control of a Doubly Fed Induction Machine. Laboratoire d’Electrotechnique et d’Electronique Industrielle, Unité mixte de recherché INPT-ENSEEIHT/CNRS. 2003.
Petersson, Andreas. Harnefors, Lennart. Thiringer, Torbjorn. Comparison Between Stator Flux and Grid Flux Oriented Rotor Current Control of Doubly Fed Induction Generators. IEEE Power Electronics Specialists conference. 2004.
Jeong-Ik Jang. Young Sin Kim. Dong Choon Lee. Active and Reactive Power Control of DFIG for Wind Energy Conversion Under Unbalanced Grid Voltaje. Dept. Of Electrical. Eng. Yeungnam Univ. 2006.
Bonnet, F. Vidal, P.E. Pietrzak-David, M. Direct Torque Control of Doubly Fed Induction Machine. Bulletin of the Polish Academy of Sciences. 2006.
Rocha, Ronilson. Martins Filho, Luis Siqueira. A multivariable H∞ control for wind energy conversion system. Departmente of control and Automation. Depatment of Computation Campus Morro do Cruzeiro. IEEE 2003.
Kathryn E. Johnson, Lucy Y. Pao, Mark J. Balas, Lee J. Fingersh. Control of variable speed wind turbines, standard and adaptive techniques for maximizing energy capture. IEEE Control Systems Magazine. 2006.
Sun Yaojie, Kang Longyun, Shi Weixiang, Cao Binggang, Yang Zhongying. Robust Sliding Mode Control of Variable Speed Wind Power System. IEEE 2004.
Siegfried. Heier. Grid Integration Of Wind Energy Conversion Systems. John Wiley and Sons. 1999. ISBN
0-471-97143-X.
Vas, Peter. Vector Control of AC Machines. Clarendon Press OXFORD. 1994.
Ledesma, Pablo. Análisis Dinámico de Sistemas Eléctricos con Generación Eólica. Departamento de Ingeniería Eléctrica. Universidad Carlos III de Madrid. 2001.
Carvalho Rosas, Pedro André. Dynamic Influences of Wind Power on The Power System. Ph.D. Thesis. Technical University of Denmark, March 2003.
Iov, Florin. Contributions to Modelling, Analysis and Simulation of Ac Drive Systems. Application to Large Wind Turbines. Ph.D. Thesis. Dunarea de Jos University- Galati. 2003.
Vidal, Paul Etienne. Pietrzak Maria.Stator Flux Oriented Control of a Doubly Fed Induction Machine. Laboratoire d’Electrotechnique et d’Electronique Industrielle, Unité mixte de recherché INPT-ENSEEIHT/CNRS. 2003.
Petersson, Andreas. Harnefors, Lennart. Thiringer, Torbjorn. Comparison Between Stator Flux and Grid Flux Oriented Rotor Current Control of Doubly Fed Induction Generators. IEEE Power Electronics Specialists conference. 2004.
Jeong-Ik Jang. Young Sin Kim. Dong Choon Lee. Active and Reactive Power Control of DFIG for Wind Energy Conversion Under Unbalanced Grid Voltaje. Dept. Of Electrical. Eng. Yeungnam Univ. 2006.
Bonnet, F. Vidal, P.E. Pietrzak-David, M. Direct Torque Control of Doubly Fed Induction Machine. Bulletin of the Polish Academy of Sciences. 2006.
Rocha, Ronilson. Martins Filho, Luis Siqueira. A multivariable H∞ control for wind energy conversion system. Departmente of control and Automation. Depatment of Computation Campus Morro do Cruzeiro. IEEE 2003.
Kathryn E. Johnson, Lucy Y. Pao, Mark J. Balas, Lee J. Fingersh. Control of variable speed wind turbines, standard and adaptive techniques for maximizing energy capture. IEEE Control Systems Magazine. 2006.
Sun Yaojie, Kang Longyun, Shi Weixiang, Cao Binggang, Yang Zhongying. Robust Sliding Mode Control of Variable Speed Wind Power System. IEEE 2004.
Siegfried. Heier. Grid Integration Of Wind Energy Conversion Systems. John Wiley and Sons. 1999. ISBN
0-471-97143-X.
Vas, Peter. Vector Control of AC Machines. Clarendon Press OXFORD. 1994.