Artículos de revistas
Decoupled Power Control For Doubly-fed Induction Generator Using Sliding-mode Control [rozsprze{ogonek}żone Sterowanie Moca{ogonek} W Generatorze Dfig Przy Wykorzystaniu Metody ślizgowej]
Registro en:
Przeglad Elektrotechniczny. , v. 89, n. 8, p. 100 - 105, 2013.
332097
2-s2.0-84883611373
Autor
Jacomini R.V.
Trindade F.S.
Filho A.J.S.
Ruppert E.
Institución
Resumen
This paper proposes a decoupled control of active and reactive power for doubly-fed induction generators (DFIG) through the rotor currents using sliding mode control (SMC). In order to decouple the active and reactive power generated, stator-flux-oriented vector control is applied. The sliding mode control strategy proposes is based on two sliding modes plus PI controllers whose main advantage is the easy implementation. Simulation and experimental results are presented to validate the proposed control scheme for a 2 kW DFIG during stator active and reactive power steps and speed variation. During transient operation it is checked good dynamic response. 89 8 100 105 Abad, G., López, J., Rodríguez, M., Marroyo, L., Rodríguez, M., Iwanski, G., (2011) Doubly Fed Induction Machine: Modeling and Control for Wind Energy Generation Applications, pp. 414-421. , John Wiley & Sons Baroudi, J.A., Dinavahi, V., Knight, A.M., (2007) A review of power converter topologies for wind generators, 32, pp. 2369-2385. , Renewable Energy Netto, A.J., Barros, P.R., Jacobina, C.B., Lima, A.M.N., da Silva, E.R.C., Indirect field-oriented control of an induction motor by using closed-loop identification (2005) Industry Applications Conference, 2, pp. 1357-1362. , 2005. Fourtieth IAS Annual Meeting. Oct Tapia, A., Tapia, G., Ostolaza, J.X., Saenz, J.R., Modeling and control of a wind turbine driven doubly fed induction generator (2003) IEEE Transactions on Energy Conversion, 18, pp. 194-204. , N0. 2, Jun Shen, B., Ooi, B.-T., Novel Sensorless Decoupled P-Q Control of Doubly-Fed Induction Generator(DFIG) Based on Phase Locking to Gamma-Delta Frame (2005) Power Electronics Specialists Conference, pp. 2670-2675. , 2005. PESC '05. IEEE 36th, Jun Chowdhury, B.H., Chellapilla, S., Double-fed induction generation control for variable speed wind power generation (2006) Electric Power System Research, (76), pp. 786-800 Jacomini, R.V., França, A., Bim, E., Simulation and Experimental Studies on Double-fed Induction Generator Power Control Operating at Subsynchronous Operation Speed (2009) The Eighth International Conference on Power Electronics and Drive Systems, (2-5). , Taipei, Taiwan, R.O. C Lima, F.K.A., Luna, A., Rodriguez, P., Watanabe, E.H., Blaabjerg, F., Rotor Voltage Dynamics in the Doubly Fed Induction Generator During Grid Faults (2010) IEEE Trans. on Power Electronics, 25 (1), pp. 118-130 Flores Mendes, V., de Sousa, C.V., Silva Rocha, S., Cezar Rabelo, B., Hofmann, W., Modeling and Ride-Through Control of Doubly Fed Induction Generators During Symmetrical Voltage Sags (2011) IEEE Transactions on Energy Conversion, 26 (4), pp. 1161-1171 Edwards, C., Spurgeon, S.K., Sliding Mode Control: Theory And Applications (1998) Taylor & Francis systems and control book series Naouar, W., Monmasson, E., Naassani, A., Slama-Belkhodja, I., FPGA-Based Dynamic Reconfiguration of Sliding Mode Current Controllers for Synchronous Machines (2012) IEEE Transactions on Industrial Informatics, (99) Rashid, M., (2004) Power electronics circuits, devices and aplications, , Pretince Hall Chen, S.Z., Cheung, N.C., Wong, K.C., Wu, J., Integral variable structure direct torque control of doubly fed induction generator (2011) Renewable Power Generation, 5, pp. 18-25. , IET, N0. 1, Jan Lascu, C., Boldea, I., Blaabjerg, F., Direct torque control of sensorless induction motor drives: A sliding-mode approach (2004) IEEE Transactions on Industry Applications, 40 (2), pp. 582-590. , march-april Hu, J., Nian, H., Hu, B., He, Y., Zhu, Z.Q., Direct Active and Reactive Power Regulation of DFIG Using Sliding-Mode Control Approach (2010) IEEE Transactions on Energy Conversion, 25, pp. 1028-1039. , N0. 4, Dec Jeong, H.G., Kim, W.S., Lee, K.B., Jeong, B.C., Song, S.H., A sliding-mode approach to control the active and reactive powers for A DFIG in wind turbines (2008) IPower Electronics Specialists Conference, pp. 120-125. , 2008. PESC 2008. IEEE, june Zheng, X., Li, W., Wang, W., High-order sliding mode controller for no-load cutting-in control in DFIG wind power system (2010) Systems and Control in Aeronautics and Astronautics (ISSCAA), 2010 3rd International Symposium, pp. 1304-1308. , on, june da Costa, J.P., Pinheiro, H., Degner, T., Arnold, G., Robust Controller for DFIGs of Grid-Connected Wind Turbines (2011) IEEE Transactions on Industrial Eletronics, 58 (9), pp. 4023-4038 Sguarezi Filho, A.J., de oliveira Filho, M.E., Ruppert, E., A predictive power control for wind energy (2011) IEEE Transactions on Sustainable Energy, 2, pp. 97-105 Lazarini, M.V., Ruppert Filho, E., Induction motor control didactic set-up using sensorless and sliding mode dtc strategy (2008) Eletrônica de Potência, 13 (4), pp. 291-299 Leonhard, W., (1985) Control of Electrical Drives, , Springer-Verlag Berlin Heidelberg New York Tokyo