Cooperation self-excited induction generator SEIG from the power
Keywords:
self-excited induction generator, instantaneous power, shunt converter, prediction, discrete control, grid converter, network couplersAbstract
The article presents the control of the self-excited induction generator in terms of cooperation with the mains. This made it possible to extend the scope of the system. The proposed system is characterized by very high flexibility of powering receivers as well as the possibility of reselling the produced energy to the grid. The direction of flow of energy to the proposed arrangement can be reversed. This condition occurs in case of shortage of energy produced by the generator SEIG (small wind strength, low water level, high energy requirements). The ability to change the direction of energy flow is ensured by a bilateral converter AC/DC/AC used in the proposed solution. The grid inverter is coupled to the network through an LCL filter. This solution provides a sinusoidal current flow in both directions: power supply and the grid. In the case of complete processing of the power of generator without the cooperation with the grid, the system operates in standalone mode or uninterruptible power supply mode.References
Barrado, J.A., Griñó, R., Valderrama-Blavi, H., 2010, Power-Quality Improvement of a Stand-Alone Induction Generator Using a STATCOM with Battery Energy Storage System, IEEE Transactions on Power Delivery, vol. 25, no. 4.
[2] Bašić, M., Vukadinović, D., Lukač D., 2011, Novel Dynamic Model of Self-Excited Induction Generator with Iron Losses, International Journal of Mathematical Models and Methods in Applied Sciences, no. 5(2).
[3] Palle, B., Simões, M.G., Farret, F.A., 2005, Dynamic Simulation and Analysis of Parallel Self-Excited Induction Generators for Islanded Wind Farm Systems, IEEE Transactions on Industry Applications, vol. 41, no. 4.
[4] Revanth, B., Ramesh, M., Jenish, P., 2013, Simulation of Isolated Wind-Hydro Hybrid System Using Cage Generator and Battery Storage, International Journal of Environmental Science: Development and Monitoring (IJESDM), vol. 4, no. 2.
[5] Seyoum, D., 2003, The Dynamic Analysis and Control of a Self-Excited Induction Generator Driven by a Wind Turbine, The University of New South Wales, School of Electrical Engineering and Telecommunications, Ph. Thesis.
[6] Sikorski, A., Kuźma, A., 2009, Cooperation of Induction Squirrel-Cage Generator with Grid Connected AC/DC/AC Converter, Bulletin of the Polish Academy of Sciences Technical Sciences, vol. 57, no. 4.
[7] Thomsen, B., Guerrero, J., Thøgersen, P., 2014, Faroe Islands Wind-Powered Space Heating Generator Microgrid Using Self-Excited 220 kW Induction Generator, IEEE Transactions on Sustainable Energy, vol. 5, no. 4.
[8] Thongam, J.S., Beguenane, R., Okou, A.F., Tarbouchi, M., Merabet, A., Bouchard, P., 2012, A Method of Tracking Maximum Power Points in Variable Speed Wind Energy Conversion Systems, International Symposium on Power Electronics, Electrical Drives, Automation and Motion, Sorrento, Italy.
[9] Trapp, J.G., Farret, F.A., Fernandes, F.T., Correa, L.C., Wechenfelder, C.M., 2012, Variable Speed Wind Turbine Using the Squirrel Cage Induction Generator with Reduced Converter Power Rating for Stand-Alone Energy Systems, Industry Applications (INDUSCON), 10th IEEE/IAS International Conference.
[10] Wojciechowski D., 2010, Układ sterowania równoległym filtrem aktywnym ze sprzęgającym obwodem LCL, „Przegląd Elektrotechniczny”, nr 2.
Remove [1] Barrado, J.A., Griñó, R., Valderrama-Blavi, H., 2010, Power-Quality Improvement of a Stand-Alone Induction Generator Using a STATCOM with Battery Energy Storage System, IEEE Transactions on Power Delivery, vol. 25, no. 4.
[2] Bašić, M., Vukadinović, D., Lukač D., 2011, Novel Dynamic Model of Self-Excited Induction Generator with Iron Losses, International Journal of Mathematical Models and Methods in Applied Sciences, no. 5(2).
[3] Palle, B., Simões, M.G., Farret, F.A., 2005, Dynamic Simulation and Analysis of Parallel Self-Excited Induction Generators for Islanded Wind Farm Systems, IEEE Transactions on Industry Applications, vol. 41, no. 4.
[4] Revanth, B., Ramesh, M., Jenish, P., 2013, Simulation of Isolated Wind-Hydro Hybrid System Using Cage Generator and Battery Storage, International Journal of Environmental Science: Development and Monitoring (IJESDM), vol. 4, no. 2.
[5] Seyoum, D., 2003, The Dynamic Analysis and Control of a Self-Excited Induction Generator Driven by a Wind Turbine, The University of New South Wales, School of Electrical Engineering and Telecommunications, Ph. Thesis.
[6] Sikorski, A., Kuźma, A., 2009, Cooperation of Induction Squirrel-Cage Generator with Grid Connected AC/DC/AC Converter, Bulletin of the Polish Academy of Sciences Technical Sciences, vol. 57, no. 4.
[7] Thomsen, B., Guerrero, J., Thøgersen, P., 2014, Faroe Islands Wind-Powered Space Heating Generator Microgrid Using Self-Excited 220 kW Induction Generator, IEEE Transactions on Sustainable Energy, vol. 5, no. 4.
[8] Thongam, J.S., Beguenane, R., Okou, A.F., Tarbouchi, M., Merabet, A., Bouchard, P., 2012, A Method of Tracking Maximum Power Points in Variable Speed Wind Energy Conversion Systems, International Symposium on Power Electronics, Electrical Drives, Automation and Motion, Sorrento, Italy.
[9] Trapp, J.G., Farret, F.A., Fernandes, F.T., Correa, L.C., Wechenfelder, C.M., 2012, Variable Speed Wind Turbine Using the Squirrel Cage Induction Generator with Reduced Converter Power Rating for Stand-Alone Energy Systems, Industry Applications (INDUSCON), 10th IEEE/IAS International Conference.
[10] Wojciechowski D., 2010, Układ sterowania równoległym filtrem aktywnym ze sprzęgającym obwodem LCL, „Przegląd Elektrotechniczny”, nr 2.
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