Control of Speed and Torque of Two Quadrant DC Motor Drive Using Active Buck Boost Invertor
Keywords:
DCdrive, MATLAB-Simulink invertor,PI controllerAbstract
In This Paper Wind Systems, A/S which is one of the leading manufacturers of wind turbine systems in the world. The proposal deals with DC-DC connected offshore wind system. This is a promising technical solution regarding the increasing demand of electrical power and the long distances between on- and offshore sites. The main goal is the development of steady state models of an entire wind turbine system with selected AC-DC converters between the generator output and DC-DC connection of the wind turbines. The Buck-boost with a high frequency transformer and a three phase rectifier are selected for modeling this thesis. The models are used as a basis for the simulations of the two different wind turbine systems with a wind speed ramp as input. Relying on these simulations two performance factors are investigated, torque and speed, relating to which performance of DC drive is analyzed.
References
- Quaschning, Volker. Regenerative Energiesysteme. München : Hanser, 2014.
- Lewald, Norbert. Umweltvertragliche Erzeugung elektrischer Energie - Windkraftanlagen.
- Marques, André Madeira. Design, Control, Simulation and Energy Evaluation of a DC Offshore Wind Park. Instiuto Superior Téchnico, Universidade Ténica de Lisboa : s.n., 2015.
- Lei Shuai, Ana - Irina Stan, Tiberiu Mihai Stanciu, Daniel Ioan Stroe. Variable speed wind turbine equipped with synchronous generator. Aalborg University : s.n.
- Blaabjerg, Z. Chen, R. Teodorescu, F.Iov. Power Electronics in Wind Turbine Systems. Aalborg University, Institute of Energy Technology : s.n., 2016.
- Anca D. Hansen, Lars H. Hansen. Market penetration of wind turbine concepts over the years. Force Technology, Lyngby, Denmark; Risø National Laboratory, Wind Energy Department; Roskilde, Denmark : s.n., 2014.
- Paola Bresesti, Wil L. Kling, Ralph L. Hendriks, Riccardo Vailati. HVDC Connection of Offshore Wind Farms to the Transmission System. University of Eindhoven : s.n., March 2013.
- Jorge Varela Barreras, Fernando Valderrey Sánchez. A fast method to evaluate annual energy production of different off-shore wind farm configurations connected to a VSC-HVDC line transmission including evaluation of a new variable speed wind turbine concept based on RCC-Wrig. Aalborg University, Institute of EnergyTechnology, Denmark : s.n., 2015.
- Jovcic, N. Strachan. Offshore wind farm with centralised power conversion and DC interconnection. University of Aberdeen : s.n.
- Lundberg, Stefan. Configuration studies of large wind parks. Chalmers University of Technology, Department of Electric Power Engineering, Göteborg Sweden : s.n., 2013.
- Lazaridis, Lazaros P. Economic Comparison of HVAC and HVDC Solutions for Large Offshore Wind Farms under Special Consideration of Reliability. Royal Institute of Technology, Department of Electrical Engineering, Stockholm : s.n., 2015.
- Jovcic, J.V. Milanovic. Offshore Wind Farm Based on Variable Frequency Mini-Grids with Multiterminal DC Interconncection. University of Aberdeen,Universtiy of Manchester : s.n.
- Iov, M. Ciobotaru, F. Blaabjerg. Power Electronics Control of Wind Energy in Distributed Power Systems. DK-9220 Aalborg East, Denmark : s.n.
- Dr-Ing, Leibfried Porf. Energieübertragung und Netzregelung. Universität Karlsruhe : s.n. 15Ned Mohan, Tore M. Undeland, William P. Robbins. Power electronics. USA : s.n., 2013.
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