About 2MW wind power generation principle
GE Vernova’s 2 MW wind turbine platform is a three-blade, upwind, horizontal axis wind turbine with a rotor diameter of either 116, 127 or 132 meters, operates at a variable speed, and uses a doubly fed induction generator (DFIG) with a partial power converter system.
GE Vernova’s 2 MW wind turbine platform is a three-blade, upwind, horizontal axis wind turbine with a rotor diameter of either 116, 127 or 132 meters, operates at a variable speed, and uses a doubly fed induction generator (DFIG) with a partial power converter system.
This demonstration shows a 2 MW wind power system with a doubly-fed induction generator (DFIG), where the interaction between the electrical circuit and the mechanical drivetrain during normal oper-ation, as well as fault conditions, are investigated. The PLECS thermal and magnetic physical domains are integrated into the model as well.
GE’s 2 MW Platform is a three-blade, upwind, horizontal axis wind turbine with a rotor diameter of either 116 or 127-meters. The turbine rotor and nacelle are mounted on top of a tubular steel tower. The 2 MW-127 is offered at an 89-meter hub height, and the 2 MW-116 is offered at 80-meter, 90-meter, and 94-meter hub heights.
Dynamic Model of a Doubly Fed Induction Generator. To develop decoupled control of active and reactive power, a DFIG dynamic model is needed. The construction of a DFIG is similar to a wound rotor induc-tion machine (IM) and comprises a three-phase stator winding and a three-phase rotor winding.
In addition to an operating range, an installed turbine has a capacity factor that reflects its actual power generation. The capacity factor is the annual average of power generated divided by the rated peak power. For example, if a turbine rated at 5 MW produces power at an average of 2 MW, then its capacity factor is 40 percent.
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About 2MW wind power generation principle video introduction
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