Abstract
This paper reports on the design and testing results from the U.S. Department of Energy Next-Generation Wind Turbine Drivetrain Project. The drivetrain design reduces the cost of energy by increasing energy capture through drivetrain efficiency improvements; by reducing operation and maintenance costs through reducing gearbox failures; and by lowering capital costs through weight reduction and a series of mechanical and electronic innovations. The paper provides an overview of the drivetrain gearbox and generator and provides a deeper look into the power converter system. The power converter has a number of innovations including the use of hybrid silicon (Si)/silicon carbide (SiC) isolated baseplate switching modules. Switching energies are compared between SiC and Si PIN diodes. The efficiency improvement by use of the SiC diode in a three-level converter is also described. Finally, a brief discussion covering utility interconnect requirements for turbines is provided with a particular focus on utility events that lead to high transient torque loads on drivetrain mechanical elements.
Original language | American English |
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Number of pages | 10 |
State | Published - 2016 |
Event | IEEE Energy Conversion Congress and Exposition - Milwaukee, Wisconsin Duration: 18 Sep 2016 → 22 Sep 2016 |
Conference
Conference | IEEE Energy Conversion Congress and Exposition |
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City | Milwaukee, Wisconsin |
Period | 18/09/16 → 22/09/16 |
NREL Publication Number
- NREL/CP-5000-66562
Keywords
- asynchronous generation
- converter efficiency
- cost-of-energy
- drivetrain
- FERC 661
- frequency support
- inverter efficiency
- LVRT
- medium voltage inverter
- negative sequence
- NERC utility interconnect
- neutral point clamp NPC
- permanent magnet generator
- SiC
- silicon carbide
- Silicon PIN diode
- wind energy