Design space exploration and decision‐making for a segmented ultralight morphing 50‐MW wind turbine

Design space exploration and decision‐making for a segmented ultralight morphing 50‐MW wind turbine

Abstract Wind turbine design encompasses many different aspects including aerodynamic, structural, electrical, and control system design. To achieve optimal plant performance, a system design approach is utilized in which the performance of the whole wind turbine is evaluated and quantified during o...

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Bibliographic Details
Main Authors: Sepideh Kianbakht, Dana Martin, Kathryn Johnson, Daniel Zalkind, Lucy Pao, Eric Loth, Juliet Simpson, Shulong Yao, Mayank Chetan, D. Todd Griffith
Format: Article
Language:English
Published: Wiley 2022-12-01
Series:Wind Energy
Subjects:
extreme scale wind turbine
LCOE
rotor aero‐structural‐control design
Segmented Ultralight Morphing Wind Turbine
wind turbine
Online Access:https://doi.org/10.1002/we.2781
Description
Summary:Abstract Wind turbine design encompasses many different aspects including aerodynamic, structural, electrical, and control system design. To achieve optimal plant performance, a system design approach is utilized in which the performance of the whole wind turbine is evaluated and quantified during operational scenarios with subsystem interactions. In this paper, the design for a Segmented Ultralight Morphing Rotor (SUMR) 50‐MW wind turbine is presented utilizing levelized cost of energy (LCOE) for design choices, with additional quantification of simulated performance shortcomings at the 50‐MW scale. The multi‐disciplinary design process results in a final ultra‐scale turbine configuration that outperforms other existing offshore wind farms regarding the LCOE.
ISSN:1095-4244
1099-1824

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