Preliminary design and optimization of a 20MW reference wind turbine

L. Sartori; F. Bellini; A. Croce; C. L. Bottasso

doi:10.1088/1742-6596/1037/4/042003

Preliminary design and optimization of a 20MW reference wind turbine

L. Sartori, F. Bellini, A. Croce, C. L. Bottasso

Chair of Wind Energy

Politecnico di Milano

Research output: Contribution to journal › Conference article › peer-review

26 Scopus citations

Abstract

We use the capabilities of a multi-disciplinary design tool to provide a definition of a 20 MW wind turbine. Starting from an aero-elastic model obtained through a classic scaling procedure, we conduct an aero-structural optimization of the rotor through a staged redesign process, in which we optimize primary characteristics of the rotor including the blade shape, the solidity and a certain amount of native structural tailoring. The process is based on a series of parametric analysis, in order to assess the impact of a variation of macro design parameters on the fundamental performance of the turbine. The redesign activity shows remarkable advantages in terms of blade mass reduction and load alleviation, highlighting directions for the development and optimization of very large rotors.

Original language	English
Article number	042003
Journal	Journal of Physics: Conference Series
Volume	1037
Issue number	4
DOIs	https://doi.org/10.1088/1742-6596/1037/4/042003
State	Published - 19 Jun 2018
Event	7th Science of Making Torque from Wind, TORQUE 2018 - Milan, Italy Duration: 20 Jun 2018 → 22 Jun 2018

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abstract = "We use the capabilities of a multi-disciplinary design tool to provide a definition of a 20 MW wind turbine. Starting from an aero-elastic model obtained through a classic scaling procedure, we conduct an aero-structural optimization of the rotor through a staged redesign process, in which we optimize primary characteristics of the rotor including the blade shape, the solidity and a certain amount of native structural tailoring. The process is based on a series of parametric analysis, in order to assess the impact of a variation of macro design parameters on the fundamental performance of the turbine. The redesign activity shows remarkable advantages in terms of blade mass reduction and load alleviation, highlighting directions for the development and optimization of very large rotors.",

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AU - Bellini, F.

AU - Croce, A.

AU - Bottasso, C. L.

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N2 - We use the capabilities of a multi-disciplinary design tool to provide a definition of a 20 MW wind turbine. Starting from an aero-elastic model obtained through a classic scaling procedure, we conduct an aero-structural optimization of the rotor through a staged redesign process, in which we optimize primary characteristics of the rotor including the blade shape, the solidity and a certain amount of native structural tailoring. The process is based on a series of parametric analysis, in order to assess the impact of a variation of macro design parameters on the fundamental performance of the turbine. The redesign activity shows remarkable advantages in terms of blade mass reduction and load alleviation, highlighting directions for the development and optimization of very large rotors.

AB - We use the capabilities of a multi-disciplinary design tool to provide a definition of a 20 MW wind turbine. Starting from an aero-elastic model obtained through a classic scaling procedure, we conduct an aero-structural optimization of the rotor through a staged redesign process, in which we optimize primary characteristics of the rotor including the blade shape, the solidity and a certain amount of native structural tailoring. The process is based on a series of parametric analysis, in order to assess the impact of a variation of macro design parameters on the fundamental performance of the turbine. The redesign activity shows remarkable advantages in terms of blade mass reduction and load alleviation, highlighting directions for the development and optimization of very large rotors.

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SN - 1742-6588

VL - 1037

JO - Journal of Physics: Conference Series

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T2 - 7th Science of Making Torque from Wind, TORQUE 2018

Y2 - 20 June 2018 through 22 June 2018

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Preliminary design and optimization of a 20MW reference wind turbine

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