Design optimization of a wind turbine blade under non-linear transient loads using analytic gradients

Jenna Iori

doi:10.1088/1742-6596/1618/4/042032

Design optimization of a wind turbine blade under non-linear transient loads using analytic gradients

Jenna Iori

Research output: Contribution to conference › Paper › peer-review

2 Citations (Scopus)

Abstract

This work presents and compares two formulations for the co-design optimization of a wind turbine blade under non-linear transient loads: the Nested Analysis and Design (NAND) and the Simultaneous Analysis and Design (SAND) approaches. Analytic sensitivies are used in order to ensure the convergence of the optimization within reasonable computational resources. The two formulations are compared on a mass minimization problem with dynamic constraints, solved with the interior-point method in IPOPT, for a gust input and a turbulent input. Results shows that the NAND and SAND approaches converge towards the same optimum with similar performances. The SAND approach benefits from a simpler design sensitivity analysis and a sparse jacobian of the constraints.

Original language	English
DOIs	https://doi.org/10.1088/1742-6596/1618/4/042032
Publication status	Published - 2020
Externally published	Yes
Event	Science of Making Torque from Wind 2020, TORQUE 2020 - Online, Virtual, Online, Netherlands Duration: 28 Sept 2020 → 2 Oct 2020

Conference

Conference	Science of Making Torque from Wind 2020, TORQUE 2020
Country/Territory	Netherlands
City	Virtual, Online
Period	28/09/20 → 2/10/20

Keywords

Design optimization
Wind Energy
Wind turbine blade
transient dynamics
Non-linear dynamics

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1088/1742-6596/1618/4/042032

Cite this

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title = "Design optimization of a wind turbine blade under non-linear transient loads using analytic gradients",

abstract = "This work presents and compares two formulations for the co-design optimization of a wind turbine blade under non-linear transient loads: the Nested Analysis and Design (NAND) and the Simultaneous Analysis and Design (SAND) approaches. Analytic sensitivies are used in order to ensure the convergence of the optimization within reasonable computational resources. The two formulations are compared on a mass minimization problem with dynamic constraints, solved with the interior-point method in IPOPT, for a gust input and a turbulent input. Results shows that the NAND and SAND approaches converge towards the same optimum with similar performances. The SAND approach benefits from a simpler design sensitivity analysis and a sparse jacobian of the constraints.",

keywords = "Design optimization, Wind Energy, Wind turbine blade, transient dynamics, Non-linear dynamics",

author = "Jenna Iori",

year = "2020",

doi = "10.1088/1742-6596/1618/4/042032",

language = "English",

note = "Science of Making Torque from Wind 2020, TORQUE 2020 ; Conference date: 28-09-2020 Through 02-10-2020",

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AU - Iori, Jenna

PY - 2020

Y1 - 2020

N2 - This work presents and compares two formulations for the co-design optimization of a wind turbine blade under non-linear transient loads: the Nested Analysis and Design (NAND) and the Simultaneous Analysis and Design (SAND) approaches. Analytic sensitivies are used in order to ensure the convergence of the optimization within reasonable computational resources. The two formulations are compared on a mass minimization problem with dynamic constraints, solved with the interior-point method in IPOPT, for a gust input and a turbulent input. Results shows that the NAND and SAND approaches converge towards the same optimum with similar performances. The SAND approach benefits from a simpler design sensitivity analysis and a sparse jacobian of the constraints.

AB - This work presents and compares two formulations for the co-design optimization of a wind turbine blade under non-linear transient loads: the Nested Analysis and Design (NAND) and the Simultaneous Analysis and Design (SAND) approaches. Analytic sensitivies are used in order to ensure the convergence of the optimization within reasonable computational resources. The two formulations are compared on a mass minimization problem with dynamic constraints, solved with the interior-point method in IPOPT, for a gust input and a turbulent input. Results shows that the NAND and SAND approaches converge towards the same optimum with similar performances. The SAND approach benefits from a simpler design sensitivity analysis and a sparse jacobian of the constraints.

KW - Design optimization

KW - Wind Energy

KW - Wind turbine blade

KW - transient dynamics

KW - Non-linear dynamics

UR - https://orbit.dtu.dk/en/publications/7ee61b67-de1e-4945-a877-6d3571d94135

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DO - 10.1088/1742-6596/1618/4/042032

M3 - Paper

T2 - Science of Making Torque from Wind 2020, TORQUE 2020

Y2 - 28 September 2020 through 2 October 2020

ER -

Design optimization of a wind turbine blade under non-linear transient loads using analytic gradients

Abstract

Conference

Keywords

UN SDGs

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