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Journal article

Post-Optimum Sensitivity Analysis with Automatically Tuned Numerical Gradients Applied to Swept Wind Turbine Blades

By McWilliam, Michael K.1,2,3; Dicholkar, Antariksh C.3,4,5; Zahle, Frederik3,4,5; Kim, Taeseong3,4,6

From

Wind Energy Systems Division, Department of Wind and Energy Systems, Technical University of Denmark1

System Engineering and Optimization, Wind Energy Systems Division, Department of Wind and Energy Systems, Technical University of Denmark2

Department of Wind and Energy Systems, Technical University of Denmark3

Wind Turbine Design Division, Department of Wind and Energy Systems, Technical University of Denmark4

Aero- and Fluid Dynamics, Wind Turbine Design Division, Department of Wind and Energy Systems, Technical University of Denmark5

Response, Aeroelasticity, Control and Hydrodynamics, Wind Turbine Design Division, Department of Wind and Energy Systems, Technical University of Denmark6

Post-Optimum Sensitivity Analysis (POSA) extends numerical design optimization to provide additional information on how the design and performance would change if various parameters and constraints were varied. POSA is challenging since it typically requires accurate gradients and gradient-based optimization problems that provide Lagrange multipliers.

To overcome this problem, this paper introduces a technique to automatically tune gradients with statistical methods and algorithms to calculate the Lagrange multipliers after an optimization. This allows these methods to be applied to problems with noisy gradients or problems solved with gradient-free optimization algorithms.

These methods have been applied to swept wind turbine blades. Swept blades can reduce wind turbine loads by twisting out of the wind when the wind speed increases. The methods have shown that introducing design freedom in the sweep, blade root flap-wise bending moments and blade tip deflection has a weaker influence on the design.

Instead, blade root torsion moment and material failure become the driving constraints.

Language: English
Publisher: MDPI AG
Year: 2022
Pages: 2998
ISSN: 19961073
Types: Journal article
DOI: 10.3390/en15092998
ORCIDs: 0000-0003-2021-5191 , Dicholkar, Antariksh C. , Zahle, Frederik and Kim, Taeseong
Keywords

Optimization Sensitivity analysis Wind turbines

Other keywords

T Technology optimization sensitivity analysis wind turbines

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