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Wind Farm Layout Optimization with Loads Considerations

Andrew P. J. Stanley, Jennifer King, Andrew Ning

2020Journal of Physics Conference Series26 citationsDOIOpen Access PDF

Abstract

Abstract The objective of this paper is to improve the annual energy production of a wind farm by optimizing the layout of a wind farm, while considering fatigue loads on turbines. In this paper, the loads are estimated using the edgewise bending moment computed using CCBlade, a steady-state blade element momentum code. The edgewise bending moment is then used to calculate fatigue damage using Miner’s rule. The fatigue damage is used to constrain the layout optimization problem. We show that our method can predict blade root damage with similar trends to damage calculated with other methods, such as a complex, computationally expensive large-eddy simulation and unsteady aeroelastic code. We also optimize wind farm layouts and show that, for a simple problem with two wind directions and ten turbines, the fatigue damage can be constrained without sacrificing wind farm power production.

Topics & Concepts

Bending momentWind powerAeroelasticityStructural engineeringMoment (physics)Computer scienceCode (set theory)Environmental scienceEngineeringAerodynamicsAerospace engineeringClassical mechanicsSet (abstract data type)Programming languagePhysicsElectrical engineeringWind Energy Research and DevelopmentWind and Air Flow StudiesProbabilistic and Robust Engineering Design
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