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Wind farm optimization with multiple hub heights using gradient-based methods

Andreas Wolf Ciavarra, Rafael Valotta Rodrigues, Katherine Dykes, Pierre‐Elouan Réthoré

2022Journal of Physics Conference Series33 citationsDOIOpen Access PDF

Abstract

Abstract Optimization of the Levelized Cost of Energy (LCoE) in wind farms helps ensure profitability and competitiveness of the project. Recent work has explored driving down LCoE by allowing multiple wind turbines in a single wind farm - with different hub heights, rotor diameters, and rated powers. In this work, we performed optimization of the Lillgrund wind farm with continuously varying hub-heights to mitigate wake interference, improve annual energy production (AEP) and reduce LCoE. The optimization converged to a configuration where the turbines were vertically staggered, resulting in an improvement in both AEP and internal rate of return (IRR) - a financial metric related to LCoE. Reducing the number of turbines to a discrete set of 2 or 3 retained nearly all the benefits of staggering but is more aligned with limitations related to manufacturing and logistics.

Topics & Concepts

Marine engineeringMeteorologyEnvironmental scienceComputer scienceMathematical optimizationMathematicsEngineeringGeographyWind Energy Research and DevelopmentWind Turbine Control SystemsSolar Radiation and Photovoltaics
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