Abstract
This paper shows the results of CFD studies of turbulent flow fields and their effects on a wind turbine in complex terrain. As part of the WINSENT project a research test site comprising four meteorological masts and two research wind turbines is currently being constructed in the Swabian Alps in Southern Germany. This work is an essential part of the research of the Southern German wind energy research cluster WindForS. The terrain site is characterised by a densely forested escarpment and a flat plateau downstream of the slope. The met masts and wind turbines are built on this plateau. In the first part, high-resolution CFD simulations are performed to separately investigate the effects of the forested escarpment and of thermal stratification on the flow field and on the wind turbine accordingly. In the second part, all the examined effects are combined for a real-life case dated March 2021. There, unstable conditions prevailed and the forest shows low leaf area densities due to the wintertime. It is shown that atmospheric turbulence, forests, orographies, and thermal stratification must be considered when assessing the impact of wind turbines in complex terrain. All of these effects influence the flow field both at the turbine position as well as in its wake. Turbulent structures of the forest wake cross the rotor plane temporarily and thereby affect the turbine inflow. Moreover, convective conditions and upward flows caused by the orography have an impact on the performance output as inclined flows result in asymmetric torque distributions. The wind turbine wake and the forest wake mix further downstream, resulting in a fast decay of the turbine wake. The paper also describes how the turbulent flow in the wake changes in the presence of thermal stratification.
Highlights
In terms of wind turbine site assessment, complex topographies remain a major challenge
This paper shows the results of Computational Fluid Dynamics (CFD) studies of turbulent flow fields and their effects on a wind turbine in complex terrain
The paper presents the results of a study of highly resolved DDES simulations of a wind energy test site in complex terrain that is currently under construction in Southern Germany
Summary
In terms of wind turbine site assessment, complex topographies remain a major challenge. Radünz et al (2021) have identified the influence of local orographic effects and thermal stability on wind turbine wakes. Barthelmie et al (2018) conducted a study to investigate wind turbine wakes in Perdigão in mountainous terrain and discovered that they strongly depend on topography and stability. This paper deals with highly resolved Computational Fluid Dynamics (CFD) simulations of the flow field at the test site in complex terrain and on the wind turbine. The first part will explain the general effects on the flow field This includes the characteristics of the studied orography, the local forest, and thermal stratification. Considering all phenomena explained before, the flow field is simulated and the behaviour on the wind turbine performance and its wake will be analysed. The numerical setup for the performed simulations in this work will be presented
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