For wind turbines in complex terrain, the devil is in the detail

• Published in: Environmental research letters Vol. 12; no. 9; pp. 94020 - 94027
• Main Authors: Lange, Julia, Mann, Jakob, Berg, Jacob, Parvu, Dan, Kilpatrick, Ryan, Costache, Adrian, Chowdhury, Jubayer, Siddiqui, Kamran, Hangan, Horia
• Format: Journal Article
• Language: English
• Published: Bristol IOP Publishing 01.09.2017
• Subjects: Computational fluid dynamics; Escarpments; flow over complex terrain; Maintenance costs; Project feasibility; Scale models; Terrain; Three dimensional models; Turbines; Turbulence; Wind direction; wind energy; Wind farms; Wind power; Wind shear; Wind turbines; WindEEE Dome
• ISSN: 1748-9326; 1748-9326
• DOI: 10.1088/1748-9326/aa81db

The cost of energy produced by onshore wind turbines is among the lowest available; however, onshore wind turbines are often positioned in a complex terrain, where the wind resources and wind conditions are quite uncertain due to the surrounding topography and/or vegetation. In this study, we use a scale model in a three-dimensional wind-testing chamber to show how minor changes in the terrain can result in significant differences in the flow at turbine height. These differences affect not only the power performance but also the life-time and maintenance costs of wind turbines, and hence, the economy and feasibility of wind turbine projects. We find that the mean wind, wind shear and turbulence level are extremely sensitive to the exact details of the terrain: a small modification of the edge of our scale model, results in a reduction of the estimated annual energy production by at least 50% and an increase in the turbulence level by a factor of five in the worst-case scenario with the most unfavorable wind direction. Wind farm developers should be aware that near escarpments destructive flows can occur and their extent is uncertain thus warranting on-site field measurements.