Wind Farms (JNS)
In the near future, large wind farms are going to be established with several hundred megawattsize wind turbines clustered in arrays. This will have a significant impact on the wind environment and will affect the available wind resources for other wind farms. The large length scales of the park (-100 km) coupled with the fine resolution needed to resolve turbines using simple actuator line/ disc models would be demanding even for the largest available computers. Firstly, results from Task 2 will be used to develop simpler models in the form of parks modeled as roughness elements or parks modelled as body forces along with additional equations to account for thermal stratification effects. Secondly, techniques to accelerate the speed and the accuracy of the computations will be investigated, e.g. by using vorticity refinement techniques.
Expected results: Cost effective models for park to park effects, including optimized numerical methods and influence of stratification.
Milestones; Task 3 (JNS)
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Milestone
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Description
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Month
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Status
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M13
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Computations and validation of neutral ABL RANS simulations of wind farms, compared to experimental results from Horns Rev. (Using Actuator Disk)
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38
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Completed
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M14
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Computation and validation of LES simulation of wind farms, using experimental results from Horns Rev and Lillgrund. (Using Actuator Disk/Line)
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24
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Completed
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M15
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Development of low-dimensional turbulence model for wind farms.
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36
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Completed
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M16
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Parametric study of the influence of the stratification of the ABL on wind farm performance.
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48
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Pending
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M17
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Evaluation of the mutual interaction of two wind farms located in close proximity (Using Actuator Disk/Line and LES).
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60
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Completed
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