Two-scale momentum theory for time-dependent modelling of large wind farms
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Publication:5108190
DOI10.1017/JFM.2020.252zbMath1460.76587arXiv1909.11449OpenAlexW2976441290MaRDI QIDQ5108190
Thomas D. Dunstan, Takafumi Nishino
Publication date: 30 April 2020
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1909.11449
Related Items (6)
Two-scale interaction of wake and blockage effects in large wind farms ⋮ An analytical model of momentum availability for predicting large wind farm power ⋮ Performance and wake characteristics of tidal turbines in an infinitely large array ⋮ A fast-running physics-based wake model for a semi-infinite wind farm ⋮ Analytical model of fully developed wind farms in conventionally neutral atmospheric boundary layers ⋮ Single and multi-row turbine performance in bounded shear flow
Cites Work
- The top-down model of wind farm boundary layers and its applications
- A new boundary condition for large-eddy simulation of boundary-layer flow over surface roughness transitions
- The efficiency of an array of tidal turbines partially blocking a wide channel
- Two-scale dynamics of flow past a partial cross-stream array of tidal turbines
- Large eddy simulation study of fully developed wind-turbine array boundary layers
- Maximum power from a turbine farm in shallow water
- The efficiency of a turbine in a tidal channel
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