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Simulating flows passing a wind turbine with a fully implicit domain decomposition method

Rongliang Chen Zhengzheng Yan Yubo Zhao Xiao-Chuan Cai

Numerical Analysis and Scientific Computing mathscidoc:1910.43856

453-460, 2016
Wind power is an increasingly popular renewable energy. In the design process of the wind turbine blade, the accurate aerodynamic simulation is important. In the past, most of the wind turbine simulations were carried out with some low fidelity methods, such as the blade element momentum method [9]. Recently, with the rapid development of the supercomputers, high fidelity simulations based on 3D unsteady Navier-Stokes (N-S) equations become more popular. For example, Sorensen et al. studied the 3D wind turbine rotor using the Reynolds-Averaged Navier-Stokes (RANS) framework where a finite volume method and a semi-implicit method are used for the spatial and temporal discretization, respectively [17]. Bazilevs et al. investigated the aerodynamic of the NREL 5MW offshore baseline wind turbine rotor using large eddy simulation built with a deforming-spatial-domain/stabilized space-time
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@inproceedings{rongliang2016simulating,
  title={Simulating flows passing a wind turbine with a fully implicit domain decomposition method},
  author={Rongliang Chen, Zhengzheng Yan, Yubo Zhao, and Xiao-Chuan Cai},
  url={http://archive.ymsc.tsinghua.edu.cn/pacm_paperurl/20191020222458282214385},
  pages={453-460},
  year={2016},
}
Rongliang Chen, Zhengzheng Yan, Yubo Zhao, and Xiao-Chuan Cai. Simulating flows passing a wind turbine with a fully implicit domain decomposition method. 2016. pp.453-460. http://archive.ymsc.tsinghua.edu.cn/pacm_paperurl/20191020222458282214385.
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