… wake models of single non-yawed wind turbine, wake models of single yawed wind turbine,
wake … 将高速度亏损区域输运到一侧,形成了向内“卷曲”的尾流剖面,因此也被成为“curled wake”. …

… It is taken into account that the aerodynamic drag coefficient CD of a concave surface
curved against the wind direction can hardly exceed a value of 1.3. Thus, the maximum power …

An investigation has been performed of the flow in a supersonic through-flow fan blade
cascade. The blade shapes are those of the baseline supersonic through-flow fan (STFF) under …

… If considerate that the aerodynamic drag coefficient of a concave surface curved against
the wind direction can hardly exceed a value of 1.3. Thus, the maximum power coefficient of a …

… vortex flow over curved surfaces more accurate, the regularized variational model (RVM) …
the fluctuating velocity profiles in the reversed-flow and the wake region. It is found that the …

… Hypersonic aerodynamic heating over a flared cone with wavy wall. Physics of Fluids, 31, …
Theoretical modeling and optimization of porous coating for hypersonic laminar flow control. …

… larger than the air flow of the upstream, and the length of the wake dispersion region increases
… Because the aerodynamic drag coefficient of a concave surface curved against the wind …

… They used smoothed particle hydrodynamics (SPH) method to model the curved waves on
GPU. Compared with the heuristic method, physically based method requires large amount of …

… The key to disaster mitigation lies in the in-depth understanding of the integrated coupling
and intelligent control of aerodynamics, hydrodynamics, structural dynamics and soil …

… It is taken into account that the aerodynamic drag coefficient CD of a concave surface
curved against the wind direction can hardly exceed a value of 1.3. Thus, the maximum power …