Current fast aeroelastic wind turbine codes suitable for certification lack an induction model for standstill conditions. A trailed vorticity model previously used as addition to a blade element momentum theory based aerodynamic model in normal operation has been extended to allow computing the induced velocities in standstill. The model is validated against analytical results for an elliptical wing in constant inflow and against stand still measurements from the NREL/NASA Phase VI unsteady experiment. The extended model obtains good results in case of the elliptical wing, but underpredicts the steady loading for the Phase VI blade in attached flow. The prediction of the dynamic force coefficient loops from the Phase VI experiment is improved by the trailed vorticity modeling in both attached flow and stall in most cases. The exception is the tangential force coefficient in stall, where the codes and measurements deviate and no clear improvement is visible.
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机译:当前适用于认证的快速气动弹性风轮机规范缺乏针对静止状态的归纳模型。以前在正常运行中用作基于叶片要素动量理论的空气动力学模型的补充的尾随涡度模型已得到扩展,可以计算静止状态下的诱导速度。该模型针对椭圆机翼在恒定流量下的分析结果以及来自NREL / NASA VI期非稳态实验的静止测量进行了验证。扩展模型在椭圆机翼的情况下获得了良好的结果,但是低估了六相叶片在附加流中的稳定载荷。在大多数情况下,通过附加流动和失速过程中的尾随涡度模型,可以改善对VI期实验得出的动态力系数环的预测。例外是失速中的切向力系数,其中的代码和测量值有偏差,并且看不到明显的改进。
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