1·The distribution of Reynolds stress was discussed.
着重讨论了各雷诺应力分量的分布。
2·Zonal flows can be driven by the radial gradient of the Reynolds stress.
雷诺协强的径向梯度驱动带状流抑制了湍流输运。
3·The flow field of dynamic hydrocyclone was simulated using Reynolds Stress Model in the paper.
本文采用雷诺应力模型对油料储运设备中动态旋流器内速度场进行数值模拟。
4·The results indicated that Reynolds stress model has certain capability to simulate transition process.
结果表明,雷诺应力模型对于转捩过程的捕捉能力有限。
5·Also the theoretical results of Reynolds Stress variation show good agreement with experimental results.
计算所得的流线图,涡量分布以及雷诺应力分布具有与实验结果相似的分布规律。
6·To this end, the wall function of the sub-grid Reynolds stress model was modified to obtain a better result.
针对这一问题,修正了亚格子雷诺应力模型的壁面函数,得到了较好的计算结果。
7·The wave induced Reynolds stress is introduced into the wind wave interaction and closed by the eddy viscosity model.
在风波相互作用中引入波诱导雷诺应力并用涡流粘度予以封闭。
8·The velocity field of dynamic hydrocyclone of oil storage equipment was simulated using reynolds stress model in the paper.
本文采用雷诺应力模型对油料储运设备中动态旋流器内速度场进行数值模拟。
9·The effects of turbulence intensity, aerodynamic response time and Reynolds stress on the particle dispersion are presented.
本文报导了湍流强度、速度松弛时间和雷诺应力对颗粒扩散的影响。
10·The ratio between the Reynolds stress and the turbulence energy in the inner regime of the mixing layer keeps almost constant.
但雷诺切应力与湍能的比值在混合层中心却保持不变。