Based on the Reynolds Stress Model, the three-dimensional flow field was numerically simulated using the Reynolds averaged N-S system equations.
从雷诺应力模型出发,通过求解雷诺平均N - S方程组获得三维湍流流场的数值解。
The Reynolds stress model was used to simulate the flow field during the filtration and back pulse process in the ceramic filter vessel containing three filters.
用雷诺应力模型模拟了含有三根滤管的过滤器内过滤和反吹的整个过程的流场。
Based on the Reynolds stress model CFD numerical simulation method, both flow mechanism and flow characteristics of dispersed oil phase in oil-water separation hydrocyclone were studied.
采用雷诺应力模型CFD数值模拟方法,对油水分离器内的流动机理和分散油相的流动特点及处理方法进行研究。
The turbulent flow in a hydrocyclone is predicted numerically using a Reynolds stress model, and the numerical results agree well with experimental data.
本文采用雷诺应力模型计算了水力旋流器的水相湍流流场,计算结果与实验数据吻合很好。
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。
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。
The conclusions show that Reynolds stress model can be used to describe the tracks of particles in the extra-high speed centrifugal impeller accurately.
模拟结果与已有实验结果吻合,说明采用雷诺应力湍流模型能准确描述超高速离心叶轮中固体颗粒的运动轨迹。
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。
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。
Reynolds stress model is used to serve as a turbulent flow model with the object of study being the gas-solid two-phase flow in a U-shaped separator.
湍流模型采用雷诺应力模型,研究对象为U型分离器内的气-固两相流动。
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。
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。
应用推荐