近些年来,人们开始应用计算流体动力学(CFD)来求解气动弹性问题。
Years followed, current research has turned toward the application of Computational Fluid Dynamics(CFD) models to the solution of these aeroelastic problems.
该传感器(100)可应用于翼型结构,例如风力涡轮叶片(110),且不影响叶片结构和流体动力学特征。
The sensor (100) may applied to airfoil structures such as wind turbine blades (110) without impacting the blade structure and fluid dynamic characteristics.
应用粘性流体动力学基本方程,分析了聚合物物料在螺槽中的流动。
The flow of rubber compound in the screw channel was analyzed with the basic equation of the viscous fluid kinetics.
王福军。计算流体动力学分析—CFD软件原理与应用[M]。北京:清华大学出版社,2005。
WANG Fujun. Computational Fluid Dynamics Analysis-Theory and Application of CFD Software [m]. Beijing: Tsinghua University Press, 2005.
应用现代计算流体动力学数值方法,首次建立了长大列车空气管系的二维充气特性模型。
By use of modern computational fluid dynamics method (CFD), 2-dimension air-charging characteristics model of the heavy haul train air brake pipe system is built.
随着计算流体动力学CFD在工程设计中的广泛应用,工程设计计算的精确度日益提高,设计质量也越来越好。
As Calculating Fluid Dynamics (CFD) has been using in engineering design widely, engineering design quality becomes higher with its more precise calculation.
应用计算流体动力学软件FLUENT,对QD128航改燃气轮机燃烧室进行了三维数值模拟计算分析。
The 3D numerical simulation of the QD128 aero-derivative gas turbine combustor was performed by using computational fluid dynamics(CFD) software FLUENT.
在所有描述半导体的数学模型中,流体动力学模型和漂移扩散模型是应用最广泛的模型。
The hydrodynamic and the drift-diffusion models are the most widely used models to describe semiconductor devices today.
概述了计算流体动力学(CFD)技术的特点,并以旋风分离器为应用实例,介绍了CFD在粮机设计中的应用。
The characteristics and applications of computational fluid dynamics (CFD) during grain machine design are introduced.
从事传递过程强化与多相流体动力学基础理论和工程应用的教学与科研工作。
Research interest and field was focused on the theory and application of transfer process enhancement and multi phase fluid dynamics.
简要介绍了刷密封的历史和应用前景,并在深入研究的基础上,总结和提出了刷式密封准三维的性能分析模型,建立了静态轴对称的流体动力学模型。
The model about performance analysis of seal which is 3D is put forward on the basis of lucubration, and hydrokinetics model of static axial symmetry is established.
简要介绍了刷密封的历史和应用前景,并在深入研究的基础上,总结和提出了刷式密封准三维的性能分析模型,建立了静态轴对称的流体动力学模型。
The model about performance analysis of seal which is 3D is put forward on the basis of lucubration, and hydrokinetics model of static axial symmetry is established.
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