本文用一种新的办法来计算流体力学线性问题。
This paper presents a new method for calculating linear fluid mechanics problems.
这样就形成与物理分析相结合的计算流体力学体系。
In this way the system of computational fluid dynamics combined with physical analysis comes into being.
这方面的研究是所谓的计算流体动力学或计算流体力学。
This area of study is called Computational Fluid Dynamics or CFD.
运动界面的数值模拟是计算流体力学中的重要课题之一。
The numerical modeling of the moving interface is one of the most important problems in CFD.
数值风洞技术是以计算流体力学为基础进行风场研究的有效方法。
Numerical wind tunnel technology based on computational fluid dynamics is an effective method for the study of the wind field.
应用计算流体力学理论,给出了长输管线气体泄漏率新的计算方法。
A mathematical model for accidental gas release in long transmission pipeline was given, on the basis of computational fluid mechanics.
此外,工程师获得了利用计算流体力学,他们无法获得的测试数据。
In addition, the engineers gained insight using CFD that they could not have obtained from the test data.
采用FLUENT计算流体力学软件对糖化锅内的流场进行了模拟。
The inside field of the mash kettle is imitated with FLUENT software.
全文介绍了计算流体力学分析、外形参数化和优化算法三方面的工作。
The work presented in this thesis comprises of CFD analysis, shape parameterization and optimization algorithm.
厂房通风;计算流体力学;整体通风;局部排风;工作区分隔。
Plant ventilation; CFD; General ventilation; Local ventilation; Separation of working fields.
本文介绍一种设计跨声速自然层流翼型的计算流体力学(CFD)方法。
This paper represents a CFD method for the design of NLF airfoils directly under transonic viscous flow conditions.
使用计算流体力学的方法,计算增加压力平衡槽后间隙密封中的流场分布。
The distribution of flow field in clearance seal with balanced-pressure grooves is calculated by using the method of computing fluid mechanics.
基于CFD的气动优化设计已成为当前计算流体力学研究的一个重要领域。
Aerodynamic optimization design technology based on CFD becomes a very active object in the CFD field.
国内外采用计算流体力学(CFD)对混合时间进行理论研究的文献相对较少。
Only a few studies were carried out on the numerical simulation of mixing process by using computational fluid dynamics (CFD).
计算传质学模型由浓度输运方程及其封闭方程和相应的计算流体力学模型组成。
The Computational Mass Transfer(CMT) model is composed of the basic differential mass transfer equation, closing with auxiliary equations and the appropriate accompanying CFD formulation.
随着计算机工业的飞速发展,数值计算方法在计算流体力学中得到了广泛的应用。
Along with the development of the computer industry, numerical calculation is widely used in the computation hydrodynamics.
同时运用FLUENT计算流体力学模拟软件,模拟并优化了MAP反应器的结构。
At the same time, use FLUENT computational fluid dynamics simulation software to optimize the structure of MAP reactor.
以计算流体力学为工具,详细分析计算了流体流过孔板的层流流场分布以及压力降。
Based on computational fluid dynamics, the distribution of laminar flow-field and pressure difference are obtained by numerical simulation on flow through orifice plate in detail.
采用计算流体力学软件CFX对超临界水冷堆主容器出口管的温度分布进行数值分析。
The numerical analysis was performed on temperature distribution of the outlet nozzles in main vessel of SCWR(supercritical water reactor) by using computational fluid dynamics software CFX.
以计算流体力学(CFD)为基础,采用有限容积法模拟计算了轿车车身的外部流场。
On the basis of computational fluid dynamics (CFD), adopting limited volume method, the external flow field of a car body is simulated.
根据计算流体力学理论对空化流场进行数值模拟,从理论上验证水力空化的发生效果。
Finally, numerical simulation based on computer fluid dynamic (CFD) has been made for verifying the effect of hydrodynamic cavitation theoretically.
单机性能的提高使得计算流体力学得到迅速推广,成为一般工业过程基本设计分析工具。
The CFD technique spreads quickly with an enhancement of the PC performance and becomes a basic tool for industrial design and analysis.
在医学三维重建、计算流体力学、有限元后处理、地震地质等众多领域得到了广泛应用。
It has been widely used in three-dimensional medical reconstruction, computational dynamic fluid, post-processing of finite element computation, seismic and geological applications.
从流体微元出发,用计算流体力学(CFD)的方法建立热管生物反应器的传热数学模型。
Using the fluid differential unit, the heat transfer mathematic model of heat pipe bioreactor (HPBR) was established by the calculated fluid hydrodynamics (CFD).
本文应用计算流体力学的理论和方法模拟了带内热源的三维空调房间室内气流的湍流流动。
This paper is an application of Computational Fluid Dynamics in the turbulent flow of a three-dimensional air-conditioned room in which there are heat sources.
以工程中常见的弯管为例,应用计算流体力学(CFD)技术,研究管中的流体状态参数。
By taking common bend pipe in the project as an example, and using computational fluid dynamics (CFD) technology, the fluid state parameter was studied.
提出了利用计算流体力学(CFD)软件(FLUENT)进行涡轮流量传感器仪表系数预测的方法。
The method for prediction the meter factor of the turbine flow meter by the computational fluid dynamics (CFD) software package (FLUENT) is put forward.
提出了利用计算流体力学(CFD)软件(FLUENT)进行涡轮流量传感器仪表系数预测的方法。
The method for prediction the meter factor of the turbine flow meter by the computational fluid dynamics (CFD) software package (FLUENT) is put forward.
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