WANG Fujun. Computational Fluid Dynamics Analysis-Theory and Application of CFD Software [m]. Beijing: Tsinghua University Press, 2005.
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。
Using fluid dynamics analysis software CFD made a numerical simulation to the BOP control system pressure relief valve under the valve different working conditions;
使用流体力学分析软件对减压溢流阀在阀口不同开度条件下进行了阀内流场的数值模拟和仿真;
These analysis results are references for both new type of structure design and the research on characters of fluid dynamics of propellor.
分析结果可供变螺距螺旋桨的新型结构设计和流体动力特性研究参考。
Research shows that, it is suitable for rotor dynamics, dynamic analysis of helicopter rotor blades fuselage systems and piping systems contained flow fluid.
研究表明,本方法适用于转子动力学,直升机旋翼-机身耦合系统以及具有流体流动的管道系统的动力分析。
In this way the system of computational fluid dynamics combined with physical analysis comes into being.
这样就形成与物理分析相结合的计算流体力学体系。
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.
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。
Continuous modeling USES the data collected by DCIM and engineering analysis tools such as computational fluid dynamics (CFD).
连续使用收集的数据建模dcim和工程分析工具,如计算流体动力学(CFD)。
In this paper, with the current demand for electronic chip cooling, using fluid dynamics finite element analysis software FLO EFD.
本文结合目前电子芯片的散热需求,使用流体力学有限元分析软件FLOEFD。
The possible benefits of the technique of computational fluid dynamics (CFD) used in car body flow-field analysis is highlighted.
探求了应用计算流体力学(CFD)研究汽车车身外部流场的可行性。
Using the engineering fluid dynamics theory, I carry on the pressure loss analysis to the compressed gas the pipelines which are in the installment.
利用工程流体力学理论,对装置中管道内的压缩气体进行压力损失分析。
On the basis of detailed analysis of the pipeline fluid dynamics, this paper presents a method of pipeline leak detection and location based on stable model;
本文在详细分析管道流体动力学特性的基础上,提出了一种基于稳态模型的管道泄漏检测与定位方法;
The computational fluid dynamics (CFD) analysis of air-flow generating duct were utilized for sampling scheme given by uniform design to collect the train dataset.
利用均匀设计安排试验方案,并通过流体动力学仿真完成训练样本采集。选定相关向量机作为优化设计的评估函数。
The computational fluid dynamics (CFD) analysis of air-flow generating duct were utilized for sampling scheme given by uniform design to collect the train dataset.
利用均匀设计安排试验方案,并通过流体动力学仿真完成训练样本采集。选定相关向量机作为优化设计的评估函数。
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