1) channel
[英]['tʃænl] [美]['tʃænḷ]
槽道
1.
Large eddy simulation of particles in a turbulent channel flow;
三维槽道两相湍流的大涡模拟
2.
In this paper, the advantages of channel type planing boat are introduced.
本文对槽道艇的优点进行介绍,同时,就槽道艇的形状、重心位置与艇体长度以及加装水翼和尾压浪板情况对阻力的影响进行了阐述与分析,以供设计这种船型时作参考。
3.
This thesis provides a primary investigation on gaseous turbulence and gas-particle turbulent flow in a channel by aid of large eddy simulation (LES), where the gaseous governing equation were solved by second-order central .
本论文以槽道流动这一简单的原型系统为对象,对槽道湍流和槽道气粒两相湍流开展了三维大涡模拟(LES)的初步研究。
2) square duct
直方槽道
1.
Influence of gravity on secondary flow of particle phase in a square duct;
直方槽道中重力对颗粒相二次流的影响
3) geosynclinal ventilation duct
地槽风道
4) microchannel
微槽道
1.
Finite length microchannel flow in transitional regime(—Analytical prediction compared with experiment);
有限长度的过渡领域微槽道流动(—分析预测和试验的比较)(英文)
2.
PIV measurement and simulation in a curved microchannel;
弯曲微槽道内流场的PIV测量和数值模拟
3.
Heat transfer mechanism of saturated boiling flow in the veridical rectangular microchannels;
竖直矩形微槽道内的饱和沸腾换热研究
5) slot width
槽道宽度
1.
Effect of slot width on the aerodynamic performance of compressor cascade;
槽道宽度对压气机叶栅气动性能的影响
6) turbulent channel flow
槽道湍流
1.
Improvement of sub-grid model in large eddy simulation and applications in turbulent channel flow;
大涡模拟中亚格子模型的改进及其在槽道湍流中的应用
2.
, the classic Smagorinsky model,the dynamical Smagorinsky model and a model derived from Kolmogorov equation by Cui(2004),are performed to study turbulent channel flows with a wall oscillation in the spanwise direction.
分别采用3种亚格子模式:传统的Smagorinsky模式、动力Smagorinsky模式和Cui(2004)基于Kolmogorov方程所提出的新模式,对壁面在展向作周期运动的槽道湍流进行了大涡模拟,以考察这3种模式对平均运动为三维、非定常的湍流流动的模拟能力。
3.
A turbulent channel flow structure and drag reduction mechanism induced by spanwise wall oscillation are investigated using direct numerical simulation (DNS) method.
通过直接数值模拟(DNS)研究壁面展向周期运动的槽道湍流的结构及其减阻机理,建立槽道湍流数据库。
补充资料:槽道
1.犹规矩。 2.牲口槽。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条