1) wave-like passage
波纹型通道
2) wavy channel
波纹通道
1.
Periodically fully developed convective heat transfer characteristics in a two-dimensional wavy channel are investigated numerically with a constant wall temperature.
采用曲线坐标系下压力与速度耦合SIMPLER算法,数值研究了一种波纹通道内周期性充分发展的稳态层流流动与换热情况,流动Re数的范围为20-500,Pr数为0。
2.
A fully developed convective heat transfer inside a two-dimensional periodically wavy channel is investigated numerically with pulsating flows under a constant wall temperature.
采用曲线坐标系下压力与速度耦合的SIMPLER算法,数值研究了波纹通道内脉动流动与换热情况,流动Re数的范围为5~500,Pr数为0。
3.
By using a numerical method an investigation was conducted of the fully developed laminar flow and heat transfer characteristics of fluids in two kinds of wavy channel, namely, a sine type and a triangle type.
应用数值方法研究了流体在正弦型和三角型两种波纹通道内周期性充分发展的层流流动与换热特性,分析了恒壁温条件下,雷诺数Re对流动与换热性能的影响,并对两种通道的摩擦阻力系数f与努谢尔特数Nu分别进行了比较。
3) corrugated plate channel
波纹板通道
1.
Correlations of condensation heat transfer and pressure drop inside circular tubes and corrugated plate channels;
管内与波纹板通道内冷凝传热和压降关联式
4) cross-corrugated passage
交错波纹通道
1.
Through simulation,interior humidity distribution in cross-corrugated passages and its characteristics were described.
采用流体分析软件CFX对蒸发降温湿帘的交错波纹通道进行了传质的数值模拟,计算分析以90°波纹交角的流道为模型,计算采用SST(shear stress transport)湍流模型求解三维N av ier-S tokes方程。
2.
In this paper, the heat transfer through a cross-corrugated passage has been numerically simulated, using a CFD package called CFX5 which is based on the SST(Shear Stress Transport Model) turbulence model to solve the three dimensional Navier-Stokes e quation.
本文采用流体分析软件CFX5对交错波纹通道进行了传热的数值模拟,计算采用 SST(Shear Stress Transport Model)湍流模型求解三维Navier-Stokes方程,计算分析模型 90°波纹交角的流道模型。
3.
In this paper, the flow through cross-corrugated passage has been numerical simulated.
本文采用流体分析软件CFX5对交错波纹通道进行了三维非粘性定常流动的数值模拟,计算采用SST(Shear Stress Transport Model)求解三维Navier-Stokes方程,计算分析模型包括:从50°到130°的9种不同波纹交角的流道模型。
5) periodically wavy channel
周期性波纹通道
6) passband ripple
通带波纹
补充资料:部分型房室共同通道
部分型房室共同通道
partial atrioventricular canal
见“部分型原发孔型房间隔缺损”。
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