1) Wall viscosity
壁面粘度
2) wall velocity
壁面速度
3) wall thickness
壁面厚度
4) wall temperature
壁面温度
1.
These models are combined with the zone method to simulate wall temperature distribution in the MOCVD reactor with three separate vertical inlets.
分别采用透明体模型、黑体模型、灰体模型、三谱带漫反射模型、三谱带镜反射模型和二谱带模型对石英壁面的辐射特性进行模拟,并结合求解辐射传递方程的谱带区域法模型,计算了不同壁面特性下径向三重流MOCVD反应器的壁面温度分布。
2.
Wall temperature is associated with many operating parameters.
推力器过热是由于壁面温度逐渐升高,超过了推力器正常工作的限度,从而使推力器无法正常工作。
3.
In order to study the effect of wall temperature and free-stream velocity on the characteristics of the boundary layer,the characteristic in a convection boundary layer in air along a vertical heated plate was numerically simulated with CFD(computational fluid dynamics)software.
为了研究壁面温度和来流速度对边界层特性的影响,采用计算流体动力学(computational fluid dynamics,CFD)软件对空气流过竖直加热平板的对流边界层特性进行数值模拟。
5) Method of stickproof by raising wall temperature
壁面加温防粘
6) interfacial viscosity
界面粘度
1.
The interfacial viscosity of surfactants Tween 40(polyoxyalkylene sorbitan palmitate) and Span 80 (sorbitan monooleate)and their effects on interfacial viscosity of Daqing, Iranian Light, Iranian Heavy vacuum residue fractions were investigated by using shear interfacial viscosity meter.
采用剪切界面粘度仪考察了表面活性剂Tween40和Span80的油 水界面粘度及其对大庆、伊朗轻质和伊朗重质减压渣油馏分的油 水界面粘度的影响。
2.
The interfacial viscosity of Daqing vacuum residue fractions was investigated by using shear interfacial viscosity meter.
采用剪切界面粘度仪考察了大庆减压渣油超临界馏分(简称大庆减渣馏分)的油-水界面粘度。
3.
The interfacial viscosity of super critical separated Iranian light vacuum residue fractions was investigated by using shear interfacial viscosity meter.
采用剪切界面粘度仪考察了伊朗轻质减压渣油超临界分离馏分的油 水界面粘度。
补充资料:面粘
1.浆糊。
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