1) heat shield
隔热屏
1.
The node and network method and the IRTE method are used to calculate the radiative flux of the engine,the heat shield radiation and the plume radiation on the base flange and the jointing switch.
为此,建立了节点网络法计算发动机和隔热屏对卫星法兰底座及控制开关的辐射加热,比较了发动机、隔热屏和羽流3种辐射源的作用大小,还研究了发动机位置的平移对底部法兰及控制开关辐射加热的影响。
2.
In an arbitrary curvilinear coordinate system,numerical simulation was performed for 3D turbulent combustion flow field of the afterburner with the cross-rippled heat shield,outer cold passage and jet nozzle.
在任意曲线坐标系下对带有横向波纹隔热屏、外冷却通道和尾喷口的涡喷加力燃烧室的三维热态流场进行数值模拟。
3.
WT5”BZ]The flow field calculation and buckling analysis were conducted for the afterburner with a heat shield,flame stabilizer and jet nozzle.
采用数值分析方法模拟了带有隔热屏、火焰稳定器和尾喷口的加力燃烧室热态流场 ,并对隔热屏进行屈曲分析 ,计算中采用 k-ε双方程模型描述紊流特性 ,采用 EBU -Arrhenius燃烧模型计算化学反应速率。
2) heat shield
隔热屏障
3) thermoscreen
热屏蔽,隔热屏
4) radiation shield (casing)
隔热层,隔热屏;防辐射屏
5) saving energy and insulation barrier
节能隔热屏
6) longitudinal heat shield
纵向隔热屏
1.
Numerical simulation of three-dimensional heat flows for longitudinal heat shield afterburner;
数值模拟纵向隔热屏加力室热态流场
补充资料:屏屏
1.层叠貌。
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