1) annular micro-chamber
环形微细腔
1.
The influence of molar ratio of CH4/air and catalytic temperature for combustion in annular micro-chamber have been studied when Pt was used as catalyst.
为了研究微尺度下甲烷持续稳定燃烧的性能,采用催化燃烧方式对环形微细腔内甲烷与空气混合物在铂催化表面上的催化燃烧进行了数值模拟,研究了甲烷当量比、壁面温度对微通道内甲烷与空气混合物催化燃烧的甲烷转化效率的影响。
2) ring microresonator
环形微腔
1.
Effect of input pump power on active ring microresonator filter;
泵浦功率对有源环形微腔滤波器特性的影响
3) planar ring micro-cavity
平面环形微腔
1.
Describe a novel displacement sensor with high sensitivity based on the tunneling effect and the parametric instability using the planar ring micro-cavity structure as the core component.
以平面环形微腔结构为核心器件,基于量子力学的隧道效应和"参量振荡不稳定"效应,结合理论计算及ANSYS和Beamprop仿真,设计出基于环形微腔结构的超高灵敏度位移传感器,特别是在1。
4) annular microchamber
微细型腔
1.
An experimental apparatus for gas combustion in annular microchamber was set up.
结果表明 ,在微细型腔内进行可燃气体与空气的预混燃烧具有可行性 ,但由于微细通道管壁表面散热损失相对增大 ,火焰传播速度减小 ,过量空气燃烧效率较低 。
5) micro-chamber
微细腔
1.
With the different H_2O/CH_4 mole ratio,CH_4 inlet mass rate(R_m),inlet mixed mass flow and the micro-chamber wall temperature,the CH_4/H_2O catalytic reforming reaction characteristics with CO_2/CH_4 reaction on Ni/α-Al_2O_3 catalyst in a micro-chamber has been simulated.
本文针对微细腔内在Ni/α-Al_2O_3催化作用下,存在CH_4/CO_2反应时,数值研究了在不同的水碳比,不同的进口甲烷质量组分R_m,不同的进口流量与微细腔壁温下甲烷/水蒸气催化重整反应特性。
6) spherical microcavity
球形微腔
补充资料:微细
1.细小;琐屑。 2.卑下;低贱。
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