1) Suction location
吸气位置
1.
The effects of suction locations on the loss are greater as suction flow rate increases.
结果表明,附面层吸除降低了叶栅出口的总损失,并提高了气流的折转能力;吸气位置对损失的影响随吸气量的增大而增大;吸力面采用附面层抽吸对叶展中部区域损失的改善要好于近端壁区。
2.
The influence of the suction location on suction effectiveness is larger than that of the suction air flow rate.
结果表明,附面层吸除可有效改善叶栅气动性能,低能流体被吸除使得吸力面及角区的分离减小,增大了通流能力,叶栅负荷及扩压能力得到提升,且吸气量越大改善越显著,在60%轴向弦长位置吸气效果最佳;吸气位置对吸气效果的影响要大于吸气量,适当增加吸气量可增强吸气效果,最佳吸气位置及吸气量的选定与扩压过程及栅内分离程度相关。
2) suction slot location
吸气位置
1.
Based on the numerical investigations on the performance of an axial transonic compressor cascade with different suction slot locations and suction mass-flow,it has been shown that for a given inlet Mach number and flow angle,there exist an optimal suction mass-flow corresponding to the suction slot location.
使用MISES程序数值模拟了跨声速吸附式压气机叶栅流场,重点研究了吸气量和吸气位置对跨声速压气机叶栅气动性能的影响。
3) Adsorption site
吸附位置
1.
The role of adsorption sites in the molecular kondo effect;
吸附位置对分子近藤效应的影响
4) Position of breathing
呼吸位置
5) pull-up position
吸动位置
6) soaking gas equipment
气吸装置
1.
This paper disserts the application of air seeder in practice and the method of lifting soaking gas property,makes a pneumatic analysis on soaking gas equipment and findes out the reason of low soaking gas property and provides the improving measures.
针对气吸式精密播种机在实际应用中所采取的提高气吸性能的方法 ,对气吸装置进行了气动分析 ,得出了气吸性能低的原因 ,并提出了改进措
补充资料:吸气
吸气
气体进入肺脏的过程。
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