Match-design of the air turbine and air chamber of Shanwei 100 kW Wave Power Station;
汕尾市100kW波力电站空气透平与气室匹配设计
Using wave method to research the hydraulic resonance system of pipe-air chamber.
采用波动法对导管-气室水力共振系统进行了研究,表明水力共振系统在合适的系统结构参数和流体参数情况下,可以使导管出口处的压力高于入口处的压力。
A characteristic method is used to research into the hydraulic resonance system of a pipe-air chamber,indicating that with a proper structure parameter and fluid parameter,the system will improve the amplitude of the end-point pressure of the pipe.
采用特征线法对用导管-气室水力共振系统提高脉冲水射流的强度进行了模拟研究,表明水力共振系统在合适的系统结构参数和流体参数情况下,可以提高导管出口处的压力振幅。
Based on the theory of gas molecular absorption spectrum,structure of transmission type gas cell that based on GRIN lens is designed.
基于气体分子红外吸收光谱的原理,设计了基于自聚焦透镜的透射式气室结构。
The prac- tical methane gas sensor is developed with LED16 as light source,the special gas cell,high response detector and data-pro- cessing circuit used DSP a.
该方法用LED16做光源,结构简单、成本低廉,配上专门设计的气室,响应度较高的探测器,以及以DSP为核心的数据处理电路,研制出了实用的甲烷气体传感器。
It analyzed the gas cell and coupling,and designed a real-time control system for dealing with data.
同时,分析了气室和耦合,设计了数据处理系统对检测系统做出实时控制。
It also analyzes the effect of gas hole area on the pres-sure in the gas chamber near the barrel exit.
该文对其弹托气室与炮膛间的充、排气规律进行了分析研究,计算了某航炮用气推弹气室内温度、密度和压力沿内弹道段的变化,分析了气孔面积对气室膛口压力的影响,为进一步研究气推弹瞠外脱壳规律提供理论依据。
