气体吸收

qì tǐ xī shōu
  • gas absorption
气体吸收气体吸收
  1. 气体吸收后B组实验眼玻璃体液化浑浊逐渐消失。

    Cloudiness disappeared after gas absorption in B group . 2 .

  2. 利用气体吸收池光电流信号稳定InGaAsP半导体激光器频率

    Study of the Frequency Stabilization of InGaAsP Semiconductor Laser Using the Optogalvanic Effect of a Gas Absorption Cell

  3. 因为浓密气体吸收掉了使其电离的软x射线,因此能减少电离。

    Dense gas serves to reduce the ionization , because it absorbs the ionizing soft x rays .

  4. 用Excel计算高浓度气体吸收过程

    The calculation of the process on gas-absorption for concentrated solutions using Excel

  5. 对不同孔隙率的微孔聚四氟乙烯(PTFE)疏水性平板膜的膜气体吸收过程中液相传质性能进行了实验研究。

    The mass transfer performances of CO2 absorbed by water or NaOH aqueous through microporous polytetrafluoroethylene ( PTFE ) flat membrane were studied .

  6. 以醇胺类水溶液作为吸收剂,采用聚丙烯中空纤维膜组件进行膜基气体吸收脱除空气中CO2的研究。

    In order to remove CO2 from air , alkanolamines were chosen as the absorbent , and a CO2 removal system was built with two polypropylene hollow-fiber membrane modules .

  7. 针对二氧化碳气体吸收,采用实验测定并结合准数关联式,得出液相总传质系数方程,为CO2气相总传质系数的测定提供新方法。

    This paper give readers liquid overall mass transfer constant equation for CO 2 absorption by water , and offer new method for determination of CO 2 absorption mass transfer constant .

  8. 采用差分光学吸收光谱法,对紫外波段的SO2、NO、NO2污染气体吸收光谱进行了测量。

    Pollutants such as SO 2 , NO and NO 2 are measured in ultra-violet band with Differential Optic Absorption Spectroscopy ( DOAS ) .

  9. 研究认为太阳常数的变化、大气Rayleigh散射和包括水汽在内的气体吸收的变化不是造成目前地面太阳辐射变化的主要因素。

    The changes in solar constant , Rayleigh scatting , permanent gas absorption and water vapor content are not the main factors of the changes observed in solar radiation .

  10. 大雅纳GX系列将气体吸收到油中,从而防止气体增加,最大程度地降低了爆炸危险。

    Diala GX absorbs the gas back into the oil , preventing gas build-up and minimising the danger of explosion .

  11. 本文运用可调谐半导体激光器吸收光谱技术(TDLAS)对气体吸收光谱进行研究。

    This thesis focuses on gas ab-sorption spectroscopy with tunable diode laser absorption spectroscopy , TDLAS .

  12. 遥测系统的实验装置由1.33μm高辐射InGaAsPLED、气体吸收室以及2km长的低损耗石英光纤网络组成。

    The experimental system consists of a high radiation InGaAsP LED at 1.33 μ m , a gas absorption cell and a 2-km long-distance low-loss silica optical fiber link .

  13. 采用染料激光器作为激励光源,用光纤位移传感器代替传统的微音器,测量被气体吸收并转变为声压信号,从而对SO2气体浓度进行测量。

    Using laser source as incentive light source , and using optical fiber sensor instead of traditional microphone measure the photoacoustic signal absorbed by SO_2 gas and the concentration of gas can be obtained .

  14. 用NaOH溶液处理CaO生成的改性石灰在350~760℃温度段对HCl气体吸收效率较原始石灰有显著的提高。

    When CaO is treated by NaOH solution modified lime was obtained and its retention capabilities for gaseous HC1 were enhanced as compared to the original lime within a temperature range of 350-760 # .

  15. 针对差分光学吸收光谱(DOAS)技术中气体吸收结构的重叠问题,提出利用卡尔曼滤波进行光谱校正。

    In order to overcome the overlapped absorption structures in differential optical absorption spectroscopy ( DOAS ), a method of spectrum correction based on Kalman filtering is developed .

  16. 结果表明:开断电流的大小对膨胀室内的压力有明显的影响,熄弧压力的建立是依靠PTFE蒸气和SF6气体吸收了电弧的能量来完成的。

    The results show that arc current has a significant influence on the pressure in the expansion volume . The pressure is boosted by both the PTFE vapour and SF_6 gas which absorb the arc energy .

  17. 结合气体吸收理论,搭建了基于FBG的气体浓度测试系统,分别对CO和C2H2气体浓度测量进行了实验研究,获得气体吸收特性,光谱吸收峰特征。

    According to the gas absorption attenuation theory , test system for gas concentration measurement was set up . CO and C2H2 gas concentrations were investigated experimentally , and absorption characteristics and absorption spectrum peak were obtained .

  18. 基于光谱吸收原理设计的CH4检测系统,气体吸收的信号比光源的噪声还要小,被淹没在背景噪声中。

    In the CH_ ( 4 ) detection system designed on the principle of spectrum absorption , the signal of gas absorption is even less than the noise of optical source , it is submerged in the background noise .

  19. 采用光吸收作用使放电气体吸收池电流改变,即光电压信号作为频率标准,对InGaAsP长波长半导体激光器进行稳频。

    The preliminary result of the frequency stabilization of an InGaAsP semiconductor laser using the optogalvanic effect of a gas absorption cell is reported . The optogalvanic signal of the discharge absorption cell is used as a frequency standard .

  20. 实验中,在高温实验平台上采用垂直腔面发射半导体激光器(VCSEL),通过波长调制光谱技术利用气体吸收光谱随温度变化的特性,对氧气的吸收光谱信号进行了二次谐波检测。

    Experiments in high-temperature experiment platform using vertical cavity surface emitting semiconductor laser ( VCSEL ), through the use of wavelength modulation spectroscopy gas absorption spectrum changes with temperature characteristics of oxygen absorption spectra of the second harmonic signal detection .

  21. 旋转填料床用于易溶气体吸收的传质性能研究

    Mass Transfer in Absorption of Soluble Gas with Rotating Packed Bed

  22. 气体吸收操作通常可分为物理吸收与化学吸收。

    Gas absorption is usually divined into physical absorption and chemical absorption .

  23. 基于光纤激光器的有源腔气体吸收测量网络

    Intra-Cavity Absorption Gas Measurement Network Based on the Fiber Lasers

  24. 减缓全球变暖与温室气体吸收汇研究进展

    Research Advances on mitigating global warming and greenhouse gas sequestration

  25. 高浓度气体吸收的计算机求解

    The calculation of high - concent ratio n gas absorption by computers

  26. 膜基气体吸收过程中活化剂的活化性能比较

    Comparison of Activating Performance of Activators in Membrane Gas Absorption

  27. 将温室气体吸收率最大的环境

    we 're taking the most concentrated greenhouse gas sink ,

  28. 聚四氟乙烯膜气体吸收数学模型和孔隙率的影响

    Mathematical Model of Gas Absorption for PTFE Membrane and the Effect of Porosity

  29. 同时,热区气体吸收了大量电弧能量。

    The gas in the TBR absorbs a large amount of are energy .

  30. 孔隙率对多孔膜气体吸收过程传质性能影响的研究

    Study of Porosity on the Mass Transfer Performance in Microporous Membrane Gas Absorption