气体温度

  • 网络gas temperature;Gas temp
气体温度气体温度
  1. Fuzzy控制方法及其在气体温度控制的运用

    Fuzzy Control and Its Application in Gas Temperature Control

  2. 空间载波相移法用于全息CT测量气体温度场

    Spatial carrier phase-shifting method to the holographic CT measurement of gas temperature field

  3. 气体温度上升致使气体膨胀。

    A rise in the temperature of the gas results in its expansion .

  4. 基于ARM的高温气体温度测试系统

    High-temperature detecting system based on ARM

  5. 用振动Raman效应测量气体温度

    The measurement of gas temperature from vibrating Raman effect

  6. 傅里叶变换红外光谱(FTIR)测量热气体温度

    Measuring the Temperature of Hot Gas by FTIR Spectrometry

  7. 在z方向随z增大气体温度增加;

    The gas temperature in the tin bath decreases with the increasing x , and increases with the increasing z.

  8. 用热膨胀法测量He-Ne增益管正柱区的气体温度

    Measurement of gas temperature in the positive column region of He-Ne gain laser tubes by thermal expansion method

  9. 氧疗气体温度对呼吸系统感染性疾病病人影响的研究CH4吸收通量与气温和地温有较好的

    Study on influence of gas temperature of oxygen therapy on patients with respiratory system infectious diseases

  10. 当工作气体温度变化时,脉冲TEACO2激光器的输出波长也可能发生变化,此现象称为输出波长的温度漂移。

    The output wavelength would change according to the change of the temperature of the gas mixture in a pulsed TEA CO_2 laser , which is called the wavelength-temperature shift .

  11. 采用蒙特卡罗方法,模拟研究了氮直流辉光放电电子碰撞、离解和N+2电荷交换离解过程,产生的活性粒子(N+,Nf)轰击阴极壁的能量分布随放电气体温度的变化规律。

    Law of active species ( N + , N f ) energy distribution with discharge temperature changing at cathode well of nitrogen glow discharge is studied .

  12. 在超声温度测量系统中,应用数字移相技术,结合现场可编程门阵列器件(FPGA)设计了一个高速计数器,实现燃烧气体温度的快速、准确测量。

    Applying digital drift-phase technology and FPGA , the paper designs a high-speed counter in the ultrasonic temperature measurement system . The purpose of measuring combustion gas temperature quickly and exactly can be achieved .

  13. 实验结果表明,对快响应气体温度控制系统来说,参数自整定FUZZY-PID控制策略是可行的、合理的。

    The experimental results show that it is practicable and reasonable to adopt the self-regulating fuzzy algorithm of PID control strategy in fast-response gaseous temperature control system .

  14. GIS内部故障电弧会导致壳体熔融甚至烧穿,电弧能量会使SF6气体温度升高从而导致压力升高致使壳体塑性变形甚至爆炸。

    GIS internal fault arcs cause shell in molten state or burn out . Arc energy will make temperature and pressure of the SF6 gas increase , causing shell plastic deformation even explosions .

  15. 考察膜两侧压力差、进气流量、气体温度、H2S浓度等操作参数对脱硫效率和烃损失率的影响。

    The influence of some factors on sulfur removal efficiency was studied , such as gas pressure difference between membrane , gas flow ratio , gas temperature and H2S concentration .

  16. 当气体温度升高至343K时,氧气的富集量降至0.32%;

    When the gas temperature rises to 343K , the enrichment degree drops to 0.32 % ;

  17. 通过观察冷喷涂Ni粒子和Cu合金粒子碰撞基板后的变形形貌研究了气体温度和基板硬度对粒子变形结合行为的影响。

    The effects of gas temperature , substrate hardness on the deformation and deposition behaviors of the cold-sprayed Ni , Cu alloy particles were investigated by observing their impacted morphologies . With the aid of OM , SEM , TEM , EPMA , micro-hardness and tensile tester , etc.

  18. 在距洗涤冷却环下方约0.15m处,气体温度已降至热质传递的平衡值附近。

    At the distance of about 0.15 m from the scrubber-cooling ring , the gas temperature is developed .

  19. 在活性氮粒子(N+,Nf)产率最高的放电条件下,适当降低放电气压,提高阴极位降和气体温度,有利于两种活性氮粒子(N+,Nf)达到阴极。

    Under the condition corresponding to the highest creation rate of active species ( N + , N f ), Suitable decrease in gas pressure , and increase in discharge voltage and gas temperature will be beneficial to the active particles reaching a cathode .

  20. 本文通过计算机模拟研究,利用气体温度场的先验知识,考查了用光束偏转层析技术重建三维温度场的基于卷积反投影的三种Radon变换迭代法。

    In this paper , the reconstruction precision of three methods of Radon transform iteration based on convolution backprojection , which are used for reconstructing 3 D temperature fields by beam deflection optical tomography , have been studied by computer simulation with the prior knowledge of these fields .

  21. 在此基础上,对水吸收工艺进行了灵敏度分析,包括吸收剂温度、VLA气体温度和浓度、吸收液回流位置、回流比和温度对吸收效果的影响。

    For water absorption unit , the operating parameters include absorbent temperature , VLA gas temperature and concentration , the absorption liquid recycle position , reflux ratio and reflux temperature .

  22. 坦克射击过程中炮膛内火药气体温度计算

    Calculation of Powder Gas Temperature in Tank Gun Bore during Firing

  23. 铂电阻瞬态气体温度传感器研制及试验验证

    Development and Experimental Investigation On the Pt-Film Gas Instantaneous Temperature Sensor

  24. 燃油管道式烘丝机工艺气体温度控制的改进

    Improvement of Process Gas Temperature Control in Oil-fueled Pneumatic Tobacco Drier

  25. 径向剪切干涉法测量气体温度场

    Radial shearing interferometry for measuring the gas tempetature field plunge-cut gear-shaving process

  26. 气体温度高精度实时控制的实验研究

    Experimental Research on High Precision Real-time Control of Air Temperature

  27. 温度传感器测量气体温度的误差

    Errors of the Gas Temperature Measured by the Temperature Sensors

  28. 夹层全息术及在气体温度场计量中的应用

    Sandwich Holography and Ifs Application to Measurement of Temperature Fields in Gases

  29. 用激光散斑干涉术测定气体温度场

    Using laser speckle interferometry to measure the temperature of gases

  30. 此外,还对石英管内的气体温度进行了估算。

    The gas temperature in discharge tube is also estimated .