绝热饱和温度

  • 网络Adiabatic Saturation temperature;adiabatic-saturation temperature;AAST
绝热饱和温度绝热饱和温度
  1. 干燥介质湿球温度与绝热饱和温度&经典论述的修正与补充

    Amendments on the Traditional Exposition of Wet-Bulb Temperature and Adiabatic Saturation Temperature of Drying Gas

  2. 化学计量比、烟气绝热饱和温度值、喷雾轮切向速度等因素,对脱硫的影响很大。

    Flue gas out-let temperature approcich to adiabatic saturation temperature and tangential velocity of spray whool etc.

  3. 利用MATLAB软件对湿空气湿球温度与其绝热饱和温度之间的偏差进行了计算。

    The deviation between the wet bulb temperature and the adiabatic saturated temperature of wet air was calculated utilizing MATLAB software .

  4. 煤气冷却的热力学极限是绝热饱和温度。

    The limit on thermodynamics for gas cooling is the adiabatic saturation temperatures .

  5. 提高聚氨脂保温直埋管接口安装质量关于绝热饱和温度的讨论

    On enhancing the installation quality of the joint of buried polyurethane heat - insulated pipe

  6. 关于绝热饱和温度的讨论

    On the Insulated Saturated Temperature

  7. 趋近绝热饱和温度越小,净化效率越高,即增湿水对净化有强化作用;

    The efficiency of decontaminating will be higher when the smoke temperature get nearer to the saturate temperature .

  8. 介绍了近绝热饱和温度在半干法烟气脱硫工艺中的概念。

    In this article , the conception of Approaches to the Adiabatic Saturaion Temperature ( AAST ) in semi-dry FGD process was explained in detail .

  9. 结果表明,绝热饱和温度差是影响脱硫效率的决定性因素,固体浓度是保证系统稳定运行的关键因素。

    The experimental results show that approach to saturation temperature is the key factor on efficiency and solid concentration is the important factor that affects the stability of system .

  10. 本文修正与补充了干燥介质湿球温度与绝热饱和温度的经典定义及论述,使其更加科学与严谨。

    Some amendments on the traditional exposition of wet-bulb temperature and adiabatic saturation temperature of drying gas have been made in this paper , which makes them both more scientific and rigorous .

  11. 分析了喷雾冷却的理论过程,指出绝热饱和温度是喷水使空气达到饱和湿空气状态的最低温度,并给出了编程计算绝热饱和温度的方法。

    The method of calculating the adiabatic saturated temperature by programming is given and the research shows that the adiabatic saturated temperature is the lowest temperature that makes the air saturated by spraying cooling system .

  12. 结果表明:对系统脱硫效率影响最显著的参数是脱硫塔出口趋近绝热饱和温度,其次为钙硫比。

    The result proves that the adiabatic saturation temperature at the desulphuration tower outlet has the most evident influence on the desulphuration efficiency of the system , and the ratio of calcium to sulfur comes next .