蒸发池

  • 网络evaporation pond;evaporation tank
蒸发池蒸发池
  1. 从建设节约型社会的观点出发,提出将高速公路上传统的开敞式蒸发池设计模式改为地埋式蓄水窖,充分集蓄利用雨水资源,以灌溉道路两侧农田内的经济作物或路域内绿化植物。

    From the viewpoint of building an " economical society ", this paper proposes that a traditional open evaporation tank for expressway construction changes to a buried storage tank so as to make full use of rainwater for irrigation of roadside fields or plants along the expressways .

  2. 验证流域潜在蒸散量需要把流域站点20cm口径的蒸发皿蒸发量转换成大型蒸发池蒸发量。

    The station 's 20 cm-diameter evaporation pan evaporation capacity is converted to that of large-sized evaporation tank .

  3. 估算表明:蒸发池运行所致最大个人年危险为6.5×10~(-9);20km半径范围内总的集体年危险为3.2×10~(-5)人。

    The estimated results of radiation health risk show that the maximum individual annual risk is 6.5X 10-9 and the total collective annual risk within a radius of 20 km is 3 . 2 X 10-5 person , which are caused by operation of the evaporating ponds .

  4. 20m~2蒸发池水体冻结特征分析

    Study on Freeze Characteristic of Water in 20m ~ 2 Evaporation Pool

  5. 高速公路蒸发池设计改革模式

    Design Innovation of Evaporation Tanks for Expressways

  6. 介绍了某天然蒸发池放射性废液蒸发量模拟实验、现场采样监测、释放源强估算方法及辐射健康危害评价的结果。

    The results of simulated experiments , field monitoring and radiation health risk evaluation of radionuclides transport to the atmosphere from the natural evaporating ponds of a certain nuclear factory , and the estimating method of releasing source strength are presented .

  7. 样品经电热蒸发进入反应池与活化氮混合,通过活化氮亚稳态能量转移过程被激发。

    Then mercury is excited during metastable energy transfer emission process of the active nitrogen .

  8. 计及冷凝段换热特性和热管几何尺寸的影响,借助定量分析给出热管工作时蒸发段液池液位变化的预测式。

    The variation in the liquid level of the pool must be defined in order to analysis correctly the heat transfer in the evaporator .

  9. 横断山区中华姬鼠的体温调节和蒸发失水(窑池的)温度调节区

    Thermoregulation and evaporative water loss in Apodemus draco from the Hengduan Mountains region

  10. 2)加入其它低熔点金属与铀共蒸发,使熔池内合金熔点降低,提高蒸发力度,蒸发面积仅增加了25%,而蒸发量提高到5.3倍(加入20%Bi金属)。

    The results further show that adding some low melting point metal decreases the alloy melting point and enhances the evaporation . The amount of evaporation increases 530 % with only 25 % more evaporation area when 20 % Bi is added .