氧化汞

  • 网络MERCURIC OXIDE;mercury oxide;HgO
氧化汞氧化汞
  1. 此种滞后现象是由氧化汞电极所产生的。本工作应用恒电流和动态恒电位等极化方法研究氧化汞电极的电极反应。

    As proved by previous work , the delay phenomenon is caused by the mercuric oxide electrode , but not the cadmium electrode .

  2. 少于8%的氧化汞可以被还原为单质状态的汞,这种转化与浆液中硫酸氢根离子和金属离子有关,较高的SO2浓度有利于促进氧化汞还原作用的发生。

    Less than 8 % mercury oxide can be reduced to elemental mercury , influenced by HSO ~ - _4 ions and metal ions present in the liquid ; a higher SO_2 concentration boosts the reduction of mercury oxide .

  3. 烟气在经过ESP前后,汞的分布形态发生了较大的变化,其中氧化汞的浓度下降,元素汞的浓度上升,ESP对汞的综合脱除效率约为36.28%。

    Results show that the mercury speciation distribution varies greatly when the flue gas flows through the ESP. The concentration of the oxidized mercury decreases and that of the elemental mercury increases , resulting in an overall mercury removal efficiency of 36.28 % .

  4. 镉-氧化汞电池低温放电电压滞后现象的研究

    Studies on the voltage delay of CADMIUM-MERCURIC oxide cells at low temperatures

  5. 汞电极在含氧化汞氢氧化钾溶液中的动力学

    The kinetics of mercury electrode in potassium hydroxide solution containing mercuric oxide

  6. 氯化亚汞,甘汞,一氧化汞基于电流极性比较的抗电流互感器饱和新方法

    A Novel Method for Current Transformer Saturation Countermeasure Based on Comparing Two Currents ' Polarities

  7. 巯基功能化沸石吸附Hg~(2+)特征及固化/稳定化含汞废物研究氯化亚汞,甘汞,一氧化汞

    Characteristics of mercury sorption and stabilization / solidification of mercury-contaminated hazardous wastes by thiol-functionalized zeolites

  8. 铝合金硫酸阳极氧化膜棕红色印迹成因分析氯化亚汞,甘汞,一氧化汞

    Formation analysis of brown red spots on the surface of sulfuric acid anodic oxide film on aluminium alloy

  9. 指出除尘和脱硫设备的应用能有效地促使元素汞向氧化汞的转化,并提高汞的脱除效率。

    It concluded that the application of ESP and FGD could efficiently push the conversion from elemental mercury to oxidized mercury and increased greatly the mercury removal .

  10. 镉-氧化汞扣式碱性电池在低温(如-40℃)放电时有较严重的电压滞后现象。

    The voltage delay of the 70 mah cadmium-mercuric oxide button cell was severe at low temperatures , especially when it was kept several hours at - 40 ℃ .

  11. 结果表明:氧化汞-水玻璃涂料、刚玉粉-磷酸铝涂料、石英粉-磷酸铝涂料是高炉冷却壁内冷却管防渗碳性能较好的材料。

    The result shows that each of the mixtures of mercury oxide-water-glass , alundum powder-aluminium phosphate and silica flour-aluminium phosphate can be used as coating for cooling pipes cast in blast furnace cooling staves .