臭氧分子

  • 网络ozone molecule
臭氧分子臭氧分子
  1. pH值可大幅度地改变反应的速率常数,碱性条件下溶解的臭氧分子分解生成羟基自由基,进而促进与底物反应。

    The pH value could change the constant reaction rate on a large scale . Dissolved ozone molecules decompose to hydroxyl radical to promote the reaction process at alkalinity solutions .

  2. 简介了臭氧分子的结构。

    In this paper , The structure of ozone molecule is introduced concisely .

  3. 在臭氧化降解2,4-D的过程中,臭氧分子与2,4-D的直接反应是酸性条件下2,4-D降解的主要原因。

    During the ozonation of 2,4-D , the direct reaction between 2,4-D and ozone is the main reason of 2,4-D degradation in acidic solution .

  4. 与氧原子、普通氧分子O2和臭氧分子O3的计算结果比较,显示O4分子可以以正方形结构或正四面体结构形式存在,其中正方形结构更有可能是O4分子的真实空间结构。

    Compared with the calculated results of oxygen atom , molecules O_2 and O_3 , it is found that both geometric structures of O_4 are possible , but the structure of square is more favorable .

  5. 一个氯分子可以分解十万多个臭氧分子。

    Onechlorinemolecule can break apart more than one hundred thousandozonemolecules .

  6. 科学家估计一个氯原子能破坏10万个左右的臭氧分子。

    Scientists estimate that one chlorine atom can destroy as many as 100,000 ozone molecules .

  7. 然后,氯原子就可以自由地与臭氧分子反应,结合一个氧原子,形成一氧化氯。

    The chlorine atom is then free to react with an ozone molecule , taking one of the oxygen atoms to form chlorine monoxide .

  8. 当溶液中含有大量的自由基清除剂时,2,4,6-三氯酚首先被臭氧分子氧化成黄色的氯代对苯醌,然后氧化成甲酸和乙二酸。

    With the inhibition of OH · radicals , ozone molecule firstly destroyed 2,4,6-TCP to form chlorinated quinone , which was subsequently oxidized to formic acid and oxalic acid .

  9. 微波协同臭氧/分子筛催化降解水中微量的硝基苯

    Microwave cooperate with ozone / molecular sieve to catalysing and degradation trace nitrobenzene in water

  10. 在这种云表面化学反应会产生一种破坏臭氧层的分子。

    The clouds form surfaces where chemical reactions can take place that produce ozone-destroying molecules .

  11. 接着这些高能电子与产生的氧等离子体和臭氧将二氧化硫分子氧化。

    Secondly molecules of sulfur dioxide are oxidized into sulfur trioxide by those particles , which are including ozone and oxygen plasma .

  12. 这可能是由于气体中的水分子对自由电子与氧原子的消耗造成的;羟基也会与臭氧反应使臭氧分子的分解,分解程度与气体停留时间有关。

    The possible reasons are the consumptions of electrons and oxygen atoms by water molecules , and the decompositions of ozone caused by hydroxyl which have something to do with the residence time of gas .

  13. 其中的样气与臭氧的混合用双层喷嘴结构完成,可以使一氧化氮分子与臭氧分子在新型化学反应室内全面迅速发生化学反应,从而提高化学发光效率;

    The mixing of sample gas with ozone is carried out with a double-nozzle structure and a chemical reaction of NO molecules with ozone molecules can be entirely and rapidly performed in a novel chemical reaction chamber . In this way chemiluminescene efficiency is improved .