NEWS CENTER

大发棋牌下载

  • 等离子净化器的净化机理
  • 本站编辑:杭州瑞茂环保技术有限公司发布日期:2019-10-18 17:05 浏览次数:

净化机理

等离子体化学反应过程中,等离子体传递化学能量的反应过程中能量的传递大致如下:

大发棋牌下载(1) 电场+电子→高能电子

(2) 高能电子+分子(或原子)→(受激原子、受激基团、游离基团) 活性基 团

(3) 活性基团+分子(原子)→生成物+热

大发棋牌下载(4) 活性基团+活性基团→生成物+热

从以上过程可以看出,电子首先从电场获得能量,通过激发或电离将能量转移到分子或原子中去,获得能量的分子或原子被激发,同时有部分分子被电离,从而成为活性基团;之后这些活性基团与分子或原子、活性基团与活性基团之间相互碰撞后生成稳定产物和热。另外,高能电子也能被卤素和氧气等电子亲和力较强的物质俘获,成为负离子。这类负离子具有很好的化学活性,在化学反应中起着重要的作用。


Purification mechanism
During the plasma chemical reaction, the energy transfer during the plasma transfer chemical energy reaction is roughly as follows:
(1) Electric field + electron → high-energy electron
(2) High-energy electrons + molecules(or atoms) →(stimulated atoms, stimulated groups, free groups) active groups
(3) Active group + molecule(Atom) → generator + heat
(4) Active group + active group → generator + heat
From the above process, it can be seen that electrons first obtain energy from the electric field, transfer energy to molecules or atoms by excitation or ionization, the molecules or atoms that obtain energy are excited, and some molecules are ionized to become active groups; These active groups then collide with molecules or atoms, active groups and active groups to form stable products and heat. In addition, high-energy electrons can also be captured by substances with strong electron affinity such as halogen and oxygen, becoming anion. These negative ions have good chemical activity and play an important role in chemical reactions.

秒速时时彩 大发棋牌下载 9号福彩网 比特棋牌游戏 秒速时时彩 秒速时时彩 比特棋牌官网 比特棋牌 秒速时时彩 秒速时时彩