The objective of this work is to contribute an understanding of the effects of electrons in the plasmas on the mass transfer of plasma species in aqueous solution by means of the numerical simulation based on a one-dimensional diffusion-reaction model. The plasma species are divided into two groups, i.e. electrons and the other species, and the mass transfer in the three scenarios has been simulated, including the systematic calculations of the depth distributions of five major reactive species, OH, O 3 , HO 2 , ##IMG## [http://ej.iop.org/images/1009-0630/22/11/115504/pstabaaa4ieqn1.gif] {${{{\rm{O}}}_{2}}^{-},$} and H 2 O 2 . In the three scenarios, the particles considered to enter into aqueous solution are all the plasma species (the scenario I, where the mass transfer of plasma species is a result due to the synergy of the electrons and the other plasma species), the other species (the scenario II), and only electrons...

中文翻译：

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水溶液中等离子体物质传质中电子效应的数值研究

这项工作的目的是通过基于一维扩散反应模型的数值模拟来帮助理解等离子体中的电子对水溶液中等离子体物质质量传递的影响。等离子体物质分为电子和其他物质两类，并模拟了三种情况下的传质，包括系统计算五个主要反应性物质OH，O 3，HO 2的深度分布， ## IMG ## [http://ej.iop.org/images/1009-0630/22/11/115504/pstabaaa4ieqn1.gif] {$ {{{\ rm {O}}} _ {2}} ^ {-}，$}和H 2 O 2。在这三种情况下，被认为进入水溶液的颗粒都是血浆物种（情况I，