溶液酸度影响PAR的电离平衡和存在状态,因而影响散射光谱。
Acidity of the solutions influenced the acid-base equilibrium of PAR and its existing state, thereby (influenced) the RLS intensity.
具体研究内容如下:1、建立污水汽提塔的MESH方程组和化学平衡、电离平衡方程组;
To establish the equation groups about waste water stripping tower MESH and equationgroups including ionization balance, chemistry balance and phase balance.
本文对电离平衡反应用热力学进行了处理,推导出了计算平衡反应的平衡常数K_3的公式。
This paper deals with electro-ionization balance reaction based on thermodynamics and derives the formula of balance constant K3 for calculating balance reaction.
本文应用热学原理对氢硫酸的强度及逐级电离平衡进行了讨论,有助于无机化学教学和学生学习。
Acid intensity of hydrosulfuric acid and stepwise ionization balance were discussed by the use of thermodynamic principle, which are helpful to inorganic chemistry teaching.
本文以电离平衡理论为基础,研究影响其平衡的诸多因素,探索使其保持动力学平衡状态的方法。
This paper studied that the factors affecting the equilibrium or the ionization equilibrium and research the method of keeping the thermodynamic equilibrium.
本文首先实验测定了7 - ACA结晶热力学数据和粘度、密度、电离平衡常数等必要的基本物性数据。
First, the crystallization thermodynamic data and other basic physicochemical data of solution, such as viscosity, density of 7-aca solution and dissociation constants, were measured by experiments.
采用一维非平衡等离子体模型讨论了阴极区的等离子体性质,阴极区被分为电离区和空间电荷区。
The properties of the cathode fall region are discussed by applying one dimensional model of non equilibrium plasma region adjacent to an electric arc cathode.
电离辐射能够改变电极过程的性质,并能破坏其动力学的平衡。
Ionizing radiation can affect the characteristics of the electrode processes and disturb their kinetic equilibria.
随体系温度的升高,电离—复合平衡常数增大。
The ionization-recombination equilibrium constants increase with temperature.
本项工作从实验和理论两方面研究横向磁场对电离非平衡高速气流的作用。
The effects on a non-equilibrium, ionized, high-velocity gas stream of a strong magnetic field normal to the stream are studied by experiment and analysis.
由于传统的DBD在气体电离方法方面存在许多问题,致使大气压条件下放电空间内气体的电离度很低,无法满足非平衡等离子体化学工程的需要。
There are many unsolved problems in conventional DBD gas ionization technique, resulting in lower gas ionizability, which cannot be used in non-equilibrium plasma chemistry.
由于传统的DBD在气体电离方法方面存在许多问题,致使大气压条件下放电空间内气体的电离度很低,无法满足非平衡等离子体化学工程的需要。
There are many unsolved problems in conventional DBD gas ionization technique, resulting in lower gas ionizability, which cannot be used in non-equilibrium plasma chemistry.
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