高气压非平衡等离子体化学具有极其广阔的应用前景。
Non equilibrium plasma chemistry at high pressure has wide application prospects.
本文对非平衡等离子体处理柴油机尾气的技术做了探索性研究。
In this thesis, the emission control technique by using nonequilibrium plasmas is investigated experimentally.
研制了常压非平衡等离子体实验系统,并对实验系统进行了优化。
An experimental system for atmospheric pressure non-equilibrium plasma had been established and optimized.
介质阻挡放电是一种较高气压范围下产生非平衡等离子体的放电方式。
The dielectric barrier discharge (DBD) can produce non-equilibrium plasma at about atmospheric pressure.
提出了用高压毫微秒脉冲产生的非平衡等离子体处理印染废水的方法。
A new method, that dyeing wastewater is treated by nonequilibrium plasma produced by high voltage pulse, is proposed.
利用介质阻挡放电,在自行研制的设备上进行常压非平衡等离子体渗氮。
Using dielectric barrier discharge (DBD), atmospheric pressure non equilibrium plasma nitriding technology is under development at self made equipment.
探讨了自由基与非平衡等离子体脱硝过程中自由基的产生机制及反应过程;
The creation mechanism and reaction process of free radicals in denitration process using free radicals and non-equilibrium plasma were discussed.
利用介质阻挡放电,在自行研制的设备上进行常压非平衡等离子体渗氮的研究。
By using medium to stop discharging, the non-equilibrium plasma nitriding under normal pressure can be made in self developed equipment.
大气压非平衡等离子体由于其巨大的应用前景正成为等离子体物理学界关注的热点领域。
In recent years, the plasma physics scientific community has paid much attention to the development of atmospheric pressure, non-equilibrium plasma sources.
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.
采用常压非平衡等离子体进行了金属表面的渗扩处理和纳米粉体材料的制备研究,提出了相应的技术原理。
Studies on nitriding and nanoscale powder preparation by atmospheric pressure non-equilibrium plasma were conducted, and the corresponding principles and technology were got thereby.
大量水滴尤其是雾状水滴的存在,将诱发多处新增电晕区而导致整个反应器内可能有非平衡等离子体反应。
Lots of drips in the air reactor, especially the spray may induce many new corona areas and result in the reaction of non-thermal plasma in the whole area of the reactor.
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.
由于等离子体中心区域自举电流比较小,为了满足等离子体平衡要求,非感应电流驱动是必不可少的。
Because of the low bootstrap current in central area of plasma, the non-induced current driving is necessary for the request of plasma balance.
用一个收敛很快的级数构造了非圆截面、线性电流分布环形等离子体的磁流体平衡解。
The MHD equilibrium solutions of a toroidal plasma with non-circular cross-section and linear current distribution are written in terms of a fast convergent series.
用一个收敛很快的级数构造了非圆截面、线性电流分布环形等离子体的磁流体平衡解。
The MHD equilibrium solutions of a toroidal plasma with non-circular cross-section and linear current distribution are written in terms of a fast convergent series.
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