介绍了低温等离子体技术的基本特点。
The low temperature plasma technique and its essential characteristic were introduced.
等离子体技术越来越受到人们的重视。
介绍了低压等离子体技术及其涂层设备。
The low pressure plasma technology and coating equipment were introduced.
简要介绍了等离子体技术和微细加工技术。
Plasma technology and micro process technology are presented simply.
介绍了低压真空等离子体技术及表面处理设备。
Low pressure plasma technology and the device for surface treatment were introduced in the article.
放电等离子体技术在净化居室环境方面具有独特的作用。
The technology of discharge plasma has its unique effect on the cleaning of indoor environment.
等离子体技术是一种改善纺织纤维表面性能的有效方法。
Plasma technology is an effective method to improve textile fiber surface properties.
低温等离子体技术包括热等离子体技术和冷等离子体技术。
Low temperature plasma technology consists of hot plasma technology and cold plasma technology.
利用液中放电等离子体技术对TNT模拟废水进行降解研究。
Degradation of TNT wastewater by the electro - hydraulic discharge plasma technique was investigated.
等离子体寻址液晶(palc)技术是等离子体技术的变种。
Plasma addressed liquid crystal (PALC) technology is a variation of plasma technology.
结合等离子体技术的新型微波器件,其性能可以获得巨大改善。
Novel microwave devices with plasma technologies have a great advance in performance.
但是将等离子体技术用于降解废水中有机有毒物质的研究才刚刚起步。
But it recently start that plasma induced degradation of organic toxicant of wastewater.
这意味着从现在开始我们教授如何带来这个等离子体技术不同类型的应用。
This means from now on we teach how to apply different type of technologies which the plasma will bring.
着重总姑了微波等离子体技术、水等离子体技术、填充床等离子体技术等。
Such technologies as microwave plasma, water plasma and packed-bed plasma were discussed.
等离子体技术以其非常规的手段运用到化工中,给整个化工带来了新的生机。
Plasma technology is an abnormal instrumentality for chemical engineering and brings new vital force.
本文利用冷等离子体技术对石墨纤维表面进行了连续空气冷等离子表面处理。
In this paper, the surface of graphite fiber is treated continuously by using air-cold plasma.
等离子体技术正以其优越性在高聚物材料表面改性方面得到越来越广泛的应用。
Plasma technology has been applied in polymer material surface modification more and more extensively.
等离子体技术和生物酶减量技术以其高效和对环境友好的特点成为研究的重点。
Because the plasma and enzymes are efficient and environment friendly, they become a hot point of research.
低温等离子体技术与选择性催化还原技术相结合是降低稀燃发动机排放的有效方法。
Combination of low temperature plasma technology with the selective catalytic reduction technology is the effective method to reduce emissions for lean combustion engine.
介绍了低温等离子体技术在抗静电、阴燃、拒水拒油、抗菌及其他功能性整理中的应用。
Its application in textile antistatic, flame-retardant, water-and oil-repellent, antibacterial, and other functional finishing was summarized.
低温等离子体技术具有处理效率高、成本低、不产生二次污染等优势,具有较好的应用前景。
Non-thermal plasma technology has promising prospects with the advantages of high efficiency, low cost and no secondary pollution.
用低压等离子体技术对气体和液体过滤介质进行处理,可提高过滤介质的质量且可降低生产成本。
The gas and liquid filter media treated by low pressure plasma technology have good quality and low production cost.
等离子体中离子、原子或分子具有高的反应活性,等离子体技术在金刚石薄膜的制备中有着广泛应用。
Plasma includes many reactive species such as ions, atoms and molecules, and as result it has wide applications in the preparation of diamond films.
文章主要简述了等离子体技术的概念、提高纺织品的染色性能的处理方法、原理及其在各种纤维上的应用。
In this paper, the concept, the treatment method, and the mechanism of plasma technology to improve the dyeability of textiles were discussed.
以燃料和空气混合物为工质的燃烧反应性电弧等离子体在燃烧技术和等离子体技术中都有广泛的应用前景。
Electric arcs in combustible gas mixtures, as a high temperature source in combustion and plasma technology, have a great deal of advantages in comparison with those in noble gases.
本文综述了低温等离子体技术治理气态污染物及其反应装置的研究状况与技术优势,并展望了其应用前景。
This article summarizes the progress in the treatment of gaseous pollutants using non-thermal plasma, the status of the plasma reactor as well as the prospect of application.
本文综述了低温等离子体技术治理气态污染物及其反应装置的研究状况与技术优势,并展望了其应用前景。
This article summarizes the progress in the treatment of gaseous pollutants using non-thermal plasma, the status of the plasma reactor as well as the prospect of application.
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