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.
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.
常压非平衡态等离子体降解挥发性烃类污染物。
The degradation of volatile hydrocarbon waste gases by non-equilibrium plasma in normal-pressure.
催化剂的加入可提高等离子体反应中污染物的脱除效率和二氧化碳的选择性,减少副产物的产生,并进一步降低能耗。
Catalyst could enhance pollutants removal efficiency and selectivity to carbon dioxide in the plasma reaction, inhibit by-products formation and lower energy consumption.
低温等离子体技术对挥发性有机物的去除具有去除率高、无二次污染物产生、易操作等优点,该技术的研究和应用受到广泛的关注。
Cold plasma technology used for the decomposition of Volatile Organic Compounds (VOCs) has many advantages, such as high removal efficiency, none secondary pollutant producing and operating easily.
低温等离子体技术对挥发性有机物的去除具有去除率高、无二次污染物产生、易操作等优点,该技术的研究和应用受到广泛的关注。
Cold plasma technology used for the decomposition of Volatile Organic Compounds (VOCs) has many advantages, such as high removal efficiency, none secondary pollutant producing and operating easily.
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