A novel high-efficiency stable atmospheric microwave plasma device for fluid processing based on ridged waveguide

微波食品加热 波导管 等离子体 材料科学 材料加工 光学 光电子学 物理 工程类 工艺工程 量子力学
作者
Wei Xiao,Kama Huang,Jianbo He,Ying Wu
出处
期刊:Journal of Physics D [Institute of Physics]
卷期号:50 (38): 385201-385201 被引量:5
标识
DOI:10.1088/1361-6463/aa82fe
摘要

The waveguide-based microwave plasma device is widely used to generate atmospheric plasma for some industrial applications. Nevertheless, the traditional tapered waveguide device has limited power efficiency and produces unstable plasma. A novel ridged waveguide with an oblique hole is proposed to produce microwave atmospheric plasma for fluid processing. By using the ridged waveguide, the microwave field can be well focused, which can sustain plasma at relatively low power. Besides, an oblique hole is used to decrease the power reflection and generate a stable plasma torch especially in the case of high flowing rates. Experiments have been performed with the air flowing rates ranging from 500 l h−1 to 1000 l h−1 and the microwave working frequency of 2.45 GHz. The results show that in comparison with the conventional tapered waveguide, this novel device can both sustain plasma at relative low power and increase the power transfer efficiency by 11% from microwave to plasma. Moreover, both devices are used to process the waste gas-CO and CH4. Significantly, the removal efficiency for CO and CH4 can be increased by 19.7% and 32% respectively in the ridged waveguide compared with the tapered waveguide. It demonstrates that the proposed device possesses a great potential in industrial applications because of its high efficiency and stable performance.
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