Reactors Effects on Microwave Decontamination of Oily Wastes in a Multimode Cavity

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Hui Shang, Samuel W. Kingman, Colin E. Snape, John P. Robinson
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引用次数: 5

Abstract

Three reactors were designed and used for the microwave remediation of oil-polluted wastes in a high-power microwave multimode cavity; a pressure model was also built based on reactor shapes and sizes. It was found that the reactor shape and size can extremely affect the electric field strength and distribution and, therefore, the efficiency of oil removal from the wastes. The reactor size would affect the pressure produced during treatment and thus affect the boiling point of the oil. The sweet gas distribution is also a factor for oil removal, although the flow rate has little effect on the oil removal when a uniform distribution is applied with a specific reactor. It was verified that multimode cavities are best-suited for big volume samples, in the case of uniform heating.

反应器对多模腔中含油废物微波去污的影响
设计了3个高功率微波多模腔对含油垃圾进行微波修复的反应器;根据反应堆的形状和大小,还建立了一个压力模型。研究发现,反应器的形状和尺寸对电场强度和电场分布有极大的影响,从而影响废油的脱油效率。反应器的大小会影响处理过程中产生的压力,从而影响油的沸点。甜气分布也是影响除油的一个因素,尽管在特定反应器中采用均匀分布时,流量对除油的影响很小。结果表明,在均匀加热的情况下,多模腔最适合于大体积样品。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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