Membrane-Based Integrated Absorption−Oxidation Reactor for Destroying VOCs in Air
This proof-of-concept research describes a novel membrane-based, integrated absorber−reactor operat ing at ambient temperature and atmospheric pressure. It degrades volatile organic compounds (VOCs) in a gaseous stream by ozonation in an inert stagnant fluorocarbon (FC) phase having a high ozone sol...
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Veröffentlicht in: | Environmental science & technology 1996-12, Vol.30 (12), p.3435-3440 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | This proof-of-concept research describes a novel membrane-based, integrated absorber−reactor operat ing at ambient temperature and atmospheric pressure. It degrades volatile organic compounds (VOCs) in a gaseous stream by ozonation in an inert stagnant fluorocarbon (FC) phase having a high ozone solubility. This FC phase acts as a reaction medium and a liquid membrane. The reactor has two sets of nonporous silicone capillaries. The VOC-containing gas flows through one set and supplies the VOC to the FC phase. The O3−O2 stream flowing through the other supplies O3 to the FC phase. There is also a set of mi- croporous Teflon tubules through which water flows removing oxidation products partitioning from the FC phase. With trichloroethylene (TCE), 60% conversion was obtained for 50 000 ppmv TCE in N2 flowing at 30 cm3/min and 40% for 18 000 ppmv flowing at 50 cm3/min. For 220 ppmv TCE feed, 90% conversion was obtained at 20 cm3/min flow rate and 60% at 60 cm3/min. A conversion in excess of 97% was achieved for a toluene feed of 205 ppmv present in N2 flowing at 11 cm3/min. No FC phase regeneration is required; it is constantly cleaned by the ozonation reactions. The materials of construction were found to hold up well under repeated experimentation. |
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ISSN: | 0013-936X 1520-5851 |
DOI: | 10.1021/es950916j |