Activated carbon cloth adsorption-cryogenic system to recover toxic volatile organic compounds

Gas Separation & Purification Pub Date : 1996-06-01 DOI:10.1016/0950-4214(96)00008-4

Mehrdad Lordgooei, Kelly R. Carmichael, Terrance W. Kelly, Mark J. Rood, Susan M. Larson

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引用次数: 47

Abstract

There is an emergent need to reduce the emissions of toxic volatile organic compounds (VOCs) to the atmosphere. One strategy to reduce the emissions of VOCs from point sources is to use air pollution control devices on the sources' discharge streams. This paper describes the development of a new activated carbon cloth (ACC) adsorption system that is integrated with cryogenic vapor recovery to reduce the amount of VOCs emitted to the atmosphere from point sources and provide for reuse of the VOCs that are recovered. Electrical current is used to regenerate the ACC. ACC adsorption followed by electrothermal regeneration results in formation of a concentrated organic vapor which is cryogenically condensed from the gas phase. Electrothermal desorption allows for careful control of the desorption time and the concentration profile of the desorbed VOC to allow minimal use of cryogen. Adsorption, followed by cryogenic treatment enables VOC sources to meet air quality control regulations while providing a high quality liquid VOC product for reuse.

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活性炭布吸附-深冷系统回收有毒挥发性有机化合物

迫切需要减少有毒挥发性有机化合物(VOCs)向大气的排放。减少点源挥发性有机化合物排放的一个策略是在点源的排放流上使用空气污染控制装置。本文介绍了一种新型活性炭布(ACC)吸附系统的开发，该系统与低温蒸汽回收相结合，以减少从点源排放到大气中的VOCs量，并提供回收的VOCs的再利用。电流用于ACC的再生。ACC吸附后电热再生形成了由气相低温冷凝而成的浓缩有机蒸汽。电热解吸允许仔细控制解吸时间和解吸VOC的浓度分布，以允许最小限度地使用冷冻剂。吸附，然后深冷处理使VOC源符合空气质量控制法规，同时提供高质量的液体VOC产品供重复使用。

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Gas Separation & Purification

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