The Production of Industrial-Grade Oxygen from Air by Pressure Swing Adsorption

IF 2.3 4区 工程技术 Q3 ENGINEERING, CHEMICAL International Journal of Chemical Engineering Pub Date : 2023-01-19 DOI:10.1155/2023/2308227
Cynthia Chin, Z. Kamin, M. H. V. Bahrun, A. Bono
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引用次数: 2

Abstract

Oxygen, an odorless and colorless gas constituent of the atmosphere, is a vital gas component for the Earth, as it makes up 21% of the composition of the air we breathe. Apart from the importance of oxygen for human breathing, its highly pure form is demanding for industrial applications. As such, several technologies have been established to increase the oxygen purity from 21% to somewhat higher than 95%. One of the competitive technologies for producing this high-purity oxygen from the air is through pressure swing adsorption (PSA), which has the advantages of low cost and energy while being highly efficient. Also, PSA is a simple and flexible system due to its ability to start up and shut down more rapidly since its operation occurs at ambient temperature, which is enabled through the use of adsorbents to bind and separate the air molecules. The enhancement of the PSA’s performances was reported through the modification of PSA step cycles and material (zeolite) tailoring. A simplified complete set of a mathematical model is included for modelling the PSA system, aiming to ease the experimental burden of the process design and optimization of an infinite modification of PSA step cycles. Finally, some technological importance of oxygen production via PSA, particularly for onboard oxygen generation system and oxy-enriched incineration of municipal solid waste, was discussed. Continuous development of PSA will make significant contributions to a wide range of chemical industries in the near future, be it for oxygen production or other gas separation applications.
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变压吸附法从空气中生产工业级氧气
氧气是大气中的一种无色无味的气体,是地球的重要气体成分,因为它占我们呼吸的空气成分的21%。除了氧气对人类呼吸的重要性外,其高度纯净的形式对工业应用也有很高的要求。因此,已经建立了几种技术来将氧气纯度从21%提高到略高于95%。从空气中生产这种高纯度氧气的竞争性技术之一是通过变压吸附(PSA),该技术具有低成本和节能的优点,同时效率高。此外,PSA是一个简单而灵活的系统,因为它能够更快地启动和关闭,因为它的操作是在环境温度下进行的,这是通过使用吸附剂来结合和分离空气分子来实现的。通过对PSA阶跃循环的改性和材料(沸石)的裁剪,提高了PSA的性能。为了减轻PSA阶跃循环无穷次修正过程设计和优化的实验负担,本文提出了一套简化的PSA系统数学模型。最后,讨论了PSA制氧技术的重要性,特别是对车载制氧系统和城市生活垃圾富氧焚烧的重要性。PSA的不断发展将在不久的将来为广泛的化学工业做出重大贡献,无论是氧气生产还是其他气体分离应用。
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来源期刊
International Journal of Chemical Engineering
International Journal of Chemical Engineering Chemical Engineering-General Chemical Engineering
CiteScore
4.00
自引率
3.70%
发文量
95
审稿时长
14 weeks
期刊介绍: International Journal of Chemical Engineering publishes papers on technologies for the production, processing, transportation, and use of chemicals on a large scale. Studies typically relate to processes within chemical and energy industries, especially for production of food, pharmaceuticals, fuels, and chemical feedstocks. Topics of investigation cover plant design and operation, process design and analysis, control and reaction engineering, as well as hazard mitigation and safety measures. As well as original research, International Journal of Chemical Engineering also publishes focused review articles that examine the state of the art, identify emerging trends, and suggest future directions for developing fields.
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