Removal of volatile organic compounds using fixed bed adsorption: optimization using Taguchi methodology and grey relational analysis

IF 3 4区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES International Journal of Environmental Science and Technology Pub Date : 2024-08-05 DOI:10.1007/s13762-024-05915-y
K. N. Gupta, R. Kumar, A. K. Thakur
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Abstract

This paper emphasizes the need for the stripping of the volatile organic compounds (VOCs) released from various sources owing to their deleterious effects on health and the environment. Granular activated carbon was applied as an adsorbent to adsorb VOCs such as toluene and xylene. This study investigated the influence of the operating variables such as length of the packed bed (0.015–0.025 m), VOC concentration in the inlet gas (2500–7500 ppm), and volumetric flow rate of gas (35–105 mL min−1) on the performance of the adsorption column. Adsorption capacities as high as 6.2 kg kg−1 and 9.054 kg kg−1 were observed for toluene and xylene, respectively, at the VOC inlet concentration of 7500 ppm. Taguchi methodology was then used for the design of experiments by utilizing an L9 orthogonal array with an objective to get a longer breakthrough time and maximum utilization of the adsorbent till the breakthrough. The breakthrough times obtained were 10.9 h (toluene) and 18.04 h (xylene). The maximum adsorbent usage till breakthrough (in %) was estimated to be 73.24 (toluene) and 84.36 (xylene). Subsequently, the grey relational analysis technique yielded the optimal parameters (length of the packed bed = 0.025 m, VOC concentration in the inlet gas = 5000 ppm, and volumetric flow rate of gas = 35 mL min−1) when both the responses were optimized simultaneously. Gas flow rate was found to be the most sensitive parameter.

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利用固定床吸附去除挥发性有机化合物:利用田口方法和灰色关系分析进行优化
本文强调,由于挥发性有机化合物(VOC)对健康和环境的有害影响,需要对各种来源释放的挥发性有机化合物(VOC)进行剥离。粒状活性炭被用作吸附剂来吸附甲苯和二甲苯等挥发性有机化合物。本研究调查了填料床长度(0.015-0.025 米)、入口气体中的挥发性有机化合物浓度(2500-7500 ppm)和气体体积流量(35-105 mL min-1)等操作变量对吸附塔性能的影响。在 VOC 入口浓度为 7500 ppm 时,甲苯和二甲苯的吸附容量分别高达 6.2 kg kg-1 和 9.054 kg kg-1。然后,利用 L9 正交阵列,采用田口方法进行实验设计,目的是获得更长的突破时间,并在突破前最大限度地利用吸附剂。实验得出的突破时间分别为 10.9 小时(甲苯)和 18.04 小时(二甲苯)。吸附剂最大使用率(%)估计为 73.24(甲苯)和 84.36(二甲苯)。随后,灰色关系分析技术得出了最佳参数(填料床长度 = 0.025 m,入口气体中的挥发性有机化合物浓度 = 5000 ppm,气体体积流量 = 35 mL min-1),同时对两种反应进行了优化。发现气体流速是最敏感的参数。
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来源期刊
CiteScore
5.60
自引率
6.50%
发文量
806
审稿时长
10.8 months
期刊介绍: International Journal of Environmental Science and Technology (IJEST) is an international scholarly refereed research journal which aims to promote the theory and practice of environmental science and technology, innovation, engineering and management. A broad outline of the journal''s scope includes: peer reviewed original research articles, case and technical reports, reviews and analyses papers, short communications and notes to the editor, in interdisciplinary information on the practice and status of research in environmental science and technology, both natural and man made. The main aspects of research areas include, but are not exclusive to; environmental chemistry and biology, environments pollution control and abatement technology, transport and fate of pollutants in the environment, concentrations and dispersion of wastes in air, water, and soil, point and non-point sources pollution, heavy metals and organic compounds in the environment, atmospheric pollutants and trace gases, solid and hazardous waste management; soil biodegradation and bioremediation of contaminated sites; environmental impact assessment, industrial ecology, ecological and human risk assessment; improved energy management and auditing efficiency and environmental standards and criteria.
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