Experimental Study for Benzene/Water Removal by Air Gap Membrane Distillation

IF 0.4 Q4 ENVIRONMENTAL SCIENCES

Asian Journal of Water, Environment and Pollution Pub Date : 2022-09-16 DOI:10.3233/ajw220070

D. Gaur, Kailash Singh, S. Upadhyaya, S. Meena

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引用次数: 0

Abstract

Benzene, a hazardous chemical, is one of the effluents which are eliminated by various industries as waste products into the water bodies. Various techniques are used for the separation of benzene from waste water such as liquid-liquid extraction, adsorption, absorption and pervaporation, and membrane distillation (MD). In this work, the air gap membrane distillation technique is used for the removal of benzene from benzene-water solution. Microporous hydrophobic polytetrafluoroethylene (PTFE) membrane was used in the membrane module in the AGMD setup. The effect of various parameters, such as feed bulk temperature and air gap width, were studied on permeate flux and membrane selectivity. It was observed that on increasing the feed bulk temperature from 40°C to 60°C, the permeate flux increases exponentially from 2.95 kg/m2·h to 4.63 kg/m2·h at an air gap of 3 mm. However, on increasing the air gap width from 3 mm to 11 mm, the permeate flux decreased tremendously from 4.63 kg/m2·h to 0.93 kg/m2·h at 2 lpm of feed flow rate under a constant feed temperature of 60°C. It was also found that the selectivity of benzene in permeate increases from 40.57 to 63.74, on increasing the feed bulk temperature from 40°C to 60°C, which clearly indicates the separation of benzene by using air gap membrane distillation. The UV-Vis spectrophotometer is used for determining the concentration of benzene in permeate at the wavelength of 255 nm. The membrane morphology of the hydrophobic PTFE membrane was studied using FE-SEM, prior and after the experimental runs for continuous 200 hours.

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气隙膜蒸馏法脱除苯/水的实验研究

苯是一种危险化学品，是各种行业将其作为废物排放到水体中的废水之一。各种技术用于从废水中分离苯，如液-液萃取、吸附、吸收和渗透蒸发以及膜蒸馏（MD）。本文采用气隙膜蒸馏技术去除苯水溶液中的苯。微孔疏水性聚四氟乙烯（PTFE）膜用于AGMD装置中的膜组件。研究了进料体积温度和气隙宽度等参数对渗透通量和膜选择性的影响。观察到，当进料本体温度从40°C增加到60°C时，在3 mm的气隙下，渗透通量从2.95 kg/m2·h呈指数级增加。然而，当气隙宽度从3 mm增加到11 mm时，在60°C的恒定进料温度下，在2 lpm的进料流速下，渗透流量从4.63 kg/m2·小时急剧下降到0.93 kg/m2•h。研究还发现，当进料本体温度从40°C提高到60°C时，渗透物中苯的选择性从40.57提高到63.74，这清楚地表明了使用气隙膜蒸馏分离苯。UV-Vis分光光度计用于测定波长为255nm的渗透物中苯的浓度。在连续200小时的实验运行之前和之后，使用FE-SEM研究疏水性PTFE膜的膜形态。

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

Asian Journal of Water, Environment and Pollution ENVIRONMENTAL SCIENCES-

CiteScore

1.00

自引率

20.00%

发文量

期刊介绍： Asia, as a whole region, faces severe stress on water availability, primarily due to high population density. Many regions of the continent face severe problems of water pollution on local as well as regional scale and these have to be tackled with a pan-Asian approach. However, the available literature on the subject is generally based on research done in Europe and North America. Therefore, there is an urgent and strong need for an Asian journal with its focus on the region and wherein the region specific problems are addressed in an intelligent manner. In Asia, besides water, there are several other issues related to environment, such as; global warming and its impact; intense land/use and shifting pattern of agriculture; issues related to fertilizer applications and pesticide residues in soil and water; and solid and liquid waste management particularly in industrial and urban areas. Asia is also a region with intense mining activities whereby serious environmental problems related to land/use, loss of top soil, water pollution and acid mine drainage are faced by various communities. Essentially, Asians are confronted with environmental problems on many fronts. Many pressing issues in the region interlink various aspects of environmental problems faced by population in this densely habited region in the world. Pollution is one such serious issue for many countries since there are many transnational water bodies that spread the pollutants across the entire region. Water, environment and pollution together constitute a three axial problem that all concerned people in the region would like to focus on.