Removal of organic micropollutants from water by adsorption on thermo-plasma expanded graphite encapsulated into calcium alginate

IF 3 4区 环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL
Marco Cuccarese, Stijn W. H. Van Hulle, Ignazio M. Mancini, Salvatore Masi, Donatella Caniani
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引用次数: 1

Abstract

Nowadays, public concern is focused on the degradation of water quality. For this reason, the development of innovative technologies for water treatment in view of (micro)pollutant removal is important. Indeed, organic (micro)pollutants, such as pharmaceuticals, herbicides, pesticides and plasticizers at concentration levels of μg L−1 or even ng L−1 are hardly removed during conventional wastewater treatment. In view of this, thermo-plasma expanded graphite, a light-weight innovative material in the form of a powder, was encapsulated into calcium alginate to obtain a granular form useful as filtration and adsorption material for removal of different pollutants. The produced material was used to remove atrazine, bisphenol-A, 17-α-ethinylestradiol and carbamazepine (at concentration levels of 125, 250 and 500 µg L−1) by top-down filtration. The effect of flow rate, bed depth and adsorbent composition was evaluated based on breakthrough curves. The experimental data was analysed with the Adams-Bohart model in view of scale-up. Under optimal conditions, removal and adsorption capacity of respectively about 21%, 21%, 38%,42%, 43 µg g−1, 44 µg g−1, 37 µg g−1 and 87 µg g−1 were obtained for atrazine, bisphenol, 17-α ethinylestradiol and carbamazepine when using 0.12 g of thermo-plasma expanded graphite to treat 200 mL at 500 µg L−1 (for each compound) of solution obtaining at contact time of 20 min. The granular form of TPEG obtained (GTPEG) by entrapping in calcium alginate results to have a good adsorbent property for the removal of carbamazepine, atrazine, bisphenol A and 17-α ethinylestradiol from water at concentration levels between 250 and 500 μg L−1. Promising results confirm the adsorbent properties of TPEG and push-up us to investigate on its application and improve of its performance by evaluating different entrapping materials.

Abstract Image

海藻酸钙包埋热等离子体膨胀石墨吸附去除水中有机微污染物
如今,公众关注的焦点是水质的恶化。因此,从(微)污染物去除的角度发展水处理的创新技术是重要的。事实上,在传统的废水处理过程中,浓度为μg L−1甚至ng L−1的有机(微量)污染物,如药品、除草剂、杀虫剂和增塑剂,几乎无法去除。有鉴于此,将粉末形式的轻质创新材料热等离子体膨胀石墨封装到海藻酸钙中,以获得可用作过滤和吸附材料的颗粒形式,用于去除不同污染物。生产的材料用于通过自上而下的过滤去除阿特拉津、双酚A、17-α-乙炔雌二醇和卡马西平(浓度水平为125、250和500µg L−1)。基于穿透曲线评估了流速、床层深度和吸附剂组成的影响。实验数据用Adams-Bohart模型进行了放大分析。在最佳条件下,对阿特拉津、双酚、,17-α乙炔雌二醇和卡马西平,当使用0.12 g热等离子体膨胀石墨以500µg L−1(每种化合物)处理200 mL溶液时,在20分钟的接触时间内获得。通过包埋在海藻酸钙中获得的颗粒状TPEG(GTPEG)对浓度在250至500μg L−1之间的水中卡马西平、阿特拉津、双酚a和17-α乙炔雌二醇具有良好的吸附性能。有希望的结果证实了TPEG的吸附性能,并推动我们通过评估不同的包埋材料来研究其应用和提高其性能。
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来源期刊
Journal of Environmental Health Science and Engineering
Journal of Environmental Health Science and Engineering ENGINEERING, ENVIRONMENTAL-ENVIRONMENTAL SCIENCES
CiteScore
7.50
自引率
2.90%
发文量
81
期刊介绍: Journal of Environmental Health Science & Engineering is a peer-reviewed journal presenting timely research on all aspects of environmental health science, engineering and management. A broad outline of the journal''s scope includes: -Water pollution and treatment -Wastewater treatment and reuse -Air control -Soil remediation -Noise and radiation control -Environmental biotechnology and nanotechnology -Food safety and hygiene
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