模拟富碳基质对阿特拉津的吸附:一个案例研究

IF 1.8 4区 农林科学 Q2 PLANT SCIENCES Advances in Weed Science Pub Date : 2022-01-01 DOI:10.51694/advweedsci/2022;40:00025
D. Dick, Larissa Z. Lara, J. B. Costa, Cristiano Fontanivab, Ana Cristina Lüdtke, H. Knicker
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引用次数: 0

摘要

背景:使用碳质材料进行环境修复因其低成本和高吸附能力而具有吸引力。然而,它们对污染物的去除效率受底物组成和吸附机理的影响。目的:研究三种富碳底物对阿特拉津的吸附和解吸。考虑等温线模型和吸附剂化学成分对数据进行评估。方法:采用炭粉(CF)比例(w/w)为CF0、CF9 (9% CF)和CF18 (18% CF)的猪浆堆肥基质,采用批量平衡法进行吸附。通过元素分析、13c NMR CP/MAS光谱对底物进行了表征。Freundlich和Dubinin-Radushkevich (DRK)模型较好地拟合了吸附数据(0.96>R 2 >0.81),其次是Temkin (0.95>R 2 >0.76)。在堆肥基质中添加木炭增加了碳含量和芳香性,其量级为CF010 mg L -1,且解吸Kf值大于各自的吸附值。结论:富碳底物对阿特拉津的吸附不受碳含量或芳构性的影响。低吸附可逆性意味着低阿特拉津从测试底物的迁移率,并表明它们在环境中去除除草剂的潜力。
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Modelling atrazine sorption in carbon-rich substrates: a case study
: Background: The use of carbonaceous materials for environmental remediation is attractive due to low expense and high sorption capacity. However, their efficiency in contaminant removal is affected by substrate composition and sorption mechanism. Objective: This study investigated atrazine sorption and desorption in three carbon-rich substrates. Data were evaluated considering isotherm models and sorbent chemical composition. Methods: Sorption was performed by the batch equilibrium method with three substrates obtained from pig slurry composting with different proportions (w/w) of charcoal fines (CF): CF0, CF9 (9% CF), and CF18 (18% CF). The substrates were characterized by elemental analysis, 13 C NMR CP/MAS spectroscopy. The Freundlich and Dubinin-Radushkevich (DRK) models better fitted the sorption data (0.96>R 2 >0.81), followed by Temkin (0.95>R 2 >0.76). Charcoal addition to composting substrates increased carbon content and the aromaticity in the order CF010 mg L -1 ), and the desorption Kf values were greater than the respective sorption values. Conclusions: Atrazine sorption in the tested C-rich substrates is not governed by the carbon content or aromaticity. The low sorption reversibility implies a low atrazine mobility from the tested substrates and suggests their potential for herbicide removal in the environment.
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来源期刊
Advances in Weed Science
Advances in Weed Science PLANT SCIENCES-
CiteScore
2.10
自引率
42.90%
发文量
25
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