Ecofriendly Removal of Aluminum and Cadmium Sulfate Pollution by Adsorption on Hexanoyl-Modified Chitosan

Berthold Reis, Konstantin B. L. Borchert, Martha Kafetzi, M. Müller, Karina Haro Carrasco, Niklas Gerlach, Christine Steinbach, S. Schwarz, R. Boldt, S. Pispas, Dana Schwarz
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引用次数: 1

Abstract

The purity and safety of water as a finite resource is highly important in order to meet current and future human needs. To address this issue, the usage of environmentally friendly and biodegradable adsorbers and flocculants is essential. Chitosan, as a biopolymer, features tremendous properties as an adsorber and flocculant for water treatment. For the application of chitosan as an adsorber under acidic aqueous conditions, such as acid mine drainage, chitosan has been modified with hydrophobic hexanoyl chloride (H-chitosan) to reduce the solubility at a lower pH. In order to investigate the influence of the substitution of the hexanoyl chloride on the adsorption properties of chitosan, two chitosans of different molecular weights and of three different functionalization degrees were analyzed for the adsorption of CdSO4(aq) and Al2(SO4)3(aq). Among biobased adsorbents, H-chitosan derived from the shorter Chitosan exhibited extraordinarily high maximum adsorption capacities of 1.74 mmol/g and 2.06 mmol/g for Cd2+ and sulfate, and 1.76 mmol/g and 2.60 mmol/g for Al3+ and sulfate, respectively.
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己醇改性壳聚糖吸附去除硫酸铝和镉污染的研究
水作为一种有限资源,其纯净和安全对于满足人类当前和未来的需求至关重要。为了解决这一问题,使用环境友好和可生物降解的吸附剂和絮凝剂是必不可少的。壳聚糖作为一种生物聚合物,在水处理中具有良好的吸附和絮凝性能。为了将壳聚糖作为吸附剂应用于酸性水条件下,如酸性矿井水,我们用疏水性己醇氯(h -壳聚糖)对壳聚糖进行了改性,以降低其在较低ph下的溶解度。为了研究己醇氯取代对壳聚糖吸附性能的影响。分析了两种不同分子量、三种不同功能化度的壳聚糖对CdSO4(aq)和Al2(SO4)3(aq)的吸附性能。在生物基吸附剂中,由短壳聚糖制备的h -壳聚糖对Cd2+和硫酸盐的最大吸附量分别为1.74 mmol/g和2.06 mmol/g,对Al3+和硫酸盐的最大吸附量分别为1.76 mmol/g和2.60 mmol/g。
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