木质纤维素葫芦壳杂型阳离子吸附剂的研制与表征

G. Nikolić, Dragana Marković-Nikolić, M. Kostić, Miloš Durmišević, M. Cakic
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引用次数: 2

摘要

本研究的目的是开发一种以Lagenaria vulgaris果实木质纤维素生物量为基础的杂型阳离子吸附剂,该吸附剂具有有效吸附水溶液中阴离子污染物的特性。木质纤维素葫芦壳(LGS生物质)作为一种具有潜在利用价值的农业废弃物,对其进行了研究,并用于吸附剂的合成。采用碱法预处理LGS生物质制备合成前驱体(LVAT)。在弱碱性条件下用绿色碳酸盐溶液进行预处理,对解聚半纤维素进行部分脱木质素和提取,从而获得更高的材料孔隙率和纤维素微原纤维的活化。这种激活包括将可用的-OH官能团翻译成-ONa形式(碱-纤维素),同时保持初始生物量组成。阳离子吸附剂的合成有三种方法。采用叔氨基化合物和季铵化合物等不同的n -试剂对LGS生物质和LVAT前驱体进行阳离子改性,以确定试剂结构和疏水性对合成结果的影响,主要是对所得吸附剂的吸附性能的影响。用物理化学方法对合成的阳离子吸附剂进行了表征,并对水中阴离子污染物,特别是磷酸盐和硝酸盐的去除效果进行了测试。木质纤维素生物质的各种化学修饰为更好地理解阴离子在吸附剂表面的吸附机理提供了科学贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development and characterisation of miscellaneous cationic sorbents based on lignocellulosic gourd shell
The aim of this study is to develop miscellaneous cationic sorbents based on the lignocellulosic biomass of Lagenaria vulgaris fruit, with the property of efficient sorption of anionic pollutants from aqueous solutions. The lignocellulosic gourd shell (LGS biomass), as a potentially valuable agro-waste, was examined and used for the synthesis of sorbents. The preparation of synthesis precursor (LVAT) was performed by alkaline pretreatment of LGS biomass. Pretreatment under weak alkaline conditions with green carbonate solution was carried out for partial delignification and extraction of depolymerized hemicellulose, thereby achieving higher material porosity and activation of cellulose microfibrils. This activation involves the translation of available –OH functional groups into –ONa form (alkali-cellulose), while maintaining the initial biomass composition. Synthesis of the cationic sorbents was performed in three ways. Different N-reagents, such as tertiary amino and quaternary ammonium compounds, were used in the cation modification of LGS biomass and LVAT precursor, to determine the effects of reagent structure and hydrophobicity on the synthesis outcome, and primarily on the sorption properties of the resulting sorbents. The synthesized cationic sorbents were characterized by physico-chemical methods and tested for the removal of anionic pollutants from water, especially phosphates and nitrates. The various chemical modifications of lignocellulosic biomass provide a scientific contribution to a better understanding of the mechanism of anions sorption on the sorbent surface.
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