Modified Chitosan Based on Optimized Design in the Treatment of Microbial Leaching Wastewater

Academic Journal of Environmental Biology Pub Date : 2022-10-10 DOI:10.38007/ajeb.2022.030406

Jing Wang

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Abstract

: Currently, microbial leaching wastewater has caused immeasurable damage to the environment, so this wastewater must be properly treated to reduce environmental and biological damage. The purpose of this work is to study the physicochemical properties of chitosan, based on the optimized design of modified chitosan in microbial leaching wastewater treatment, using citric acid (CA) as the cross-linking agent chitosan (CTS) and two modified chitosan Chitosan, Chitosan-Citric Acid (CTS-CA) and Chitosan-Citrate-β-Cyclodextrin (CTS-CA-CD) from β-Cyclodextrin (CD) to Explore Modification Mechanisms. At the same time, the prepared modified chitosan was applied to the adsorption research of dye wastewater and heavy metal wastewater. With the increase of reaction temperature, the adsorption capacity of modified chitosan to Ni2+ also increased. It shows that the temperature is beneficial to the adsorption process. The higher the temperature, the better the adsorption effect of modified chitosan on Ni2+. The effect of initial solution pH on the adsorption process showed that at pH 7, the adsorption capacity of CTS-CA for Ni2+ was 33 mg/g, and the adsorption capacity of CTS-CA-CD for Ni2+ was 37 mg/g.

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基于优化设计的改性壳聚糖处理微生物浸出废水

:目前，微生物浸出废水对环境造成了不可估量的损害，必须对其进行适当处理，以减少对环境和生物的损害。本工作的目的是研究壳聚糖的理化性质，在优化设计改性壳聚糖用于微生物浸出废水处理的基础上，以柠檬酸(CA)为交联剂壳聚糖(CTS)和两种改性壳聚糖:壳聚糖-柠檬酸(CTS-CA)和壳聚糖-柠檬酸-β-环糊精(CTS-CA-CD)从β-环糊精(CD)中改性壳聚糖(CTS-CA-CD)，探讨改性机理。同时，将制备的改性壳聚糖应用于染料废水和重金属废水的吸附研究。随着反应温度的升高，改性壳聚糖对Ni2+的吸附量也随之增大。结果表明，温度对吸附过程有利。温度越高，改性壳聚糖对Ni2+的吸附效果越好。初始溶液pH对吸附过程的影响表明，在pH为7时，CTS-CA对Ni2+的吸附量为33 mg/g, CTS-CA- cd对Ni2+的吸附量为37 mg/g。

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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Academic Journal of Environmental Biology

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