An Analysis of the Factors Influencing Cadmium Removal in Aquatic Environments by Chlorella vulgaris-Derived Solids

C Pub Date : 2023-12-25 DOI:10.3390/c10010002
Jafar Sufian, Mohammad Babaakbari Sari, Filippo Marchelli, Luca Fiori, Armen Avanes, S. Moradi
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Abstract

Chlorella vulgaris is an inexpensive microalga that could be employed for environmental remediation, but further investigations are needed to assess its suitability and optimal treatment methodology. With this aim in mind, this study focused on the raw biomass and the biochar and hydrochar obtained from it, analyzing their physicochemical properties and testing them to capture cadmium from an aqueous environment. The adsorption/absorption tests assessed the effect of adsorbent dosage, pH, Cd concentration, and contact time, and the results were analyzed through a structural equation model. Biochar and hydrochar performed similarly and better than the raw biomass, with the highest Cd removal observed at an adsorbent dosage of 0.8 g L−1, an initial concentration of Cd solution of 30 mg L−1, a pH of 6, and a contact time of 30 min. The adsorption isotherm data for Cd could be well-described by the Langmuir and Temkin models. The results from the structural equation modeling revealed that the variables material type, dosage, and concentration all contributed to Cd removal in water, with time mediating these effects.
影响小球藻固体在水生环境中去除镉的因素分析
小球藻是一种价格低廉的微藻,可用于环境修复,但还需要进一步的研究来评估其适用性和最佳处理方法。本着这一目的,本研究重点研究了原始生物质以及从生物质中获得的生物炭和水炭,分析了它们的物理化学特性,并测试了它们从水环境中捕捉镉的能力。吸附/吸收测试评估了吸附剂用量、pH 值、镉浓度和接触时间的影响,并通过结构方程模型对结果进行了分析。在吸附剂用量为 0.8 g L-1、镉溶液初始浓度为 30 mg L-1、pH 值为 6 和接触时间为 30 分钟时,生物炭和水炭的镉去除率最高。镉的吸附等温线数据可以用 Langmuir 和 Temkin 模型很好地描述。结构方程模型的结果表明,材料类型、用量和浓度等变量都会对水中镉的去除产生影响,而时间则是这些影响的中介。
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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