A Three-Stage, Completely Sustainable Process Addressing Industrial Water Waste Treatment Management: The Case of the Sorption of Methylene Blue in Column Experiments

O. Kopsidas
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Abstract

: A detailed study regarding the optimization of a complete system for the purification of water waste is presented. Three main concerns are addressed: the nature of the absorbing material, the efficiency dependence on scale and the management of the final waste of the assembly. These three points have to be optimized in the best acceptable way from an environmental point of view. Subsequently, the wet filling material, comprised of the absorbent and the absorbed dye, was buried in dry soil, promoting soil bacterial and fungal growth. The absorbance of CO 2 was determined. The use of natural vegetative material as absorbents of chemical dyes in industrial water waste is an environmentally friendly solution. Combination with the utilization of the final solid waste as fertilizer is an optimum solution, promoting sustainability within an industrial ecology framework. The adsorption column scale-up studied herein, for the removal of basic dyes from wastewaters, using methylene blue as a representative adsorbate and barley straw as a representative waste biomass adsorbent, was successful, as regards consistency and reliability (judged by low absolute and relative standard deviation) of results.
三阶段、完全可持续的工业废水处理管理过程——以柱实验中亚甲基蓝的吸附为例
本文对污水净化系统的优化进行了详细的研究。解决了三个主要问题:吸收材料的性质,对规模的效率依赖以及对组装的最终废物的管理。从环境的角度来看,这三点必须以最佳可接受的方式进行优化。随后,将由吸收剂和吸收染料组成的湿填充材料埋入干燥土壤中,促进土壤细菌和真菌的生长。测定了co2的吸光度。利用天然植物材料作为工业废水中化学染料的吸附剂是一种环保的解决方案。结合利用最后的固体废物作为肥料是一个最佳的解决方案,促进工业生态框架内的可持续性。本文研究了以亚甲基蓝为代表的吸附物和大麦秸秆为代表的废生物质吸附剂,对废水中碱性染料的吸附柱放大,从结果的一致性和可靠性(以低的绝对标准偏差和相对标准偏差判断)来看,是成功的。
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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