EFFICIENT WASTEWATER TREATMENT THROUGH INTEGRATED WATER HYACINTH SYSTEMS: ADVANCES AND APPLICATIONS IN CONCRETE

Pub Date : 2024-04-03 DOI:10.17222/mit.2023.914

Ananthakumar Ayyadurai, M. M. Saravanan, M. Devi

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Abstract

This research focuses on enhancing water quality for concrete construction by utilizing treated wastewater from wetlands. The study employs a dual-stage treatment process involving charcoal and aggregate layers for primary treatment, followed by water hyacinths for secondary treatment. Investigating water hyacinths’ ability to absorb nutrients and contaminants from wastewater is a unique aspect of the study, offering a potential solution for soil and water remediation. Water hyacinths, especially stems and leaves, act as natural filters, effectively indicating heavy-metal pollution in tropical regions. The primary goal is heavy-metal removal from wastewater, allowing treated-water use in concrete production at varying proportions (20 %, 40 %, 60 %, 80 %, and 100 %). Silica fume at 15 % concentration is incorporated to enhance the concrete’s durability. Concrete specimens undergo thorough preparation and mechanical property evaluations, compared to conventional M20-grade concrete. The results reveal improvements in mechanical properties, particularly with 80 % treated wastewater in the mix. The dual-stage treatment process removes heavy metals, and the inclusion of silica fume enhances the concrete’s durability and resistance.

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通过综合水葫芦系统高效处理废水：混凝土的进展与应用

这项研究的重点是利用经处理的湿地废水提高混凝土施工用水的水质。该研究采用了双阶段处理工艺，先用木炭和骨料层进行一级处理，然后再用水葫芦进行二级处理。调查水葫芦吸收废水中营养物质和污染物的能力是这项研究的一个独特方面，它为土壤和水的修复提供了一个潜在的解决方案。风信子，尤其是茎和叶，可作为天然过滤器，有效指示热带地区的重金属污染。其主要目标是去除废水中的重金属，以便在混凝土生产中使用不同比例（20%、40%、60%、80% 和 100%）的处理过的水。为了提高混凝土的耐久性，还加入了浓度为 15% 的硅灰。与传统的 M20 级混凝土相比，对混凝土试样进行了全面的制备和机械性能评估。结果显示，机械性能有所改善，尤其是混合液中含有 80% 经过处理的废水时。双阶段处理工艺可去除重金属，而硅灰的加入则提高了混凝土的耐久性和抗性。

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