Cost-Effective Materials and Technologies for the Removals of Metals and Heavy Metals from Leachate
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Date
2025-10-11
Journal Title
Journal ISSN
Volume Title
Publisher
Science publishing group
Abstract
Landfill leachate, a highly complex and toxic wastewater, which poses significant environmental and public health risks due to its heavy metal content. The ubiquitous presence of toxic metals such as lead, cadmium, mercury, arsenic, and chromium in leachate poses significant environmental and health risks, necessitating efficient and economical remediation strategies. Traditional methods, while effective, can be prohibitively expensive, especially for large-scale operations or in regions with limited financial resources. Consequently, there is a growing imperative to identify and implement treatment solutions that balance efficacy with affordability. This includes exploring the potential of widely available and low-cost adsorbents like agricultural by-products (e.g., rice husks, banana peels, sawdust), industrial wastes (e.g., fly ash, blast furnace slag), and natural minerals (e.g., zeolites, clays). Furthermore, innovative technologies such as constructed wetlands, bio-sorption using specific microbial communities, and electrochemical methods utilizing inexpensive electrodes are being investigated for their economic viability and environmental sustainability. The overarching goal is to develop practical, scalable, and cost-efficient approaches to mitigate metal pollution from leachate, thereby safeguarding water resources and public health. The focus on cost-effectiveness is intrinsically linked to the principles of sustainable waste management. Leachate treatment often represents a significant operational cost for landfill operators, and the economic burden can impede the adoption of necessary environmental protection measures. Therefore, research into low-cost materials and technologies is paramount. This abstract will critically review the performance of various cost-effective adsorbents, considering their adsorption capacity, selectivity for specific metals, regeneration potential, and operational stability. It will also delve into the technological aspects of implementing these solutions, evaluating factors such as energy consumption, land footprint, and ease of operation and maintenance. The integration of these affordable materials and technologies into existing leachate management infrastructure is explored, with an emphasis on their potential to reduce overall treatment costs and enhance the long-term sustainability of landfill operations. By highlighting these economically viable options, this work aims to provide a comprehensive overview for researchers, engineers, and policymakers seeking practical solutions for effective and affordable heavy metal removal from leachate.
Sustainable Development Goals
SDG 6 : Clean Water and Sanitation
SDG 12 : Responsible Consumption and Production
SDG 3 : Good Health and Well-Being
Keywords
Leachate:, Heavy Metals:, Cost-Effective:, Adsorption:, Biosorption:, Phytoremediation:, Low-Cost Materials