Efficient Adsorption Techniques for Heavy Metal Removal from East African Paint Industry Wastewater
Bedasa, M., Mishra, D. (2025). Efficient Adsorption Techniques for Heavy Metal Removal from East African Paint Industry Wastewater. EKB Journal Management System, 2(2), 13-40. doi: 10.21608/fpmpeb.2025.397177.1016
Meki Kebede Bedasa; Divya Mishra. "Efficient Adsorption Techniques for Heavy Metal Removal from East African Paint Industry Wastewater". EKB Journal Management System, 2, 2, 2025, 13-40. doi: 10.21608/fpmpeb.2025.397177.1016
Bedasa, M., Mishra, D. (2025). 'Efficient Adsorption Techniques for Heavy Metal Removal from East African Paint Industry Wastewater', EKB Journal Management System, 2(2), pp. 13-40. doi: 10.21608/fpmpeb.2025.397177.1016
Bedasa, M., Mishra, D. Efficient Adsorption Techniques for Heavy Metal Removal from East African Paint Industry Wastewater. EKB Journal Management System, 2025; 2(2): 13-40. doi: 10.21608/fpmpeb.2025.397177.1016

Efficient Adsorption Techniques for Heavy Metal Removal from East African Paint Industry Wastewater

Future Perspectives of Medical, Pharmaceutical and Environmental Biotechnology
Volume 2, Issue 2, October 2025, Pages 13-40    PDF (843.11 K)
Document Type: Review Articles
DOI: 10.21608/fpmpeb.2025.397177.1016
Authors
Meki Kebede Bedasa* 1; Divya Mishra2
1Department of Chemistry, Gujarat University, India
2Chemistry Department, Gujarat University, India
Abstract
Heavy metals such as lead (Pb), cadmium (Cd), chromium (Cr), and zinc (Zn) from paint industry effluents are a major environmental and public health concern in East Africa. This study explores the application of efficient adsorption techniques as sustainable and low-cost methods for heavy metal removal in the paint manufacturing sector in the region. Emphasizing locally available adsorbents, including biochar from agricultural waste, natural clays, and industrial by-products, this review highlights their effectiveness, feasibility, and adaptability to resource-limited settings. It also explores the role of highly efficient nanomaterials such as Fe₃O₄ nanoparticles and graphene oxide for critical applications and evaluates the performance of hybrid systems combining electrocoagulation and membrane filtration for improved removal efficiency. Key process parameters such as pH, contact time, and drug dosage are discussed in the context of process optimization. The paper outlines the technical, economic, and policy challenges that limit the widespread adoption of adsorption in East Africa and provides a strategic roadmap for industrial-scale implementation. By integrating technology, policy, and capacity-building efforts, adsorption emerges as a viable route to cleaner industrial processes and sustainable environmental protection in the region.
Keywords
heavy metals sources; toxicity; wastewater treatment; low-cost adsorbents; East Africa
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