Water treatment technologies: Development and implementation of an automated laboratory flotation cell for mineral processing and performance analysis

Water treatment technologies: Development and implementation of an automated laboratory flotation cell for mineral processing and performance analysis

This study presents the development and implementation of an automated laboratory flotation cell aimed to improve the efficiency and performance of mineral processing operations. Traditional flotation systems require extensive manual intervention to optimize key parameters such as air flow, reagent...

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Main Authors: Amine Ennawaoui, Aicha Rabhi, Meryiem Derraz, Hicham EL Hadraoui, Ilyass Mousaid, Mohamed Amine Daoud, Hicham Mastouri, Chouaib Ennawaoui, Younes Chhiti
Format: Article
Language:English
Published: Elsevier 2025-03-01
Series:Results in Engineering
Subjects:
MBSE
Water treatment
Flotation and mineral processing
Online Access:http://www.sciencedirect.com/science/article/pii/S2590123024020280
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Summary:This study presents the development and implementation of an automated laboratory flotation cell aimed to improve the efficiency and performance of mineral processing operations. Traditional flotation systems require extensive manual intervention to optimize key parameters such as air flow, reagent dosage, and agitation rate. By automating these processes, the study introduces a precise control mechanism that minimizes human error, improves operational consistency, and enhances mineral recovery rates. The system integrates advanced control technologies, including programmable logic controllers (PLC), sensors, and human-machine interfaces (HMI), allowing real-time monitoring and adjustment of critical process variables. A model-based systems engineering (MBSE) approach was employed to design the flotation cell, ensuring seamless integration of hardware and software components. The results demonstrate that the automated flotation cell achieves precise control of operational parameters, providing consistent and repeatable conditions for flotation testing. This precision offers significant potential for improving mineral recovery efficiency, reducing energy consumption, and enhancing process stability. By addressing key limitations of traditional systems, this advanced automation technology is poised to make a substantial contribution to both research initiatives and practical applications in mineral processing.
ISSN:2590-1230

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