Hydroxide Precipitation of Selected Metals from an Aqueous Solution: The Influence of Stirring Speed and Time
Sabina Begić
Faculty of Technology, University of Tuzla, Tuzla, Bosnia and Herzegovina.
Halid Junuzović
*
Faculty of Technology, University of Tuzla, Tuzla, Bosnia and Herzegovina.
Amra Selimović
Faculty of Technology, University of Tuzla, Tuzla, Bosnia and Herzegovina.
Husejin Keran
Faculty of Technology, University of Tuzla, Tuzla, Bosnia and Herzegovina.
Indira Šestan
Faculty of Technology, University of Tuzla, Tuzla, Bosnia and Herzegovina.
Ervin Karić
Faculty of Technology, University of Tuzla, Tuzla, Bosnia and Herzegovina.
Melisa Ahmetović
Faculty of Technology, University of Tuzla, Tuzla, Bosnia and Herzegovina.
Azra Halilović
Faculty of Engineering and Natural Sciences, University of Zenica, Zenica, Bosnia and Herzegovina.
Amna Karić
Faculty of Engineering and Natural Sciences, University of Zenica, Zenica, Bosnia and Herzegovina.
*Author to whom correspondence should be addressed.
Abstract
The expansion of industrialization and household use of synthetic compounds has generated significant wastewater containing toxic heavy metals. In developing countries, this wastewater is often discharged untreated due to the high cost of advanced treatment technologies. This study used sodium hydroxide as a low-cost, readily available precipitation agent to remove selected metal ions from mono- and binary-component solutions. Unlike most studies focusing on pH and initial ion concentration, this work investigated operational parameters such as stirring speed (0–800 rpm) and time (0–30 min) while keeping pH and concentration constant. Results showed that higher stirring speeds and longer stirring times enhanced metal ion removal, with Pb(II) efficiency increasing from 86.64% at 100 rpm to 94.33% at 800 rpm. In binary mixtures, similar improvements were observed. These findings highlight that simple, low-cost operational adjustments can significantly improve metal removal efficiency, which is particularly relevant for water treatment in resource-limited settings. The two-way ANOVA without replication showed that the type of metal or mixture had a significant effect on removal efficiency, while stirring speed and time within the investigated ranges did not have a statistically significant effect. These results indicate that differences in removal efficiency are primarily due to the metals’ chemical properties rather than the operational parameters.
Keywords: Stirring, speed, time, heavy metals, removal efficiency