Rotating Disc Method To Study the Dissolution Kinetics of Copper Metal in Citric Acid and Hydrogen Peroxide
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Date
2024
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Elsevier B.V.
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Green Open Access
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Abstract
This study reports the kinetics of copper metal dissolution in citric acid-hydrogen peroxide solution using the rotating disc method. The effect of the concentration of citric acid as well as hydrogen peroxide, stirring speed, disc surface area, and temperature was investigated. The concentration of hydrogen peroxide (0.25–1.5 mol/L) has a strong effect on the dissolution rate (mg/min) of copper with a reaction order of 0.92, compared to a reaction order of 0.42 with respect to the concentration of citric acid (0.125–1.5 mol/L). The reaction rate is directly proportional to the disc area (A) and square root of the disc rotation speed (ω1/2), as expected from the Levich equation. The activation energy of 33 kJ/mol, in the temperature range 30-60 °C is also comparable with the values reported in previous studies. © 2024 Elsevier B.V.
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Keywords
activation energy, citric acid, Copper, hydrogen peroxide, rotating disc, semi-empirical model, Citric acid, Copper compounds, Dissolution, Hydrogen peroxide, Oxidation, Copper metal, Disk surfaces, Dissolution kinetics, Metal dissolution, Reaction orders, Rotating disc, Rotating disk method, Semiempirical models, Stirring speed, Surface area, Activation energy
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Q1
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Q1
OpenCitations Citation Count
2
Source
Hydrometallurgy
Volume
225
Issue
Start Page
106281
End Page
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CrossRef : 5
Scopus : 5
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