Abstract
The laterite-coating manganese dioxide nanoparticle material (M2) prepared by the immersion method was used for the efficient removal of methylene blue (MB) from aqueous solution. The adsorption and heterogeneous Fenton catalytic oxidation experiments of M2 were investigated by changing the effective factors such as time, pH, amount of M2, and concentration of MB. The adsorption data of M2 showed good fitting with the Langmuir isotherm, suggesting that the adsorption of MB on the surface of M2 is a heterogeneous and physical adsorption process. Degradation of MB was also carried out to evaluate the heterogeneous Fenton catalytic oxidation characterization of a new catalytic oxidation material (M2). The results show that the M2 material has both adsorption and heterogeneous Fenton catalytic oxidation. However, the heterogeneous Fenton catalytic oxidation of the M2 material is the main performance. Hence, our groups have investigated the ability of the catalytic column treatment with high efficiency of 98–100% and the degradation efficiency after the sample running through the column almost does not change much. This proves that heterogeneous Fenton catalytic activity of the catalytic column is completely unaffected and reused many times after oxidizing MB. Specifically, even if the M2 material is reused for five times, the degradation efficiency still reaches 98.86%.
Highlights
Methylene blue (MB) is an organic compound which used in the treatment of cyanide poisoning, treatment of impetigo, pyoderma, urogenital antiseptic, and dying tissues in some diagnostic operations [1]
Over the past few years, several physical methods and chemical methods have been employed for removing methylene blue (MB) [3]. ere are several treatment processes that have been applied for treatment of dye wastewater such as photocatalytic degradation [4, 5], membrane separation [5, 6], adsorption-precipitation processes [7, 8], ultrafiltration [9, 10], chemical-biological degradation [6, 11], Fenton system and heterogeneous Fenton-like catalytic reactions [12,13,14], and adsorption on activated carbon and electrolysis [15, 16]
E surface structures of laterite (M1) and mixed material (M2) were analysed by the scanning electron microscopy (SEM) in Figures 2(a) and 2(b). e SEM results show that the surface of the laterite after the immersion process has been coated by the nanoparticle layer
Summary
Methylene blue (MB) is an organic compound which used in the treatment of cyanide poisoning, treatment of impetigo, pyoderma, urogenital antiseptic, and dying tissues in some diagnostic operations (bacterial staining, etc.) [1]. Ere are several treatment processes that have been applied for treatment of dye wastewater such as photocatalytic degradation [4, 5], membrane separation [5, 6], adsorption-precipitation processes [7, 8], ultrafiltration [9, 10], chemical-biological degradation [6, 11], Fenton system and heterogeneous Fenton-like catalytic reactions [12,13,14], and adsorption on activated carbon and electrolysis [15, 16]. Some of these techniques are rarely used due to insensitivity to a toxic substance, the complexity of Journal of Chemistry the design, and high cost. erefore, development of an effective, cheap, and eco-friendly method is of crucial importance for the removal of dye wastewater
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