Development of technology of industrial wastes treatment products disposal by ferritization in the matrix of alkali-activated cements

Kochetov, Gennadii; Samchenko, Dmitry; Kolodko, Anton; Kovalchuk, Oleksandr; Pasko, Anton

doi:10.15587/2312-8372.2018.152615

Cited by 3 publications

(2 citation statements)

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“…Iron oxides are also proposed to be used for sorption of heavy metals from polluted industrial effluents [11]. Another way of using iron-containing oxides is their use in the production of building materials [12].…”

Section: % Was Obtained When Using a Three-chamber Electrolyzer With ...mentioning

confidence: 99%

“…It is possible to reduce such a negative factor by using the method of concentrating iron-containing solutions to a certain value during electrodialysis purification. Subsequently, the resulting concentrates can be used for ferritic wastewater treatment [17] and the resulting ferritic sediments can be used in environmental protection technologies [10][11][12].…”

Section: % Was Obtained When Using a Three-chamber Electrolyzer With ...mentioning

confidence: 99%

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Devising a comprehensive technology for treating industrial iron sulfate-containing effluents of galvanic production

Dovholap,

Gomelya,

Ivanenko

et al. 2023

EEJET

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The object of the research is complex electrochemical and ferritic decontamination of iron sulfate-containing waters. Processing of liquid waste is carried out by electrochemical treatment using two- and three-chamber electrolyzers. This paper investigates the processes of electrodialysis purification of simulated solutions with an FeSO4 compound concentration of 5 g/dm3 and an H2SO4 compound concentration of 300–2100 mg-equiv/dm3. A plate made of stainless steel was used as the cathode, and a plate made of titanium covered with ruthenium oxide and lead was used as the anode. It is shown that the highest current yield of electrodialysis products of 84.5 % was obtained when using a three-chamber electrolyzer with MA-41 anion exchange membranes. It was found that when using the specified electrolyzer, the concentration gradient, the value of which is directly proportional to the difference in the concentrations of the initial solutions filled with the electrode chambers, has a significant effect on the process of separation of impurities. It is shown that for a two-chamber electrolyzer, the current output reaches 72 %, which is explained by the harmful effect of a significant concentration gradient and is manifested in the rapid mechanical blocking of the membrane and the slowing down of the ion migration process, as well as the increase in energy consumption. In a two-chamber electrolyzer, H2SO4 with a concentration of 18.3 % was obtained, which is suitable for repeated use in etching baths. It was found that as a result of electrodialysis separation and additional oxidation, it is advisable to use concentrated iron sulfate solutions for obtaining ferrite material of a crystalline structure with particle sizes of 2–20 μm. Within the framework of the circular economy, an ecologically safe technology for decontamination of industrial iron-containing sulfate solutions of galvanic production using a complex of electrodialysis and ferrite methods is proposed

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Section: % Was Obtained When Using a Three-chamber Electrolyzer With ...mentioning

confidence: 99%

Section: % Was Obtained When Using a Three-chamber Electrolyzer With ...mentioning

confidence: 99%

Devising a comprehensive technology for treating industrial iron sulfate-containing effluents of galvanic production

Dovholap,

Gomelya,

Ivanenko

et al. 2023

EEJET

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Alkali-activated cements as sustainable materials for repairing building construction: A review

Kryvenko,

Rudenko,

Sikora

et al. 2024

Journal of Building Engineering

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Nickel–Yttrium Ferrite Nanopowders for Solving Environmental Problems

2019

Nanosist. Nanomater. Nanotehnol.

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Among the family of spinel ferrites, nickel ferrite NiFe 2 O 4 obtained by ceramic technology was widely studied due to its tremendous properties such as high electromagnetic performance, excellent chemical stability and mechanical hardness, and moderate saturation magnetization, making it as a good contender for the application as soft magnets and low-loss materials at high frequencies. The structure, mechanical, magnetic, electrical, and dielectric properties of nickel ferrite are dependent on several factors including the method of fabrication, sintering time and temperature, chemical composition, type and amount of dopant, grain structure. The sol-gel processing with autocombustion (SGA) technique was used for the synthesis of NiY x Fe 2x O 4 (x0.0, 0.1, 0.2, 0.3, 0.4, 0.5) ferrite nanoparticles. The mixed solution was dried at temperature around 403 K. During evaporation, the solution becomes viscous and finally formed as a xerogel. At further elevation of temperature, the organic constituents are decomposed with the generation of gases such as CO 2 , N 2 and H 2 O; therefore, the xerogel automatically ignited. The autocombustion was completed within a few seconds, yielding the nanopowders of nickel-yttrium ferrites. The XRD results confirm single-phase formation of the as-prepared NiFe 2 O 4 sample. The powders substituted with Y 3 ions, except the spinel-type phase, contain additional -Fe 2 O 3 and Y 2 O 3 phases too. The powder sizes decrease from 43 nm to 17 nm with increase in amount of Y 3 ions. The EDX results confirm the presence of Ni, Fe, Y, and O elements in Ni-Y-ferrite powders. The infrared (IR) spectra were recorded at the room temperature in the range from 400 cm 1 to 4000 cm 1 ; they confirm the spinel structure. As found, the adsorption capacity of Ni-Y ferrite increases, while the substitutions with Y 3+ ions increase. The adsorption process increases with increasing pH, has a maximum at pH7, and depends on the dye type.Серед феритів зі структурою шпінелі властивості фериту ніклю NiFe 2 O 4 , одержаного за керамічною технологією, є широко вивчені, оскільки він

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Development of technology of industrial wastes treatment products disposal by ferritization in the matrix of alkali-activated cements

Cited by 3 publications

References 5 publications

Devising a comprehensive technology for treating industrial iron sulfate-containing effluents of galvanic production

Devising a comprehensive technology for treating industrial iron sulfate-containing effluents of galvanic production

Alkali-activated cements as sustainable materials for repairing building construction: A review

Nickel–Yttrium Ferrite Nanopowders for Solving Environmental Problems

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