Studies on the Processing of Fine Dusts from the Electric Smelting of Ilmenite Concentrates to Obtain Titanium Dioxide

Ultarakova, Almagul; Karshigina, Z. B.; Lokhova, Nina; Yessengaziyev, Azamat; Kassymzhanov, Kaisar; Mukangaliyeva, Arailym

doi:10.3390/ma15238314

Cited by 5 publications

(5 citation statements)

References 18 publications

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“…High quality of pigmental titanium dioxide is provided by the rutile phase; therefore, titanium dioxide was calcined at a temperature of 900 • C for 2 h to obtain the rutile modification. The TiO 2 content was 99.8 wt%, and the content of impurities of silicon, chromium, manganese, and iron in recalculation on their oxides was 0.0005, 0.032, 0.005, and 0.039 wt%, respectively, in the obtained rutile product [36]. According to the content of the main component and accompanying impurities, the product complies with the requirements of the state standard GOST 9808-84 for pigment titanium dioxide [37].…”

Section: Titanium Dioxide Production and Purificationmentioning

confidence: 94%

“…Obtained fluoride sublimations of titanium have the following composition (wt%): 59.0 Ti; 0.6 Fe; 0.005 Si; 0.09 Cr; 0.14 Al; 20.4 F; and 19.8 O. Studies of titanium fluoride pyrohydrolysis with the investigation of the influence of temperature (in the range from 300 to 700 • C) and duration of the process (in the range from 1 to 5 h) have shown that optimal parameters are 600 • C and a duration of 4-5 h [36].…”

Section: Titanium Dioxide Production and Purificationmentioning

confidence: 99%

“…Information about the use of fluoroammonium treatment in the available patent and scientific literature refers to natural titanium-containing raw materials. There are sporadic studies on the application of the fluoroammonium-processing method to titanium slurries with the production of calcium nitrate and titanium dioxide [28,29]. Silicon with alkali forms a water-soluble sodium silicate; therefore, in our previous studies [30], to separate silicon from titanium, electric smelting dust of ilmenite concentrate was leached with a sodium hydroxide solution.…”

Section: Introductionmentioning

confidence: 99%

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Technology for Complex Processing of Electric Smelting Dusts of Ilmenite Concentrates to Produce Titanium Dioxide and Amorphous Silica

Karshigina

Ultarakova

Lokhova

et al. 2022

Metals

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This paper presents the results of research on the development of a technology intended to process electric smelting dusts of ilmenite concentrate with the extraction of silicon and titanium and the production of products in the form of their dioxides. Dusts were processed for silicon separation using the ammonium fluoride method. The optimum conditions for the fluorination and sublimation process of silicon compounds from the electric smelting dust of the ilmenite concentrate were determined: a temperature of 260 °С, a 6 h duration, and mass ratio of dust to ammonium bifluoride of 1:0.5 ÷ 0.9. The sublimation degree of silicon compounds was ~84–91%. The sublimation of titanium fluorides from the remaining sinter was carried out at a temperature of 600 ± 10 °C for 2 h, the mass ratio titanium-containing residue: ammonium bifluoride of 1:0.5, and the degree of sublimation of titanium fluorides was 99%. Iron, manganese, and chromium impurities in the sublimation of titanium fluorides sublimate to a rather low degree. Pyrohydrolysis of titanium fluoride sublimes at 600 °C and allows for the conversion of fluorides into titanium dioxide by 99.5% in 4–5 h. Titanium dioxide of rutile modification with 99.8% TiO2 was obtained after hydrochloric acid purification and calcination. A technological scheme for the complex processing of dust from the electric smelting of ilmenite concentrates with the production of silica and titanium dioxide is proposed.

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Section: Titanium Dioxide Production and Purificationmentioning

confidence: 94%

Section: Titanium Dioxide Production and Purificationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Technology for Complex Processing of Electric Smelting Dusts of Ilmenite Concentrates to Produce Titanium Dioxide and Amorphous Silica

Karshigina

Ultarakova

Lokhova

et al. 2022

Metals

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“…The high rates of development of these technology branches determine the continuous increase in demand for rare metals which provides for further expansion of their production [ [1], [2], [3]]. The use of titanium-magnesium production waste abundant in rare metals can contribute to solving this problem [4]. Niobium and zirconium are a common satellite of titanium; therefore, they are found in titanium concentrates obtained from ores of ilmenite deposits.…”

Section: Introductionmentioning

confidence: 99%

Study of the leaching process for dust chamber sublimates followed by the extraction of niobium and zirconium into solution

Yessengaziyev,

Toishybek,

Mukangaliyeva

et al. 2024

KIMS/CUMR/MShKP

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The material composition of the sublimates from dust chambers in titanium chlorinators has been studied by chemical, X-ray and microprobe analysis methods. Studies of the phase composition of dust chamber sublimates have shown that the object consists of aqueous and anhydrous chloride phases to a greater extent. Two forms of niobium present, such as oxychloride and oxide niobium were found. The presence of zirconium in sublimates has a chloride and oxychloride nature. Experiments for the aqueous leaching of dust chamber sublimates were conducted to determine the optimal process conditions: S:L ratio = 1:8, leaching time = 1 hour, temperature = 25℃. Studies were conducted to choose an acidic reagent for cake leaching followed by the conversion of niobium and zirconium into a solution. A solution consisting of HF+H2SO4 was selected as an acidic reagent for cake leaching. Optimal conditions for the extraction of niobium and zirconium into solution were established, such as 25% [18M HF] +75% [7M H2SO4], S:L ratio = 1:3, temperature = 90 °C, duration of the leaching process = 120 minutes. Under these leaching conditions, the extraction of niobium, zirconium, and titanium into solution was 94.06%, 84.95% and 32.35%, respectively. The elemental and phase composition of the residue from acid leaching of cake were determined.

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“…They also proposed an experimental study on ultrasound-enhanced sulfuric acid leaching for zinc extraction from zinc oxide dust [5]. Ultarakova et al present studies on the ammonium fluoride processing of dust from the reduction smelting of ilmenite concentrate with silicon separation to obtain titanium dioxide [6]. Optimal conditions for pyrohydrolysis of titanium fluorides were determined.…”

mentioning

confidence: 99%

Recovery of Non-Ferrous Metal from Metallurgical Residues

Chen

2023

Materials

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Studies on the Processing of Fine Dusts from the Electric Smelting of Ilmenite Concentrates to Obtain Titanium Dioxide

Cited by 5 publications

References 18 publications

Technology for Complex Processing of Electric Smelting Dusts of Ilmenite Concentrates to Produce Titanium Dioxide and Amorphous Silica

Technology for Complex Processing of Electric Smelting Dusts of Ilmenite Concentrates to Produce Titanium Dioxide and Amorphous Silica

Study of the leaching process for dust chamber sublimates followed by the extraction of niobium and zirconium into solution

Recovery of Non-Ferrous Metal from Metallurgical Residues

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