RU2031845C1 - Method of zirconium hydroxide preparing - Google Patents

Abstract

FIELD: chemical technology. SUBSTANCE: zirconium hydroxide is precipitated from zirconium nitrate solution containing 150-200 g/l zirconium and 350-430 g/l nitric acid with 20-25% ammonia solution taken at stoichiometric quantity. Intermediate exposition of hydroxide gel formed at pH 2.4-2.8 is 5-10 min. Then precipitate is filtered off, washed with water at 80-95 C and dried. EFFECT: improved method of zirconium hydroxide preparing. 1 tbl

Description

 The invention relates to hydrometallurgy of rare metals and can be used in the production technology of zirconium compounds, in particular dioxide.

 Hydroxides obtained by precipitation from aqueous solutions are technologically inconvenient, since they are gel-like, poorly filtered and poorly washed from impurities sediments.

 In addition, the hydroxides released by precipitation from aqueous solutions coalesce during the drying process, which makes it inevitable to use the grinding operation before calcining to dioxide, which increases the energy consumption and the possibility of contamination of the final product.

 A known method of producing zirconium hydroxides in the form of finely dispersed, crystalline, well-filtered powders by processing solid oxychloride, tetrachloride, basic sulfate and zirconium disulfate with aqueous solutions of alkalis and ammonia, taken in excess, at room temperature [1].

 The disadvantages of this method are the impossibility of using zirconium in hydrometallurgy in relation to complex technological solutions, the duration of the process, the use of a large excess of precipitant.

A method of producing a well-filterable zirconium hydroxide by precipitation from a solution of zirconium oxychloride with ammonia gas for 1.5 hours. The resulting gel-like product was washed, filtered and dried at 120 ^C. During the drying, formed large solid pieces that to eliminate this defect was placed in a water and after exposure was filtered and re-dried [2].

According to another embodiment of the method [2] in order to avoid caking process by drying the zirconium hydroxide hydroxide gel was frozen at liquid nitrogen temperature and after 24 h was separated into an aqueous phase and a sediment layer, after filtration, washing and drying, which at ¹²⁰ ° C was obtained a fine powder.

 The disadvantages of both variants of the method [2] are the duration of the process and the complexity.

The closest in technical essence and the achieved result is a method of producing a hydroxide powder by adding an ammonia solution to a 1 M solution of zirconium oxychloride to a pH of 2.5, heating the resulting solution for three weeks under reflux, coagulating the resulting sol by adding an ammonia solution, filtering, washing and drying the hydroxide at ¹²⁰ ° C or by centrifugation [3].

 The disadvantage of the prototype is the duration of the process.

 The aim of the invention is to accelerate the deposition of hydroxide in the form of a well-filtered powder, not clumping during the drying process.

The goal is achieved by the deposition of zirconium hydroxide from a solution of zirconium oxy nitrate containing 150-200 g / l of zirconium and 350-430 g / l of nitric acid, 20-25% ammonia solution, taken in stoichiometric amount with an intermediate exposure of the hydroxide gel at pH 2 , 4-2.8 for 5-10 minutes, washing is carried out with water at 80-95 ^about C.

 The selected limits of the values of the parameters of the implementation of the proposed method are determined by the following: a decrease below the declared values of the concentration of zirconium, nitric acid, ammonia, pH, exposure time and temperature of water washing does not allow to obtain hydroxide with the specified parameters. An increase above the stated values of the concentration of zirconium, nitric acid, ammonia and the temperature of the water washing is impractical, since it does not improve the properties of the obtained hydroxide, and an increase in pH and exposure time can lead to a gel-like, poorly filtered hydroxide.

 The proposed method is as follows.

In a nitric acid solution of zirconium containing 150-200 g / l of zirconium and 350-400 g / l of nitric acid, a 20-25% ammonia solution is continuously added with stirring and the acidity of the solution is constantly monitored. When the pH is adjusted to 2.5-2.8, the aqueous ammonia solution is stopped and the resulting hydroxide gel is maintained without stirring for 5-10 minutes, after which the remainder of the calculated stoichiometric amount is added portion of the 20-25% solution ammonia. Then hydroxide was washed with water, heated to 80-95 ° ^C. The dried to constant mass hydroxide represents no lumps, non-caking free-flowing product that is useful for organizing the continuous loading into the calciner and requires no operation to grinding after calcining zirconia.

Example 1. To 1 liter of a solution containing 150 g / l of zirconium and 350 g / l of HNO ₃ , a 20% ammonia solution was added with stirring to a pH of 2.8. The resulting hydroxide gel was incubated for 5 min and the rest of the ammonia solution was added (Σ V = 1.75 g / l). The filtration rate of the obtained hydroxide is 7.8 m ³ / m ² ˙ h. Then hydroxide is washed with water at 80 ° ^C and dried at ¹⁰⁰ ° C for 4 h. The dried hydroxide lumps is not free-flowing powder suitable for direct calcination without prior grinding.

 The invention is illustrated by the examples presented in the table.

Subject to the values of the main parameters of the deposition process and water washing within the claimed limits, hydroxide is obtained in a well-filtered form (filtration rate of 6-8 m ³ / m ² ˙ h). The drying time of such hydroxide in a shelf muffle furnace does not exceed 4 hours, subject to all other conditions (layer thickness, drying temperature) - examples 1; 2. Dried hydroxide is a loose, non-clumping white powder with a low content of impurities, if a technological solution is used as the starting product. The content of impurities in relation to zirconium (wt.%) Is not more than: Fe 0.008; Al 0.001; Cr 0.003; Ni 0.003; Ti 0.002; Si 0.005. This product can be directly used to obtain zirconia by calcination without preliminary preparation (keeping under water, grinding, etc.), since it does not crumble during drying.

The increase in the concentration of zirconium (example 8), nitric acid (example 9), the temperature of the water washing (example 10), the concentration of NH ₄ OH (example 5) is impractical, since it does not lead to an improvement in the properties of hydroxide.

The increase in the pH of the hydroxide exposure (example 12) and the exposure time (example 14) leads to the formation of highly hydrated hydroxide, the filtration rate of which does not exceed 3 m ³ / m ² ˙ h, i.e. reduced filtering performance. This increases the energy consumption for the drying process, since the drying time increases by more than 2.5 times, and is 10 hours

A decrease in the concentration of zirconium (example 6), nitric acid (example 7), ammonia (example 4), the temperature of the water wash (example 3), the pH of the hydroxide exposure (example 11) and the duration of the hydroxide exposure (example 13) leads to a sharp decrease in productivity filtering process up to 0.8-4 m ³ / m ² ˙ h, since a highly hydrated gel-like product is formed, and a significant increase in energy consumption for the drying process (drying time 10 h).

Claims (1)

METHOD FOR PRODUCING ZIRCONIUM HYDROXIDE, including precipitating it from a concentrated solution of zirconium salt with an aqueous solution of ammonia, filtering, washing and drying the product, characterized in that the precipitation is carried out from a solution of zirconium nitrate containing 150 - 200 g / l of zirconium and 350 - 430 g / l nitric acid, a solution of 20-25% ammonia, taken in stoichiometric amounts, with an intermediate exposure of the resulting hydroxide gel at a pH of 2.4 - 2.8 for 5-10 minutes, and washing is carried out with water at 80 - 95 ^o C.

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