SU1318529A1 - Method for purifying hydrated titanium dioxide - Google Patents

Abstract

The invention relates to the production of titanium dioxide and provides an increase in the degree of purification of hydrated titanium dioxide (GDT) from chromophore impurities during filtrating, washing and washing its suspension on drum vacuum filters. The cleaning method of GDT involves treating its suspension with titanium (III) sulfate 0.01-0.7% Ti ,, 0, by weight Tie, I 3., J in suspension in the presence of potassium compounds in the amount of 15-50% in terms of KO from the content of m {a9zB as the compound, use the compound from the group including KC1, KgSO, KOH, NOOK,,, double an equimolar mixture of potassium compounds with inorganic and organic anions from the group consisting of KC1 and NSOOK, KC1 and CHjCOOK, and NSOOK, KjjSO and, KOH and NSOOK, KOH and. The content of impurities in the GDT, wt.%: Fe 0,012 - 0,020, V 0,0015-0,0025, Cr 0,0002 - 0,0003. The whiteness of titanium dioxide .95,5-96,0. 1 hp f-ly, 2 tab. with s

Description

The invention relates to the production of titanium dioxide, in particular to the purification of hydrated titanium dioxide (GDT) from chromophore impurities, and can be used in inorganic chemistry.

The purpose of the invention is to increase the degree of purification. DGT from chromophore impurities during filtration and washing of its suspension on vacuum drum filters.

Example. Take 10 dm of pre-washed iron content of 0.7 wt.% Suspension of GDT with a concentration of 350 g / dm TiO ,, obtained by hydrolysis of a solution of titanyl sulfate - decomposition product of ilmenite concentrate - and add a solution of titanium sulfate (III) to it to a concentration of 0.5, potassium chloride to a concentration of 0.075 g / dm in (15 wt.% K, jO from) and sulfuric acid to a concentration of 10 g / dm. The resulting reaction mixture is stirred for 30 minutes and then filtered and washed on a laboratory drum vacuum filter with a filtration surface of 0.1 dm / ./20 m of water. The filtrate is analyzed for content. The washed precipitate of GDT is calcined at 850 ° C in the presence of potassium, zinc, and rutile deposits and analyzed.

In tab. 1 shows the data on the purity of GDT and the whiteness obtained from GDT under various conditions of the proposed comparison with the well-known,

In tab. 2 shows the degree of purification of GDT and the whiteness of titanium dioxide for various potassium compounds.

Offer a ".1Y method 250,0200,0025

150,0150,0020

25 0,0130,0015

15 0,0120,0020

The proposed method makes it possible to efficiently clean the GDT from chromophore impurities with a low consumption of sulfuric acid during filtration and washing of the GDT on vacuum drum filters.

F o rmula of the invention

Claims (1)

1. The method of purification of hydrated titanium dioxide, including the processing of its suspension with titanium (III) sulfate in an amount of 0.01-0.7% by weight of TiO in suspension, followed by filtration and washing of the suspension, characterized in that increasing the degree of purification of hydrated titanium dioxide from their chromophores; impurities during filtration and washing of its suspension on drum vacuum filters, processing the suspension of the original product with titanium sulfate (ill) is carried out in the presence of 5 potassium compounds in the amount of 15-50% by weight based on the content. on K, O suspension. thirty 2, a method according to claim 1, characterized in that a compound from the group consisting of KCl, K 80, KOH, HCOOK, CHjCOGK, KgCg 0, a double equimolar mixture of potassium compounds with inorganic and organic anions from the group including KS1 INSOOK, KS1 and CHjCOOK, K, SQ, and NSOOK, and CHjCOOK, KOH and NSOOK, KOH and 40 CH jCOOK. Table 1 Editor I. Gorna Compiled by L. Romantseva Tehred V. Kadar Proofreading. Muska Order 2472/18 Circulation 455 Subscription VNISh State Committee of the USSR for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab. 4./5 Production and printing company, Uzhgorod, st. Project, 4 Continuation of table 1 Table 2