CS260148B1 - Method of cleaning leachate and tungsten ore - Google Patents

Abstract

A high cleaning effect in precipitating the above-mentioned impurities from the leachate and forming a readily filterable precipitate is achieved by adding potassium permanganate and then a reducing agent such as hydroxylamine to the leachate at a pH of 9.5 to 12.5.

Description

The invention relates to a process for purifying tungsten ore leachate from silicon, arsenic and phosphorus.

The cleaning of the tungsten ore leach is generally carried out by adding insoluble salts to the leachate after removal of most of the silicon. The procedure is known (K, C,

Li, CYWang, Tungsten, In ed (Reinhold, New York, 1947, p184), in which an oxidizing agent such as sodium chlorate is added to the extract, followed by the addition of magnesium chloride or sulfate, and the solution is boiled for about 3 hours, then cooled to 60 ° C and ammonia and optionally ammonium chloride are added. After settling for several hours, the extract is filtered. Following the procedure (S.W.H * Yih, C.T.Wang, Tungsten, Plenum, New York, 1979, p.103), aluminum sulfate and magnesium sulfate are added to the extract at pH 9 to 9.5. Other processes (eg, US 4,311,679, US 4,115,513) include the addition of a magnesium salt at a pH of about 9 to 11.5. All of the above processes have a good cleaning effect, with tungsten loss due to entrainment of about 1 to 2%, depending on the leachate contamination. The disadvantage of all these processes is the formation of a fine precipitate which sediments very slowly. It is therefore necessary to filter the entire volume of the extract, the filtration is difficult, time consuming and can not be done without the use of filter aid. It is known to purify the leach by adding ferric salt to the leach at a pH of about 10.5 (J.P. 60 09804). This process produces a well filterable precipitate, but the purification effect is considerably less than that of magnesium salts, and tungsten losses are up to about 5. A further approach is directed to reducing tungsten losses associated with the above processes (US 4,349,515). It is essentially based on the precipitation of artificial schexite (calcium tungstate) from the leachate and the decomposition of the prepared scheelite with a sodium carbonate solution at a pressure of 15 to 25 bar. This is a very laborious procedure and only applicable to the removal of phosphorus from very polluted ores.

The above disadvantages are overcome by the method of purifying the tungsten ore leachate of silicon, arsenic and phosphorus according to the present invention. This method consists in the fact that at a pH of from 9.5 to 9.5

12.5 add to the leachate an alkali metal permanganate and / or a permanganate and a reducing agent such as hydroxylamine in an amount sufficient to reduce most of the permanganate and / or permanganate to manganese hydroxide, and the precipitate formed is separated. An advantage of the process according to the invention is the powerful cleaning effect. A further advantage of the process according to the invention is the formation of a well-settling precipitate. The bulk of the precipitate settles within a few tens of minutes. In the process according to the invention, only small losses of tungsten occur.

According to the process of the invention, it is possible to purify the crude extract directly after decomposition of the ore, but it is preferable to use it only after the removal of most of the silicon. If the extract after the pretreatment does not have a pH of 9.5 to 12.5, according to the invention, it is first adjusted to this range and then potassium permanganate and / or potassium or permanganate, respectively sodium, are added in an amount of about 0.1 to 5 g per 100 g of tungsten. in the leach. After mixing the leach, a reducing agent capable of reducing the manganese compound to manganese hydroxide, for example sodium sulfide, hydroxylamine, hydrazine, their hydrochlorides, etc., is added, preferably in small portions. to white. During the addition of the reducing agent, the pH is adjusted if necessary by addition of an alkali metal hydroxide. The extract is then stirred for at least 0.5 h, preferably 1 to 2 h. It can then be filtered. However, it is preferable to allow it to settle, to decant most of the precipitate, or to purify it from the precipitate residue by passing it through a layer of activated carbon, and to filter only a small portion, approximately 10-15% of the leachate volume. The order of addition of permanganate and the reducing agent may be interchanged or both may be added simultaneously.

The process according to the invention differs substantially from all the known methods of purification of the extract. It is based on the finding that the reduction of the manganese compound to manganese hydroxide results in a substantial reduction in the content of silicon, arsenic and phosphorus in the leachate.

Example

250 ml of tungsten ore extract (216 g / l sodium tungstate (as tungsten oxide WO ^), 0.386 g / l silica SiOg, 70 mg / l arsenic As, 29 mg / l P) are heated to 80 ° C, added with 1 g of potassium permanganate and, after stirring for 15 minutes, hydroxylamine hydrochloride (2g) is added to the coloration. Stir the extract at 80 ° C for 2 h and allow to settle. After standing for 2 hours, about 80% of the extract volume was decanted and the residue was filtered.

Sirá filtrate a'dekantátu mixture contains 35 mg / 1 of SiO _2, 13.8 mg / 1 and 7.4 mg of As / 1 P. washed precipitate contains only 0.22 g W0.j, i.e., 0,4.1% total WO ^,

Claims (1)

Method for purifying tungsten ore leachate from silicon, arsenic and phosphorus, characterized in that, at a pH of 9.5 to 12.5, an alkali metal permanganate and / or an alkali metal permanganate and a reducing agent such as hydroxylamine or sodium sulfide are added in an amount sufficient to reduce most of the alkali metal permanganate and / or alkali metal permanganate into manganese hydroxide and the precipitate formed is separated. · 260148