DE932424C - Process for the digestion of silica-rich clays - Google Patents

Description

The lime-soda process is often used for the digestion of alumina-containing substances, in which. the silicic acid present in the starting products is to be converted into calcium silicate by means of lime, while the alumina is converted into soluble aluminate by the soda, which is then obtained by leaching the sinter and processed into alumina hydrate. In this procedure, however, too high a silica content in the starting materials should be avoided, since otherwise there is a risk that, as a result of the formation of alkali silicates, part of the alkali is lost for the aluminum formation. In order to reduce the silica content of the starting materials before the digestion, a whole series of processes is already known, which in many cases make use of the pretreatment of the starting materials with sodium hydroxide solution after they have previously been subjected to a calcination. So one has z. B. investigations are made about how far the silica can be removed from clays if they are ^{pre-annealed at 800 to 1100 0} C and then treated with sodium hydroxide solution of various concentrations. Here, it was found that calcination of clays at temperatures of about 1000 ⁰ C "5 around with a subsequent treatment with io ° / cent sodium hydroxide solution already allows the removal of substantial amounts of silica from clays, however, succeeded in doing just at best, to arrive at a product , which corresponds to the molar ratio SiO ₂ : Al ₂ O ₃ = 1: 1, i.e. the sillimanite, ie still contains 30 to 25% SiO ₂ with 52 to 45% alumina content. If a higher sodium hydroxide concentration of 20% was selected

a noticeable attack on the clay and thus the usefulness of the process discarded.

Also siliceous Bauxite is treated / cent sodium hydroxide solution at 90 to 95 ⁰ C for 4 hours after pre-annealing at temperatures of 900 to 1000 ⁰ C with io ° while S3 ° / o away present in the bauxite silica. For reasons similar to those given above, however, one has refrained from increasing the alkali concentration.

In contrast to this view, it is now proposed according to the invention, the in known manner at temperatures between about 900 to 1100 ⁰ C, especially iooo ⁰ C, pre-glowed, siliceous clay and then with an alkali, especially caustic soda, more than 20% of alkali , calculated as hydroxide, ^{to be treated at temperatures between about 70 °} C. and the boiling point for about 15 to 30 minutes, which makes it possible to remove the greater part of the silica content from the clay. The leaching is preferably carried out with an approximately 30% alkali lye. It is true that even with the procedure described it cannot be avoided that a certain amount of the clay itself is dissolved, but this amount - as has been found - is of subordinate importance compared to the total alumina content of the clay. It is essential that the treatment time of the silica-rich clays is chosen to be relatively short, since - as has been found - it is possible in this way to dissolve a lot of silica but little alumina. The invention thus overcomes the concerns that had to be raised by those skilled in the art with regard to the use of a more highly concentrated sodium hydroxide solution to remove the silica from silica-rich clay.

This results in particular from the fact that, according to the invention, concentrations substantially exceeding a content of 20% NaOH are used with preference. Thus, it has been found that it is vorteilhaftesten to work with a Na O H-concentration of about 30% and to treat the preannealed at about ⁰ C iooo clay at about 100 ⁰ C with this liquor. This already makes it possible _{to reduce the Si O 2} content to significantly less than half, while the loss of alumina, in contrast, does not amount to more than 10% of the total amount of Al ₂ O ₃ . As was further found, these results can be further improved by having the residue obtained in the first treatment then a second treatment with a thinner alkali which has a concentration of approximately up to 10%, preferably 5 to 7.5% NaOH , subject to the same conditions. In this way it is possible to remove up to 85% of the SiO ₂ content from clays rich in silica, while only 10 to iS% of the clay is dissolved. An "artificial bauxite" is obtained, the SiO ₂ content of which is between about "15 to%, while the alumina content can be increased to 70% and more. The alkali quantities required for both stages are about 0 _{for 1 mole of SiO 2,} 5 to 2 moles of Na ₂ O; it is advisable to use a ratio of about 1: 1. Too much alkali reduces the economic efficiency of the process succeeds in keeping the losses of alumina within acceptable limits, such short times being of considerable importance for the economic efficiency of the process.

The clay refined according to the invention can be worked up perfectly by the known sintering process, with moderate alkali losses because, in addition to the considerably reduced SiO ₂ content, the remaining silica - as has been found - is largely unreactive during the pretreatment according to the invention.

In a further embodiment of the invention, it is proposed to preheat the silica-rich To make clays at the temperatures mentioned for about only 1 hour. A Another component of the invention can be seen in the fact that in one or both leach stages The resulting silica-rich lye is treated with lime and / or magnesia or their hydrates, as a result, the silica is removed and returned to the lye stages in the cycle.

Examples

1. A clay 53.6% SiO ₂ and 43% Al ₂ O ₃ is heated ι hour on iooo ⁰ C and then extracted for ¹ hour at about ioo A ° C with stirring or pumping with 3o% Na OH. The sodium silicate solution obtained is filtered off. The residue obtained has 27% SiO ₂ and 65% Al ₂ O ₃ . If this residue is washed with 7.5% strength NaOH under the same conditions, a product with 19.9% Si O ₂ and 70.5 _{% Al 2} O _{3 is obtained} .

2. In the same way, a tone with 51.2 ¹ Vo SiO ₂ and 43.7% Al ₂ O ₃ is treated, wherein a first residue containing 28.8% SiO ₂ and 65.1 ° / o Al ₂ O ₃ and after the second treatment gives a product with 19.6% SiO ₂ and 69.6% Al ₂ O _3.

3. In the case of a further clay with 51.3% SiO ₂ and 43.7 _{% Al 2} O _{3 , a first residue with 20.6% SiO 0} and 70.5 ° resulted after a treatment as in Example 1 / o Al ₂ O ₃ . The end product contained 17.3 _{% Si O 2} and 72.2% Al ₂ O ₃ .

Claims (5)

PATENT CLAIMS: i. Process for the digestion of silicic acid-rich clays by pre-annealing them at temperatures between about 900 and 1100 ⁰ C, especially at 1000 ⁰ C, and a subsequent treatment with alkali, especially sodium hydroxide, characterized in that the treatment with an alkali of more than 20% Alkali, calculated as hydroxide, takes place at temperatures between about yo ° C and the boiling point for about 15 to 30 minutes ", whereupon the residue obtained is processed further after the S inter-final process. 2. The method according to claim 1, characterized in that that the leaching is carried out with a ca.3o% alkali lye. 3. The method according to claim 1 and 2, characterized in that one in the leaching obtained residue from a second treatment with a thinner alkali, which has a concentration of about 2 to 10%, in particular 5 to 7.5% NaOH, under otherwise identical conditions as subjected to the first leach. 4 · The method according to claims 1 to 3, characterized characterized in that the preheating time of the clay is measured at about 1 hour. 5. The method according to claims 1 to 4, characterized in that the one or Silica-rich lye with lime and / or magnesia or theirs obtained in both leaching stages Treated hydrates, thereby removing silica and returning them to the lye stages in the cycle will. Referred publications:
Fulda-Ginsberg "Clay and Aluminum", Verlag Walter de Gruyter & Co., Berlin, 1951, i. Part »Die Clay«, pp. 132/134.