DE508167C - Production of shelf-stable chlorinated lime - Google Patents

Description

Production of shelf-stable chlorinated lime In the production of. Chlorinated lime is known to be of great importance to obtain a product, its Effective chlorine content is as high as possible from the outset as well as through Storage in warm air, e.g. B. in the tropics, suffers no loss.

The chlorinated lime produced in the usual way has because of its relative high water content is known to have only a low shelf life, and one: As a result, has @repeatedly searched for, lEtteln and ways to get the water content to remove the chlorine lime, or to render it harmless in some other way.

Investigations by the inventor on the Lagerbestä nidigkeit of the chlorine lime with decreasing water contents have shown that there is chlorinated lime with about i "/" and less water content particularly resistant to the effects of heat is.

From the work of various authors on the formation of chlorinated lime it is also known that when chlorine acts on hydrated lime, the Ca0 bound molecule of water. by chlorine (as well as by any carbonic acid present) is displaced, and that both this amount can be calculated from the chlorine content (theoretical) as well as the free water supplied as moisture in the hydrated lime in the manner of crystal water to the chlorine compounds formed, the calcium can be tied. Since this loosely bound water has a certain steam tension, it can occur under the effect of the vacuum or an inert gas stream are removed from the chlorine compounds.

A number of so-called drying processes are based on this fact for chlorinated lime was justified with the purpose of being produced in the normal way Chlorinated lime with about 10 to 14 '/ "water adds a large part of the water content withdraw it by holding it at increasing temperatures in a non-carbonated air stream and, if necessary, also dried in vacuo. But it is known -that when drying of such a chlorinated lime after this process always considerable losses initially effective chlorine can be determined which. at the same time with that. to be removed Water escapes. These losses result in an increase in the effective The chlorine content in the end product is not as great as it is based on the calculation Should be the reason for the withdrawal of water. A not inconsiderable part of the effective Chlorine is converted into chloride or Transferred to chlorate. The proceedings have «-eiterkin the disadvantage that for the disposal and recovery of the escaping strong dilute chlorine, suitable measures are to be taken, and finally that the Drying can only be undertaken at a moderate pace in the beginning.

It has also been suggested that after this move in the chlorinated lime the smaller amounts of moisture still remain to be bound by quick lime. Quite apart from the loss of effective chlorine as a result of the previous pre-drying and the further reduction of the proportion of effective. Chlorine by adding Quick lime, however, also provides completely sufficient resistance with this method of the chlorinated lime not achieved.

It was: the observation that the raffles of effective chlorine in the drying of chlorinated lime after the. known processes are to a large extent dependent on the water content of the starting product, and indeed it has been found that noticeable losses of effective chlorine always occur, but only when the water content of the chlorinated lime to be treated is higher, than corresponds to the theoretical amount of water. For a chlorinated lime with 36 to 37% effective chlorine, this is about 9.5 "[" water if dry hydrated lime has been used. A chlorinated lime with a water content below this limit can, however, be freed from this water content without noticeable loss of chlorine by the known methods, either by a carbonic acid-free dry air stream, or in a vacuum, with a progressive increase in temperature This dewatering can be carried out to below the threshold of 1/0 moisture content which has been determined to be decisive for the stability of the chlorine lime, without any significant loss of effective chlorine. Here, a product is obtained which, with the highest content of effective chlorine, has a storage stability that has not been achieved before.

The known processes for the production of chlorinated lime provide now normally a chlorinated lime, the water content of which is not inconsiderable. above the threshold of 9.5 0/0 determined for the drying without a mistake, so that in the initially necessary drying process, up to this limit, there are always losses effective chlorine can be determined.

It has now been found that these losses can be avoided. if you use the chlorinated lime prepared by a known process before drying so much Ca0 is added that at least that about the theoretical (free) water content existing water is bound by it. As a practical rule, it has been found half as much to as much: to add more parts of unslaked lime than parts of free Water in the chlorinated potash: are present. In addition, one can add CaO Increase it to such an extent that, after drying, the finished product is no less more than 35 0 (o contains active chlorine. The chlorinated lime mixed with Ca O is left a few Days, possibly with moderate warming, during which time the The quick lime extinguishing takes place, and then subjects it to one of the well-known: Drying process.

For example: a chlorinated lime with 36.5 ° fo wirhsamein. Chlorine and 11.5 ° j, Water content is mixed with 6% Ca0 and left to stand for a few days. Its more effective The addition of chlorine reduces the chlorine content to 34.4%. The subsequent drying delivers with a very small loss of chlorine through almost complete removal of the water a product with 36.5 effective chlorine and i r ° i, water content.

Claims (1)

PATENT CLAIM: Process for the production of dry chlorinated lime, characterized in that a finished chlorinated lime produced according to known '\' experience of 36% or more effective chlorine is mixed with about half to as many parts of quicklime as the chlorinated lime parts of free water contains, then the mixture is exposed to temperature conditions which lead to a quenching of the added: Ca 0 with an increase in temperature, and. this product is completely freed from water by treatment with a stream of warm air.