DE3319502C2 - Use of residues from fluidized bed incineration as secondary raw materials for cement production - Google Patents

Abstract

Use of secondary raw materials for cement, whereby these consist of combustion residues according to the principle of the fluidized bed and are taken as "bed ash" behind the fluidized bed or as fine dust behind a cyclone separator or behind a filter and are added to the fluidized bed combustion without admixture with other residues or together or in pairs mixed dry with a single residue and ground together with a cement raw material to cement raw meal or after the burning of the raw meal together with the burnt cement clinker to cement.

Description

The invention relates to the use of residues from fluidized bed combustion as secondary raw materials for cement production.

The raw materials used for the production of cement must contain the main components lime, silica, Contains clay and iron oxide. For this purpose, marl lime and Mergei with a calcium carbonate content of approx. 60% - 80% used. In such cases where marl limestone or marl are not available, high-quality limestone deposits and clay pits must be exploited will.

The principle of fluidized coating is particularly suitable for the combustion of inferior ones Fuels and even industrial residues that are otherwise costly and polluting would have to be, such as B. Flotation mountains, wash mountains, pond sludge from coal production and sewage sludge; Of course, other fuels, such as higher-quality fuels, can also be used according to this process Coals, ballast coals, peat and oil shale can be burned. With the incineration of waste Although the problem of their landfilling is alleviated, it has not yet been possible to remove the residues of the To utilize fluidized bed combustion economically. So far they have to be deposited again. It is only attempts have been made to specifically target residues resulting from the incineration of flotation mountains Production of masonry bricks, as an additive for mortar binders and for the production of a lightweight concrete aggregate to use. The residues from the incineration of flotation mountains are due to their chemical-physical similarity to natural raw materials (e.g. clays) represents a singularity, the is not transferable to combustion residues of other substances and especially not to coal and therefore is left out in the following. Especially for residues from burning fossil fuels According to the fluidized bed principle, there are currently no possible uses.

The residues resulting from the fluidized bed combustion can change their chemical-physical properties be completely different. It depends on

- the type of material to be burned,

- the procedure for incineration,

- the feedstock for desulphurisation and the degree of desulphurisation,

- the discharge points of the system (e.g. ash behind a fluidized bed, ash behind a cyclone, ash behind a filter).

The residues from different discharge points also show differences in terms of their Grain size distribution.

These residues are also not comparable with ashes from systems with other firing technologies, such as grate, dust or melting chamber firing, since here the incineration takes place ^{at significantly higher temperatures (<1000 ° C.).} While residues from grate, dust or melting chamber firing usually have a glass content (vitreous components) of over 90%, residues from fluidized bed firing are predominantly in a crystalline state, which is contrary to their use in many areas of the building materials industry. In the reference Gumz, Kirsch, Mackowsky, Schlakkenkunde (1958) pp. 291-292, the addition of fly ash from the fluidized bed combustion of lignite to mixed binders is mentioned. Mixed binders are hydraulic binders that are produced by grinding together predominantly hydraulic or Putzolan substances and stimulators. However, there is no question of using fluidized bed dilution residues as a substitute raw material (secondary raw material) for conventional cement.

P. Magel in Zement, Kalk, Gips (1983) 249-253 describes the use of dry-firing fly ash as a raw material for cement production. However, between dry combustion fly ash and combustion residues from fluidized bed combustion, there is the fundamental difference that the residues of vertebral sight incineration occurring at considerably lower combustion temperatures in the range from about 700 to 850 ^° C. are largely crystalline, while the ashes from dry combustion in the case of higher temperatures of above 1000 ^{° C.} are essentially glassy.

The invention has therefore set itself the task of solving the residue problem of fluidized bed combustion to solve and at the same time relieve the storage of high-quality raw materials.

This object is achieved according to the invention through the use of residues from fluidized bed combustion in proportions of 1-60% by weight as secondary raw material solved for cement production.

The invention is based on the surprising finding that despite its largely crystalline State the residues from fluidized bed combustion have latent hydraulic properties, d. H. set under water absorption and are suitable to act as a real cement component. ι ο

It is possible to use the secondary raw material in different ways. He can go along with the natural raw materials added to the usual and well-known processing plants and finally with them are ground together to make cement raw materials. It is particularly advantageous if there are residues with increased carbon content are used, the latent energy of which can be used in clinker firing will. According to the invention, in this case, the direct desulphurization with calcium-containing Absorbent unused lime component - as a necessary component of the cement raw meal - can also be used. According to the invention, the proportion of excess lime is between 0.1 and 34% by weight, preferably between 1.5 and 15% by weight.

Furthermore, according to the invention, the raw material can be added to a completely burnt cement clinker in proportions of 5-30% by weight, preferably 10-15% by weight, and ground together with it. For this purpose, it is particularly advantageous to use the fine fraction of the residue after prior separation at 90 μm. It has been found, surprisingly, through experiments that the component CaSO ₄ (anhydrite II) is essentially concentrated in the fine-grain range. At the same time, the anhydrite serves to regulate the setting of the cement later and can in this way completely or partially replace the addition of a sulphate carrier.

If necessary, the secondary raw material can also be used on its own be ground and added in this form to the cement raw meal.

A decisive advantage that is achieved by the invention is that when adding the from the Fluidized bed incineration residues to the cement raw meal the properties of the finished cement are standard. This economic factor is increased by the fact that at the same time a There is no need for costly landfilling and high-quality storage facilities are also spared.

Claims (10)

Patent claims: 1. Use of residues from fluidized bed incineration in proportions of 1 to 60% by weight as secondary materials for cement production. 2. Use according to claim 1, characterized in that the secondary raw material with a cement raw material preferably in proportions of 5 to 40% by weight together to form cement powder will. 3. Use according to claim!, Characterized in that that the secondary raw material consists of the bed ashes removed from behind the fluidized bed. 4. Use according to one of claims 1 to 3, characterized in that the secondary raw material consists of a fine dust removed behind a cyclone separator. 5. Use according to one of claims 1 to 3, characterized in that the secondary raw material consists of a dust removed from behind a filter. 6. Use according to one of the preceding claims 1 to 5, characterized in that the Secondary raw material from a dry mixture of the residues occurring at the individual extraction points consists. 7. Use according to one of the preceding claims 1 to 6, characterized in that the secondary raw material contains 1 to 40, preferably 3 to 20 wt. O / o CaSO ₄ in the form of anhydrite II. 8. Use according to one of the preceding claims 1 to 7, characterized in that the Secondary raw material contains 0.1 to 34% by weight, preferably 1.5 to 15% by weight of free CaO. 9. Use according to one of the preceding claims 1 to 8, characterized in that the Secondary raw material anhydrite, CaO and residual carbonate mainly in the grain size < 90 μίτι contains. 10. Use according to one of claims 1 to 6, characterized in that the secondary raw material is divided into grain fractions.