DE4344232A1 - Adding waste aluminium prods to raw material used to produce cement - Google Patents

Abstract

Al residue prod. arising from etching and anodising baths used to surface treat Al parts are added to the raw materials such as limestone, sand, clay etc. to produce cement. The ingredients are comminuted and flux added before being calcinated and then fired in a high temp. furnace to produce clinker which can then be worked to powder.

Description

The present invention relates to a ver drive to the production of cement, by which method Raw materials include lime, sand, clay and / or raw mate rialien of appropriate composition in crushed Form and with the addition of any flux and possibly after a previous calcination to Ze clinker clinkers are burned in a high temperature furnace, which cement clinkers are processed into cement powder the. The invention also relates to the use of Residual products when anodizing aluminum workpieces the production of cement.

In the production of Portland cement, they are Main raw materials: lime, sand and clay such as calcium, Silicate and silicate / aluminum source. In certain cases one or more of these raw materials by other raw materials s, such as B. fly ash, replaced by an appropriate Composition is sought. Iron can also be used  oxides, which act as a flux during the clinker burning act, but which have the side effect, the cement to give a characteristic gray color. At the Her The provision of white Portland cement must be the raw materials s selected with care to be free of iron and in certain cases you have to be the ordinary raw materials by adding raw aluminum fabrics, such as B. kaolin, supplement. Such additions are often precious because in many cases these raw materials are not are available locally.

The present invention is based on the object de, to instruct a procedure in which one at Her provision of cement the possible raw materials by alumi can enrich or supplement nium-containing overproducts, which overproducts directly as raw material at the manufacturer Provision of cement to complement the other Rohma aluminum compounds occurring nen.

The method according to the invention solves this problem and is by what is stated in the characterizing part of claim 1 featured.

When anodizing aluminum, aluminate solutions with excess sodium hydroxide are formed from the baths for pickling and aluminum sulfate solutions from the anodizing baths. These solutions are constantly being exchanged and contain considerable amounts of aluminum in dissolved form by dissolving about 80 g of aluminum per m ^{2 of} anodized workpiece in the anodizing process. The flows from the ongoing exchange of the two baths are usually mixed and neutralized, which usually happens with sulfuric acid, since there is often an excess of basic solution. The resulting aluminum hydride jelly can be used directly in the manufacture of cement as an aluminum source and can, for. B. added during preparation of the raw material. However, it will be advantageous to dewater the aluminum hydroxide jelly as much as possible, partly for transportation reasons and partly to get rid of as much of the dissolved sodium sulfate as possible.

The method has the further advantage that that the problem with the removal of the aluminum-containing Residual products in the anodization industry on a ver Landfill useful and environmentally and environmentally friendly Resource in a particularly satisfactory manner. These residual products can also have traces of various degrees of gravity metals contained in the baths with a view to the anodization certain colors and / or surfaces to achieve impermeability have been resolved. This Traces of heavy metals can consist of tin (Sn), alloys of the aluminum, e.g. B. Magnesium (Mg), Silicon (Si), Manganese (Mn) and Chromium (Cr) occurrence.

In many cases, anodizing systems that due to sensitive wastewater recipients some cases of sulfate. This is done with calcium ver bindings made, the filter cake from Ent watering calcium aluminate, gypsum and aluminum hydroxide will hold. These components can be used directly and with pre part in the raw materials of a Portland cement production enter by z. B. gypsum in cement as a means of regulation the hardening time of the cement. Keep going often Flocculants used, e.g. B. bentonite products.

An essential feature of the residual products Anodization of aluminum is that it has no content Have iron. When producing white Portland The filter cake will be cement from the drainage of this Residual products therefore an extremely usable aluminum be a source. The invention therefore also includes use formation of residual products when anodizing aluminum workpieces in the manufacture of cement.

In the process, it is advantageous to use aluminum store the filter cake containing it, in order to Mixing of filter cakes from different areas to obtain a more similar raw material and partly to achieve drainage. Aluminum hydroxide has the property, in particular, that it cri  installed and thereby crystal water and physically "gel" -ge releases bound water. If stored for a long time water is released thereby and thereby also a part dissolved sodium sulfate.

The chemically precipitated aluminum compounds used in the anodizing industry in the described ways are particularly suitable for this, in raw meal sludge measurements due to the fine crystalline, almost amorphous, gel like form. The key to the cement clinic Ker process is just a very similar together mix of very crushed raw materials that the kitchen mixing reactions between partially solid substances lichen. Raw meal slurries with aluminum hydroxide gel are still very stable.

The invention thus relates to a method in Manufacture of cement using residual products when anodizing aluminum as part of the Manufacture used raw materials.

The main raw materials in the production of cement are Rialien Kal, Sand and loam like or calcium, silicate and Si likat / aluminum source. In some cases egg continues connections. In the manufacture of cement usually suitable, locally available raw materials, which are excavated as geological deposits. Often the local geological deposits have to be added tongues of other raw materials for the regulation of z. B. miss aluminum can be added. Such a shortcoming is said in usually remedied by adding kaolin, but what must be considered an expensive raw material that only to the extent deemed absolutely necessary is set.

Especially in the production of white Portlandze ment must take special consideration of the raw material used alien be taken, since these must not contain iron fen, which is precisely the component that gives cement its own gray color there.

In cement manufacturing, the raw materials are carefully mixed by a slurry or a dry process, and the mixed and crushed raw materials are then fired. According to the invention, the aluminum-containing filter cake product can be slurried with one or more of the other raw materials in cases where a wet process for slurrying and crushing the raw materials is used. The firing takes place either in a single stage in a tube furnace or in two stages with a calcining process as the first stage, where the lime releases its bound carbon dioxide, and another clinker burning in a high-temperature tube furnace, where the burning in countercurrent with the combustion gases from ent is neither gas, oil or coal dust firing. After firing, the clinker is ground to a fine powder and various additives are added, in particular gypsum (CaSO ₄ ), which regulates the hardening time of the cement.

When preparing the raw materials, aluminum hydroxides can also be used as an aluminum source according to the invention. The aluminum hydroxides are created as a residual product when anodizing aluminum. When anodizing aluminum, approximately 80 g of aluminum are dissolved per m ^{2 of} anodized workpiece. The aluminum occurs as aluminate solutions with excess sodium hydroxide from baths used in pickling and acidic aluminum sulfate solutions from the anodizing baths. These solutions are constantly being replaced and are usually mixed together and neutralized with acid or base depending on the current composition of the mixture. Usually there is an excess of base and therefore z. B. neutralized sulfuric acid. The result is an aluminum hydroxide jelly that you try to dewater to the greatest possible dry matter before it is taken away. In many cases, sulfate precipitation is required, which is done with calcium hydroxide or another calcium compound, and the filter cake from the dewatering then contains calcium aluminate, gypsum and aluminum hydroxide. The filter cakes will normally contain 25-30% dry matter, which is mostly aluminum oxide, and a little more in filter cakes, which contain gypsum.

However, this solids content is low in the ratio to the content used in the cement production Raw materials is desired. It is therefore desirable to reduce the water content. According to the invention, this can happen that the aluminum-containing raw material ge is stored. Aluminum hydroxide has the property that it crystallizes with aging and thereby crystal water and releases physically "gel" bound water. It is therefore advantageous both out of consideration for achieving a similar raw material as a higher solid material stop, storage of the aluminum-containing filter cake increase so that a mixture of filter cakes from different producers and with different manufacturers data takes place. The bound water contains Sodium sulfate and it is beneficial to use as much as possible to get rid of the sodium content.

The aluminum-containing filter cake can be used as one Enter aluminum source, replace the added kaolin can, and calcium-precipitated filter cake become the gypsum contribute to the raw materials.

Any traces of heavy metals in the filter cakes can easily be accepted in the cement clinker become. Some of them have other sources in advance len a certain content of such metals, some go Metals in the cement in a form where there is no drainage can happen. A special property at aluminumhal filter cake is that it has no iron content point. They are therefore particularly beneficial in the raw materials for the production of white Portland cement can go.

Claims (8)

1. A process for the production of cement, in which process raw materials comprising lime, sand, clay and / or raw materials of appropriate composition in comminuted form and with the addition of any fluxing agents and possibly after a previous calcination to cement clinker are fired in a high-temperature furnace, which cement clinker further processed to cement powder, characterized in that the raw material is supplemented by the addition of residual aluminum-containing products from precipitation of pickling and anodizing baths for surface treatment of aluminum. 2. The method according to claim 1, characterized in that that the aluminum-containing residual products are precipitated aluminum nium hydroxide jelly are made by mixing basic Pickling baths and sulfuric acid anodizing baths and / or end neutral with sulfuric acid or sodium hydroxide is. 3. The method according to claim 2, characterized in that that the aluminum-containing residual products are further cal Calcium hydroxide or other calcium compounds precipitate sulfate are.   4. The method according to claim 2 or 3, characterized indicates that the precipitated and previously dewatered alu residual product containing minium for the extraction of further water and dissolved sodium sulfate by crystallization (Al tern) of the aluminum hydroxide content. 5. The method of claim 1, wherein the raw material al is slurried and crushed by a wet process, characterized in that the aluminum-containing filter product with one or more of the other raw materials lien is slurried together. 6. The method according to any one of claims 1-5, in which an addition of kaolin to regulate aluminum silicate content of the raw material is used, characterized net that the aluminum-containing residual product at least partially as the kaolin addition replaced. 7. Use of residual products in the form of filter bags Chen that of anodizing baths for surface treatment are pulled out of aluminum workpieces, as aluminum and possibly source of gypsum in the manufacture of Portland cement. 8. Use according to claim 7, characterized in that the cement produced is white Portland cement.