DE1066938B - - Google Patents

Description

It is well known that raw materials that are as low in iron as possible are used to produce white Portland cement clinker. mainly low-iron limestone and clay. But also with low iron contents of the raw materials a pale yellow to greenish tint of the burnt clinker is the rule, if not with a reducing color Fire and deterrence or both while keeping the oxygen out of the air will. These latter procedures require extensive equipment measures and the most careful handling, which is associated with increased manufacturing costs.

Whatever the way the firing is done, keeping the iron content small will make it easier in any case the production of white clinker is essential. This is not only due to the natural limestone and clay deposits to think of, but also of that from the Crushers picked up iron. Even if mostly with flint stones especially for this purpose and tube mills equipped with flint lining stones are used, the inclusion is nonetheless of wear iron from the pre-shredders cannot be avoided, and even from the Wear of the flint stones and flint lining results in a noticeable absorption of iron in the grist.

The idea of the invention is that of hard grinding for the production of white cement raw meal once completely eliminated by the fact that the limestone content would be the same as in the lime industry Calcined in a coke, gas or oil-fired shaft furnace or rotary kiln, then extinguished dry and finally being wind sighted. When removing the quicklime produced in this way from the shaft furnace, the fines, preferably consisting of ash and clayey material, can be separated effortlessly, see above that from this side, too, an appreciable supply of iron compounds cannot occur.

Through the air sifting and the separation of the limescale, which experience has shown are enriched in clayey components from the lime and in ash residues, a further considerable takes place Reduction of the iron content. The deletion and sighting process results in a division of the lime component, as it cannot be achieved by grinding no matter how long, and this too is done to the greatest extent Advantage of the cement quality to be achieved. On the other hand, according to the invention, there is the clay component subjected to a slurry process instead of being dried and ground as usual. Also here is - with completely "iron-free" comminution - an otherwise unattainable fineness guaranteed, at the same time are the stony impurities of the clay, which are also not beneficial for the procurement process for the production of clinker for white Portland cement

Applicant: Trier lime, dolomite and cement works

Josef Schnuch, Wellen (Upper Moselle)

Josef Schnuch, Wellen (Upper Moselle), has been named as the inventor

unity of the raw meal for white cement are excreted.

The two components thus obtained are intimately mixed in a known manner in that the Lime hydrate powder is stirred into the clay sludge in mixer kneading machines or pan grinders. at Appropriate choice of the raw material components results in a high level of performance according to the method described Especially low-iron and easy-to-burn raw meal dough, which is then granulated and placed in a rotary oven or on the sintered grate is burned. The use of the sintered grate as a burning machine for white cement clinker has so far failed due to the initially discussed discoloration of the clinker. By the invention possible reduction of the iron content can now also be found on the sintered grate of white portland cement clinker to be burned. When using rotary kilns, oil or gas is used as fuel, low-ash coke for sintered grates.

Claims (3)

Patent claims: 1. A method for producing clinkers for white Portland cement, characterized in that .that the preparation of the limestone by calcining, dry slaking and air sifting, that the clay component is done by slurrying. 2. Use of mixing kneading machines or pan mills to carry out the process according to claim 1. 3. Use of a sintered grate for carrying out the method according to claims 1 and 2. ® 909 637/352 9.59