DE609839C - Process and device for the production of all kinds of cement - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
FEBRUARY 26, 1935

REICHSPATENTAMT ■

PATENT LETTERING

JVe 609 CLASS 80c GROUP

Metallgesellschaft Akt.-Ges in Frankfurt a. M. *) Process and device for the production of all kinds of cement

Patented in the German Empire on April 5, 1933

The heat economy for Portland or high-alumina cement production is particularly favorable with the known use of fixed or moving grates on which the feed consisting of a mixture of raw materials and fuel is initially ignited and then sintered by sucking or forcing air through it. In particular In the case of Portland cement production, the firing is repeated on the blow grate, i. i.e. that in a first combustion process The material obtained is crushed to a suitable grain size and mixed with fuel and treated again on the rusting rust. Another method of burning cement of all kinds consists in that of the feed consisting of the raw materials and fuel the Verblaserostes still substantial amounts, z. B. 40 to 100 percent by weight of the finished, z. B. to grain sizes of less than 10 mm comminuted goods are added.

The finely ground raw materials are now not readily available for cement burning Suitable for rusting. Rather, you have to

be converted into a granular or crumbly, well air-permeable form.

It is known to feed cement raw meal in grain form to the rotary kiln. This grain shape was made by sprinkling with water in a rotating drum. So had raw sludge that has already been dried, possibly after grinding with other raw sludge, is used mixed in a rotary drum, calcined and sintered in a rotary tube. Another well-known one Method is that raw sludge ζ. B. drained on filters and means Extrusion is cut into small shapes. These briquettes were in dry Raw meal rolled and pre-burned on a traveling grate or the like to then in a rotary kiln ready to be sintered.

A grain produced by this known method is, however, suitable for sintering Not very suitable on the rusting grill. The individual grains partially disintegrate prematurely during of fading. This disrupts the uniformity of the sintering process, so that an uneven or inferior product can result.

The invention makes it possible to eliminate and overcome these difficulties in all cases to get a particularly high-quality product by the fact that the loading after special aspects and prepared for the blowing process. This is because it has been found that blowing is the most uniform and of the highest quality product delivers when the starting materials are mixed in sludge form with the return material and the fuel, thereby creating a mixture is used, which consists of 1 part of raw materials, 0.8 to 2.5 parts of returned material and fuel

') The patent seeker stated as the inventor:

Or.-Ing. Helmut IVendebor η in Frankfurt a. M.

substance is made. The result is a grain that sinters very evenly on the grate, so that too much or too little heated areas in the charge no longer occur. Apparently this success is due to that such a charge retains its granular shape throughout the duration of the blowing, so that the distribution the blowing wind when passing through the ίο loading always remains uniform and uneven Wind breakthroughs caused by sintering can no longer occur.

Furthermore, the invention has the advantage that raw cement sludge can be used without additional expenditure of heat being required for drying. As is known, wet processing of the raw material has a number of advantages over dry processing. In particular, wet processing gives better cement. Until now, however, raw sludge has only been used after drying it on the traveling grate. The invention makes this drying superfluous, without practically increasing the fuel consumption of the sintering. For example, it has been possible to produce Portland cement with a heat input of around 1000 to 1200 kcal for 1 kg of clinker. One can thus having from 14 to 20 ° / ₀ fuel - based on clinker - survive. For example, about 800 kcal per kilogram of clinker are required for the production of high-alumina cement. It is by no means necessary to use a high-quality fuel, as is the case with the rotary kiln; B. also use bituminous slate and the like. The ash content of these fuels must of course be taken into account in the composition of the raw +0 sludge.

The low fuel consumption of the method according to the invention is partly due by the fact that the exhaust gases are at a very low temperature, the average is not much above 100 ° C, emerge from the charge of the vent grate. Still be Reached very high temperatures in the charge during firing. So are z. B. 1400 to 1700 ° C have been measured. All of the starting materials are expedient mixed with the return material and fuel in sludge form. In some cases, however, you get good products when only a large part of the mixture components in sludge form, the rest z. B. in the dry state is applied.

In all cases it is best to proceed in such a way that all or at least a large part of the moisture required for the preparation of the mixture is introduced through the sludge-like starting materials. It is important here that the moisture content required for the respective mixture is kept within narrow limits. It should always be (consisting of starting materials, recycled material, fuel and Be.-dampening water) under 2o ° / _0, in most cases less than 10 to 15% of the weight of the finished feed. Part of the humidification water can e.g. B. for the purpose of more precise adjustment of the moisture content also especially during or after the mixture or the fuel or the return material or a mixture of these two substances are added.

The sludge-like state of the starting materials can be brought about in various ways be e.g. B. can be the thin sludge or thick sludge produced in a known manner to use without further ado. Also raw materials obtained by the semi-wet process are usable. But you can also prepare the raw materials by dry grinding and converting the raw meal into sludge with water or aqueous solutions.

Is z. B. a thick sludge with 36 ° / ,, water is used, which contains about 100 parts of dry substance per 156 parts of sludge, so can the feed mixture for the suction grate can be composed as follows, for example: 156 Parts thick sludge, 188 parts returned material, 12 parts coke breeze. This mixture contains about 15.7% Water. The fuel consumption - based on the clinker produced - is about 18%.

As is customary in known processes, the returned material is expediently divided into grain sizes about 10 mm, suitably less than 6 mm, e.g. B. 0 to 3 mm, used, which is also beneficial affects the evenness of the mix and the air permeability of the load.

The coarser grain classes of the returned material can, as is known per se, as a rust deposit to serve.

The fuel can be added to the mixture in various ways. Man can use the fuel z. B. add the finished mixture so that it is in the charge of the Verblaserostes is mainly between the individual grains or crumbs of the mixture. But it is also possible to use the arrangement no to be taken so that the fuel is either in the sludge-like starting materials or is contained in the return material before mixing or is added during mixing. Particularly in the latter cases it then ends up in the individual grains or crumbs which the loading exists. It is fairly evenly distributed in the layers that the surface of each grain or crumb form so that the heat transfer from the burning fuel is very beneficial to the material to be burned.

In some cases, it can be useful to apply two or more layers to the grate to apply, with each layer starting materials, return material and fuel in different Contains amounts and weight ratios. Since z. B. with the induced draft process, the lower layers of the feed are better preheated they may contain less fuel or return cargo, and it's on In this way it is possible to save some more fuel.

The height of the load on the grate should not be too high. It recommends to keep them under 40 cm. The best results in terms of product quality and throughput were obtained with loading heights between 20 and were 30 cm. Also the pressure or negative pressure with which the combustion air

jo is guided through the loading, plays one certain role. It is advisable to reduce the negative pressure in the under the Suction boxes lying on the grate should not be higher than 120 cm water column '.

One for the method according to the invention. suitable facility is, for example, in the Fig. Ι the drawing shown schematically.

The containers 1 and 3 are used for separate. 30 Picking up fuel and returned goods. By doing Container 2 is cement slurry under pressure. Cement slurry, returned goods and fuel get in the prescribed ratio in the auger 4 to the mixture, the is shown in Fig. 2, for example, in section. The returned goods and the coke breeze are discharged from the containers 1 and 3 by turntables, while the cement slurry from the Container 2 is sprayed onto the contents of the auger by means of nozzles. From this

- · The finished mixture arrives in the feed bunker 5 of the traveling grate 6. From the bunker 15 a grate layer of about 10 to 20 mm in height is first placed on the traveling grate,

45. Consisting of broken clinker, applied. The mixture is then fed from the bunker 5 at the appropriate height in each case. The charge moves under the ignition furnace 7 and is ignited there on its surface. At the same time 8 air is sucked through the feed by means of the fan. The combustion gases emerging from the charge flow from the suction box 10 through the lines 9 and the blower 8 to the forge 16. The traveling grate moves at a speed that the burning process has progressed to the grate and ended when the individual grate units Move over the rear edge ΐο ^{Λ of} the suction box or the last suction box. At the end of the traveling grate, the sintered material is thrown off. It falls from the traveling grate onto the cup 17, in which it is crushed to a suitable size. The crushed material reaches the sieve device 11, which z. B. is designed as a vibrating chute. The arrangement and choice of sieves is z. B. made so that the crushed material is separated into three grain classes, of which the first is about G to 10 mm, the second about 6 to 10 and 20 to 25 and the third is about 20 to 25 mm. The grain classes below about 6 to 10 mm are discharged at 14 and used as return goods. The grain sizes between about 6 to 10 and 20 to 25 mm, which are discharged at 13, serve as a grate coating. The coarse grain arrives by means of the conveyor 12 on the stacking area or in the grinding plant and is processed on cement.

In the method according to the invention, as in the known methods, the work with blowing grate, the operation can be interrupted at will. E.g. it is possible only to work during one shift a day. Any waste fuel, e.g. B. Waste coke breeze, find use. The fuel doesn't need to be ground, it's supposed to but if possible have a grain size of less than 3 mm. The clinkers produced according to the invention (both Portland and Alumina cement clinker) can be broken easily.

As with other blowing processes, the cement raw materials can have a low sintering and Melting temperature can be adjusted. It is also possible to sinter such cements where The sintering point and melting point are close to each other and therefore, e.g. B. in the rotary kiln, only with difficulty or at all cannot be burned - such as B. iron oxide-rich cements of all kinds, z. B. Cooling cement or ferrous alumina cement.

The method according to the invention is carried out according to the same criteria set out above, regardless of whether Portland ^l ° ⁵ cements of all kinds, e.g. B. white Portland cement or calcium aluminate cement, or other special cements are to be produced. The same oven, preferably the suction grate, can be used for all types of cement. As far as the lime side is concerned, the base of the cement raw materials can be based on gypsum or (and) lime and blast furnace slag and (or) marl, and either clay or blast furnace slag or bauxite or ash or iron ores and the like can be used as components containing alumina and iron oxide or mixtures of two or more of these substances are used. Differences between the Portland and Clay. Earth cement and special cement production according to the invention consist only in the fuel consumption and in the mixing ratio

the starting materials with the returned goods, which of course the respective nature of the · starting materials need to be adjusted.

Claims (4)

Patent claims: i. Process for the production of all types of cement, e.g. B. Portland or high alumina cement ο. Like., by burning the raw materials mixed with returned material on stationary or moving grates, the heat required for the process being generated by burning the fuel added to the charge by means of air sucked through or forced through the ignited charge, characterized in that the raw materials of the rest Charging for the blow grate in sludge form, e.g. B. as thick sludge, so that they are required for the mixture of ι part starting materials, 0.8 to 2.5 parts return material and fuel, below 20 ° / ₀ , z. B. io ° / ₀ , amounting moisture or a large part of the same. 2. The method according to claim i, characterized in that the return material in grains below about 10 mm, e.g. B. ο up to 3 mm, grain size is used. 3. The method according to claim 1 and 2, characterized in that the charge for the grate consists of several layers one on top of the other, one below the other. have different fuel and return material contents. 4. Apparatus for carrying out the method according to claims 1 to 3, characterized by mixing devices for the various components of the feed, through a traveling grate with feed devices for the mixture, through the crusher downstream of the traveling grate for the fired material and classifying devices, e.g. B. Sieve channels, for the distilled and broken goods, the breaking and classifying devices being designed in such a way that that they deliver the quantities of return goods required for admixture with the loading. For this purpose ι sheet of drawings