DE1471388C3 - Process for making hydraulic binders of gray color - Google Patents

Description

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The invention relates to a method for producing hydraulic binders of gray color by heat treatment of a corresponding raw material in a whirling furnace, the one used for whirling Gas contains approximately only as much oxygen as that contained in the raw material for combustion organic components and / or the added fuel is required.

It is known that marl lime and other similar raw materials, e.g. B. Posidonia slate, with heating to temperatures below the sintering temperature, by reaction in the solid State hydraulic binders can be produced. The heat treatment of such raw materials can in a manner known per se by incineration or Carbonization of organic components or added fuels contained in them e.g. be carried out in the fluidized bed process. The raw material to be treated in the whirling furnace, z. B. marl, before it is fed into the whirling furnace, generally on grain sizes Pre-shredded by a maximum of 8 to 10 mm and is therefore relatively coarse-grained, so that when used of air as fluidizing gas to form the fluidized bed requires considerably more air than for the combustion of the fuel or the organic components is required and the combustion with a high air factor going on. The high oxygen content present here has to As a result, especially in marls with iron oxide contents, that contained in the mineral component Iron oxide is oxidized to its trivalent form and the hydraulic binder produced turns red. These Red color is when the binder z. B. is used for plaster mortar and exposed concrete, undesirable and can include the application of solid-state reaction binders restrict. Listed because of getting used to the gray color of other hydraulic binders this reddish hue is seen as a defect.

The invention is based on the object of producing hydraulic binders To make heat treatment of a corresponding coarse-grained raw material in the vortex furnace so that the binder despite the large amount of fluidizing gas necessary to fluidize the raw material is perfectly gray in color.

The invention is based on the assumption that the German patent specification 976 445 a method of burning or continuously calcining limestone or other solids is known in which the solid is kept in a fluidized state by air or another gas and if air is used as the fluidizing gas, the excess air over that theoretically required for combustion Amount of air is also kept as small as possible in the reaction zone. Preferably the Excess air should not be more than 3%. In this known method, however, the limestone or other solid material as indicated in column 3, lines 91 to 94, prior to introduction into the reaction zone, if it is not yet fine enough, finely ground it so that it is at the specified low Air volume the vortex state can be achieved. Coarse grain raw material with those given above With this small amount of air, however, grain sizes of around 8 to 10 mm cannot enter the vortex state be moved and held in this.

Furthermore, through the German patent specification 641 122, a process for the production of colorless (white) cement is known, in which the clinker directly from the to form colorless clinker hot zone of the furnace is transferred to an airtight device in which the Fired goods using special coolants and keeping air or other away Gases with a higher oxygen content experience a rapid cooling. Also the German explanatory document 1 036 745 shows that solid fuel products are known in the manufacture of white cement to cool in the absence of air or in contact with low-oxygen gases. None of the aforementioned patents but a technical teaching can be found that provides a solution for the present Invention could represent the object specified in the production of hydraulic binders by heat treatment of coarse-grained raw material in a whirling furnace a considerable proportion Apply fluidizing gas containing air in the amount required to form the fluidized bed to be able to without the material to be treated turning red due to the oxygen in the air.

The invention conveys to solve this problem

on the other hand, there would be a technical teaching that there is that in a method of the type specified above, the raw material with a fluidizing gas is treated from air, the flue gas, water vapor or inert gases, such as. B. nitrogen or carbon dioxide or contains a mixture of these gases and that the solid fuel products are known per se Way in the absence of air or in contact with low-oxygen gases to temperatures below 300 ° C.

In the method according to the invention, the cooling process is carried out in such a way that the access from air to the fired products down to temperatures at which the atmospheric oxygen is prevented cannot oxidize the iron compounds of the raw material. This turns it a red color of the binder produced largely avoided. It has been shown that the gray color of the binder is favored if, according to a further feature of the invention, fine-grain burner certificates discharged together with the flue gases from the vortex furnace and together with the Flue gases are cooled. When the method according to the invention is carried out in this way, the Combustion of the fine components in the gas space above the fluidized bed together with the volatile ones organic components of the raw material, e.g. oil shale. Here it may be necessary to complete combustion of these components in the furnace head to add secondary air above the fluidized bed. According to the invention, the combustion should in any case be controlled in such a way that the flue gases do not occur contain more oxygen.

The invention also proposes that a fluidized bed of inert solids, such. B. balls made of sintered corundum or porcelain 1 to 2 mm in diameter and / or made of lumpy fired marl up to about 10 mm grain size or from a mixture of the components mentioned in any ratio to one another is used. In this embodiment of the invention, an artificial fluidized bed is so to speak created. Such an artificial fluidized bed also allows fine-grained material to be treated, which in itself is not able to form a fluidized bed.

The progress of the invention is achieved both by the fact that predominantly coarse firing material after Discharge from the whirling furnace treated with reducing gases in cooling screws or similar devices and is cooled as well as by the fact that a very finely ground raw material, e.g. B. Oil shale, the Fluidized bed is fed, so that the majority of the fuel - in the borderline case even the entire Brenngut- is obtained in gray color by separation from the flue gases.

With regard to the exemplary embodiment of the invention, the following is noted: The mineral component of the bituminous limestone marl, e.g. B. Posidonia schist, has such a composition that hydraulic binders are formed by reaction in the solid state during heat treatment below the sintering temperature. Other bituminous deposits have too low a calcium oxide content in their mineral constituents, so that only latent hydraulic substances like the route and pozzolans are formed when burning. Limestone can be added to these substances during the burning process, which then supplies the calcium oxide required to stimulate the hydraulic properties. Other substances have an excess of lime; Clays can be added to these substances during firing, the activity of which is later stimulated by the excess of calcium oxide produced during firing. The content of organic components in the bituminous deposits varies considerably. There are rocks with only a few percent organic components and those with over 25%. When burning the bituminous marl, if you work with grain sizes up to a maximum of 8 to 10 mm, an amount of air of about 1300 irrVt is necessary to put the material in the fluidized state and to keep it in suspension in the fluidized bed. For this reason, there is inevitably a high air factor when burning. In technology, the air factor is referred to as "n" and is generally used to indicate the excess air in a combustion. It is defined by the formula

■ sch) ^{: i}

An air factor of 1.0 therefore means that just as much oxygen is supplied as is required for combustion. An air factor of 1.2 would mean that there would be a 20% excess air during combustion. In order to avoid the red color, so much flue gas must be added to the fluidizing gas when carrying out the method according to the invention that an air factor of 1 results. If, for example, Posidonia slate with 9% combustible components is used as the raw material, 1 t of this material contains 90 kg of organic matter. ^{About 900 m 3 of} air are required to burn this amount. However, since one has to work with 1300 nrVt in order to maintain the vortex effect, an air factor of 1.45 would exist when using air as the fluidizing gas in the fluidized bed. In order to lower the air factor to 1.0, according to the invention, mixtures of air and flue gas are used as the fluidizing gas, approximately of the following composition:

With 0% oxygen in the flue gas:
69.1 percent by volume air and
30.9 percent by volume flue gas.

When using inert gases such as nitrogen, carbon dioxide or water vapor, the composition is of the fluidizing gas:

69.1% air and 30.9% inert gas.

Even with the use of mixtures of inert gases with air remains

the ratio of air: inert gas = 69.1: 30.9.

If there are bituminous marls with a higher content of combustibles, the air factor is because the The amount of gas required for swirling remains constant, and decreases as the fuel content of the marl increases. at a marl with 12% combustibles can be used to carry out the method according to the invention E.g. the following mixing ratios can be used:

With 0% oxygen in the flue gas:
88.6 percent by volume air and
11.4 volume percent flue gas.

When using inert gases such as nitrogen, carbon dioxide or water vapor, the composition is of the fluidizing gas:

88.6% air and 11.4% inert gas.
After the firing process that took place in
500-1100 ⁰ C, preferably proceeds at 700 to 900 ° C, the right to the solid combustion residues are discharged from the oven and immediately cooled in a water-cooled screw conveyor or in a cooling drum while avoiding entry of air. The entry of air must be prevented up to a temperature of about 300 ° C. The combustion residues can be cooled in a cooling drum or in a shaft cooler in contact with combustion gases containing no more than 5% oxygen, so that the iron compounds are reoxidized.

The inventive method can also ι marls which have less or no organic I.

. contain components, by adding fuels (hard coal, lignite, oil, etc.)

ίο be carried out.

Claims (4)

Patent claims: 1. Process for producing hydraulic binders of gray color by heat treatment a corresponding raw material in the whirling furnace, the gas used for whirling contains approximately only as much oxygen as for the combustion of the organic contained in the raw material Components and / or the added fuel is required, characterized in that that the raw material is treated with a fluidizing gas from air, the flue gas, water vapor or inert gases, such as. B. nitrogen or carbon dioxide or a mixture of these gases and that the solid fuel products in a manner known per se in the absence of air or in contact with low-oxygen gases Temperatures below 300 ° C are cooled. 2. The method according to claim 1, characterized in that fine-grain fired products discharged together with the flue gases from the vortex furnace and together with the flue gases be cooled down. 3. The method according to claim 1 or 2, characterized in that a fluidized bed of inert Solids, e.g. B. balls made of sintered corundum or porcelain from 1 to 2 mm in diameter and / or from lumpy fired marl up to about 10 mm grain size or from a mixture of the above Components is used in any ratio to one another. 4. The method according to one or more of the preceding claims, characterized in, that the combustion is controlled so that the flue gases do not contain significant amounts of oxygen contain.