CS245054B1 - Equipment for heat treatment of powder raw material - Google Patents

Abstract

The invention provides a device for preheating powdered raw material, especially for the production of cement clinker, in a preheating unit consisting of two branches, formed by a preheater, a calciner and a hot cyclone, while the preheated air from the clinker cooler is fed to the calciners and the flue gases from the sintering device are fed to the hot cyclones and further to the preheaters of the respective preheating branch. The powdered raw material passed through the preheater and the calciner is fed into one of the branches of the flue gas line from the sintering device to the hot cyclone, from there after separation the raw material is fed into the sintering device and the flue gases into the respective preheater. The raw material is fed into the hot cyclone of the same or another preheating branch. In this way, the preheated raw material is kept at the calcination temperature for a longer time, which allows it to be calcined more completely.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for heat treatment of powdered raw material, in particular for the production of cement clinker.

The initially used preheater, for example a shaft preheater, was used to preheat the introduced feedstock, or used some of the heat from the flue gas by re-introducing it into production. During development, it has become apparent that a preheater can include a calciner where, by supplying hot air from the clinker cooler, and additional fuel, a calcining temperature is generated at which the powdered material consumes heat, kailcinates and then sinters in the sintering device.

Over time, however, it turned out that at high outputs it is advantageous to divide the preheating and calcining unit into more parallel branches. Furthermore, it has been found that the residence time of the calcined pulverulent feedstock at calcination temperatures is short, so that calcination reactions are insufficient and ways have been sought to keep the pulverulent feedstock at calcination temperatures longer to calculate perfectly so that only sintering takes place in the sintering apparatus.

These drawbacks are overcome by a plant for heat treatment of pulverized feedstock, in particular for the production of cement clinker according to the invention, consisting of two branches of a calciner-terminated preheater, supplemented by a device for maintaining calcined feedstock at calcination temperatures. followed by a sintering device with a clinker cooler, wherein each preheater branch has a hot cyclone interposed between a calciner and a sintering device, wherein the flue gas conduit from the sintering device leads to the hot cyclones and continues to the preheater and from each calciner. lead of the calcinated material to one of the flue gas branches from the sintering device to the hot cyclone and from the hot cyclones the lead of the calcinated material to the sintering equipment.

By using the device according to the invention, the powdered raw material can be kept at high calcination temperatures for as long as possible, so that calcination therein is as perfect as possible for a sintering device, usually a rotary kiln, leaving only clinker formation. In this way, the sintering furnaces can either process a considerably larger amount of material or they can be built in smaller dimensions, thus saving considerable costs both in terms of purchase and operation.

Further research has shown that it is preferred that each branch of the preheater has its own hot cyclone. The preheated and calcined feedstock is fed to the flue gas from the sintering apparatus to the hot cyclone and, depending on the connection, either to the hot cyclone of the respective first preheating and calcination branch or to the hot cyclone of the second branch.

The device will be explained in more detail by means of the drawing, in which Fig. 1 is identical to Fig. 2, except that in Fig. 1 from the calciner K1. the calcined feed line 5 flows into the flue gas line 2 from the sintering device R into the hot cyclone HCl of the respective preheating and calcining branches and in FIG. 2 from the calciner K1 the calcined feed line 5 flows into the flue gas line 3 from the sintering device R into the hot cyclone HC2. calcination branches. P stands for preheater, K for calculator, HC for hot cyclone, R for sintering and CH for clinker. Indices 1, 2 indicate the individual branches of the preheater with a calciner.

From the clinker cooler CH of the preheated hot air line 1 to the calciners K1, K2 from the sintering apparatus R of the flue gas lines 2, 3 flows into the hot cyclones HCl, HC2 and then continues through lines 4 to preheaters P1, P2. From the calciners K1, K2, the calcined material line 6 terminates in the flue gas line 2, 3 from the sintering apparatus R to the hot cyclones HCl, HC2, either to the line 2 of the first preheater and calciner line or to the second line 3. From the hot cyclones HCl, HC2 the line 6 of the calcined material flows into the sintering apparatus R.

The pulverulent material after passing through the preheater P1, P2 passes through a calcining temperature calciner K1, K2, then via a calcined material line 5, to one of the flue gas lines 2, 3 from the sintering apparatus R to the hot cyclone HCl, HC2 of the respective first or second preheater branch; calcinator. The flue gas stream is fed to the hot cyclone HCl, HC2, from where the flue gas is separated by line 4 to preheater P1, P2, and the feedstock is passed through line 6 of the calcined material to the sintering apparatus R for further processing.

This device for preheating and calcining the pulverulent feedstock is mainly used in the preparation of the raw material for the production of cement clinker in a rotary kiln. It is superior to existing devices of this kind.

Claims (3)

1. Installations for the thermal treatment of pulverulent raw material, in particular for the production of cement clinker, consisting of two branches of a calciner-terminated preheater, supplemented with a device for brazing calcined raw material at calcination temperatures, guiding preheated hot air from the clinker cooler to with a clinker cooler, characterized in that each branch of the preheater (P1, P2) has a hot cyclone (HCl, HC2), interposed between the calciner (K1, K2) and the sintering device (R), the apparatus (RJ flows into the hot cyclones (HCl, HC2) and then continues through the line (4j) to the preheaters (P1, P2) and from the calciners (K1, K2) the line (5) of the calcined material flows into one of the flue gas branches (2, 3) sintering equipment (RJ to hot cyclones (HCl, HC2J), from which the invention leads (6 J of calcinated material into (RJ. Device according to claim 1, characterized in that the line (5J of calcined material from the calciner (K1) leads to the flue gas line (2) from the sintering device (RJ) to the hot cyclone (HCl) of the respective preheater (P1) and calciner (K1J). likewise, from the calciner (K2) the line (5J) of the calcined material flows into the flue gas line (3) from the sintering device (R) to the hot cyclone (HC2). Device according to claim 1, characterized in that the calcined material line (5) flows from the calciner (K1) into the flue gas line (3) from the sintering device (R) into the second calciner (K2) calciner (2). the calcined material from the calciner (K2) flows into a conduit (2 J of flue gas of the first branch of the preheater and calciner).