CS245053B1 - Powder raw material's heat-treatment device - Google Patents

Abstract

SUMMARY OF THE INVENTION The present invention provides an apparatus for heat treatment of a pulverulent feedstock, particularly for the manufacture of cementitious marl, in particular the calcination of preheated material. It has two branches of a preheater (P) terminated with a calciner (K) and a hot cyclone (HC). Preheated air from the clinker cooler (CH) is: n to (calcinator (K, K '), flue gas from the sintering plant (R) to hot cyclone (HC) and from it to one of the preheaters (P). this device has a first and a second conduit (4, 5) of tin-plated material and a conduit (6) of lined material leading to the sintering device (R). the hot flue gas conduit (2) can calcine calcine material from the calciners (K) to the hot cyclone (HC), or from one calcium-to-potassium (K) to the second coater (K'J and the lever into a hot cyclone (HC), or from the kiaicinate (K) into the cyclic cyclone (HC) and the other (the calciner (K '), whereby the material to be treated is longer in the calcining temperatures and is more heat treated.

Description

The invention provides a device for heat treatment of powdered raw material, in particular for the production of cement marl, mainly for performing the calcination of the preheated material. It has two branches of a preheater (P) terminated by a calciner (K) and a hot cyclone (HC). Preheated air from the clinker cooler (CH) is known to be: n to (calcinator (K, K '), flue gas from sintering device (R) to hot cyclone (HC) and from it to one of the preheaters (P). and a second pipe (4, 5) of sludge tinned material and a pipe (6) of lined material leading to the sintering device (R).

By means of the first and second piping (4, 5) of the calcined material and a portion of the hot flue gas piping (2), the calcined material can be transferred from the calciners (K) to the hot cyclone (HC) or from one calcinator (K) to the other J and a lever for the hot cyclone (HC), or from the kiaicinatary (K) to the hoirt cyclone (HC) and the second (calciners (K ')), thereby prolonging the material to be treated at calcination temperatures for a longer heat treatment.

24505 3

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for the thermal treatment of powdered pulp, in particular for the production of cemenite clinker.

The apparatus for heat treatment of the pulverulent feedstock consists mostly of a rotary kiln, in which the material is calcined and sintered, and is usually diopinated by a pre-heating device in order to utilize part of the heat from the exhaust gases. Calciinators were then placed downstream of the preheater so that at least partial heat-consuming calcination would take place before the material entered the sintering apparatus. However, it has been shown that the residence time of the material at the quenching temperature is short, so that it cannot be fully realized.

Therefore, a device is proposed which allows the material to be processed for a longer time at baking temperatures, thereby making the kailcimation more complete.

The above-mentioned drawbacks are overcome by a device for the thermal treatment of powdered raw material, in particular for the production of cement clinker, which consists of two branches consisting of a preheater and a calciator and a hot cyclone according to the invention. This is followed by a sintering device and a clinker cooler. Here, the preheated hot air pipe runs from the clinker cooler to the kailcinators and the hot flue gas pipe from the sintering device to the hot cyclone. The essence of the invention is that the flue gas duct connects the hot cyclone to the preheater of a single preheater branch. Between the calculators and the hot cyclone there is a first calcined material pipe and a second calcined material pipe which is introduced into a portion of the hot flue gas conduit permitting the conversion of calcined material using a portion of the hot flue gas conduit between the calculators and the hot cyclone.

If the first calcined material pipe is connected from one calciner to the hot flue gas pipe and the second calcined material pipe from the second calciner also to the hot flue gas pipe, then all of the kaicinated material enters the hot cyclone and from it the liquefied material pipe into the sintering device.

If the first calcined material pipe is routed from one calciner to another, then the second calcined material pipe connects the second calcinator to the hot cyclone, which is connected by the condensed material pipe to the sintering device. Material from the calciner to a second, then to a hot cyclone ¹ into the sintering apparatus.

If the first kaloináltoir connected by a first conduit kailcinovaného material with a hot cyclone, the second conduit of the calcined material of this combines' second kalcinátoirem ¹ material proQhází from the first kalcinátoiru into the hot cyclone and then into the second calciner and from it via line zkai4 cínovaného material into the sintering ^one device .

, The solution according to the invention can be processed ^with feet powder feedstock delay in kailciinačníoh longer temperatures to calcination of the latter to take place more completely and in the clinker plant, mostly in .rotační furnace to substantially only the sintering takes place, which allows the processing of large quantities of powdered raw material for the manufacture of cementing of the solar system, or building of rotary kilns of smaller, shorter and smaller diameter, which is both financially and economically advantageous in terms of production, talk and operation.

In a preheating device consisting of two calcinator-terminated preheaters, in which the flue gases from a silage plant, in this case a rotary kiln lacking oxygen for combustion, are introduced into at least one preheater or both, and preheated air from the cooler of the finished The oxygen-containing clinker is introduced into the calciners, where a kailcinating temperature is generated by the fuel supply, and the gases are then passed to the preheater.

The feedstock, after passing through one preheater and icalcinate, is fed to the flue gas line from the sintering device to the other preheater. This brings the highly heated material from one calcinator to the other preheater, thermally favorably affects the raw meal being processed therein and passes to the sintering device through the second calcinator. It has a longer residence time at high temperature, so that calcination can be better accomplished.

When the flue gas from the sintering apparatus is fed to both preheaters, the pulverized feedstock is fed from one calciner to the flue gas from the sintering apparatus to the preheaters, a portion of the feedstock feedstock being fed to the first preheater and then to the calciner. and the second portion is fed to a second preheater and then calcined to a sintering device. All of this has a beneficial effect on keeping the pulverulent feedstock at a calcination temperature for an extended period of time, thereby causing a heat-consuming reaction and relieving the sintering device.

The device will now be explained in more detail by means of illustrations where:

The preheater P terminated with a calciner K, among them is a hot cyclone HC, followed by a sintering device R with a clinker cooler CH. Solid lines represent hot gas lines, dashed lines of process material lines, arrows flow direction.

Preheated hot air line 1 connects the clinker cooler CH to the calciners K. Exhaust line 2 connects the sintering device R to the bitter cyclone HC. The flue gas line 3 connects the hot cyclone HC with one preheater P. The first line 4 of calcined material and the second line 5 of calci-25053 of the new fluid are used to transfer the calcined material to the calcination temperature locations using part of the hot flue gas line 2. The piping 6 of the calcinated material serves for its removal d, o of the sintering device R.

According to FIG. 1, the first calcined material line 4 connects the first calculator K to the hot spailin line 2 and the second calcined material line 5 the second calcinator K also to the hot flue gas line 2, the material passes from the calciners through a hot cyclone. .

By oihr. 2, the first calcined material pipe 4 connects the first calciner K to the second calcinator K 'and the second calcined material pipe 5 connects the second calcinator K' to the hot cyclone HC from which the pipe 6 of the calcinated material leads to the sintering device R. . a second calcinator K and then a hot cyclone HC to a sweeping device R.

According to FIG. 3, one calciner K is connected by a first line 4 to a hot cyclone HC, and this is connected by a second calcinated material line 5 to a second calcinator 'K', from which the calcinated material line 6 leads to. The material to be processed is passed successively through one calculator K, the hot cyclone HC and the other through the calcinator K ‘.

In this apparatus, the calcined material does not thermally burden the sintering device, it may be smaller, or process a larger amount of material, which is operationally advantageous in terms of investment.

Claims (4)

An apparatus 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 and one hot cyclone, followed by a sintering device and a clinker cooler. a. there is a hot flue gas line between the sintering device and the hot cyclone, characterized in that the flue gas line (3) connects the hot cyclone (HC) to the preheater. (Pj of one preheating branch, wherein between the calciners (K, K ') and the hot cyclone (HC) there is a first pipe (4) of calcined material and a second pipe (5) of calibrated material which are introduced into a part of the pipe (2) hot flue gas, allowing the conversion of calcined material between the callainators (K, K 'and the hot cyclone (HC)). Device according to claim 1, characterized in that the first pipe (4) is calcined. material connects the first calciner (K) ² potru- invention Bim (2), the hot flue gas and the second conduit (5) connects the second calcined material calciner (K ') with the conduit (2), the hot flue gas, wherein the pipe (6j zkalcinovaného material connects the hot cyclone (HC) with a sintering device (R). 3. Apparatus according to claim 1, characterized in that the first conduit (4) connects the first calcined calciner (Ki with the second calciner ^(K) and the second conduit (5) connects the second calcined material calciner (K ') s. Hot cyclone ( HC), wherein the high-quality material pipe (6) connects the hot cyclone (HC) to the shrinking device (R). 4. Apparatus according to one roll, characterized in that the first conduit (4) connects the calciner calcined material (K) with a hot cyclone (HC) and the second pipe (5) the calcined material ¹ connects the hot cyclone (HC) with the second calciner (K ' ), wherein the calcinated material line (6) connects the second calciner (K ') to the sintering device (R).