DE2451115B2 - Method for gas and material lining by means of a device for the heat treatment of powdery materials, in particular cement raw material, and device for carrying out this method - Google Patents

Description

The combustion products resulting from these two combustion stages must go on as exhaust gases are discharged, the heat content of which is used in the upstream Pispersvorwännungsstufe for raw material preheating.

It is, however, a necessary requirement that these two streams of exhaust gases at one suitable point can be combined into a single stream. This suitable body is basically through the structural arrangement of the entire row of furnaces and thus the type of calcination stage used and the dispersion preheater. This means that at the point where the two streams are mixed, two separate branches exist, one of which from the rotary kiln with subsequent waste pipe and the others from the cooler with the dispersion calcining stage including the subsequent parts of the device to the point of connection of the two streams connecting pipeline is formed.

Since the length of the lines and the design of the lined up parts are different in the individual branches of the line, their flow resistances will also be different. However, this fact affects the basic distribution of the amount of exhaust gases flowing through these branches, and with _M a single fan for extracting all the exhaust gases that have arisen, a satisfactory control of the technological process is not possible

A well-known compensation of the air flow resistance in two line branches is the connection of an additive fan in the branch with greater resistance, here through the pipe connecting the cooler and the dispersion calcination stage the preheated air is formed

This solution, however, to a certain extent limits the heat value of this air, which can amount to ^{a maximum of 500 ° C. when passing through this fan.} Also the Betriebsverläßlichkeit the additive fan, as far as this is not a separator is connected upstream, by the considerable dust content of the air The main drawback affecting this solution is that the maximum achievable in the cooler temperature of about 800 ⁰ C, the preheated air can not be exploited. In practice, however, this means an increase in the heating consumption of the furnace.

Another known solution when using a source for the extraction of all resulting exhaust gases is that Incorporation of a reduced part in the line branch with the lower resistance, which is usually the case is the branch of the line with the rotary kiln, where this reduced part creates a constant resistance. For regulatory reasons, however, it is necessary to install a regulating element, e.g. B. a flap or insert a slider, increasing to some extent the amount of in each Heating points supplied preheated combustion air can be regulated depending on the current operating state.

Although this solution requires the use of an additive fan, which is the case in the previous solution was necessary, makes it unnecessary, this solution can also be used, especially from the standpoint of operational reliability, cannot be considered optimal. it

The mentioned regulating element, d. H. the flap or the slide valve does not have sufficient sensitivity and accuracy to match that of a modern process technology.

The reduced part, which for structural reasons is usually just behind the rotary kiln, can also be used is attached, so at the point where considerable Dusty exhaust gases flow up to 1200 ° C and are not considered to be operationally reliable.

It is an area where there are irregular approaches which form a variable calibration of the reduced part and thus also a variable one Cause flow resistance. This fact makes a considerable effort by a constant Elimination of the approaches or instead by an automatic equalization of both branches required.

Finally, a method and a device for operating rotary drum calcining furnaces coupled with cyclone preheaters are known (DE-OS 22 63 099), whereby to reduce energy consumption with a three-stage cyclone preheater, the first stage of which is divided into two sub-stages, a single calcining furnace, a LVisiervorrichtung, a filter and a fan is used. It With this device there is no cooler and no calcining stage downstream of the calcining furnace and of which a separate sintering stage. The circulation circle before reaching :, of the calcining furnace brings the material there not at temperatures where actual calcination takes place, but the material becomes only freed from moisture i.e. dried before it falls into the calcining furnace

The invention is based on the object of the aforementioned method and a suitable one To improve the device in such a way that with the simplest possible means, greater operational reliability and easier regulation are achieved with less energy consumption.

According to the invention, this object is achieved in that the calcining and sintering stages resulting flue gases are introduced separately into separate branches of the preheating stage, in which through direct contact with the flue gases, the raw material is preheated in countercurrent so that it is preheated is then introduced from each branch of the preheating stage in a common calcining stage and that the Exhaust gases from the calcining and sintering stages only above the associated branch of the preheating stage can be withdrawn by means of separate fans, which at the same time supply part of the preheated combustion air from the cooler to mix with fuel in the calcining and sintering stages.

According to a development of the invention it is provided that by independent regulation of the separate Fans, the change in the amount of in the ca! Zini.: R stage and in the sinter stage Proportion of combustion air depending on ctem determined content of oxygen in the exhaust gases behind these stages is effected and that after The amount and the temperature of the exhaust gases in front of these self-contained exhaust fans determine the amount of the in the Preheating stage of the raw material to be fed and the distribution in the individual preheating branches is regulated.

The invention also relates to a device for carrying out this method, with the characteristic that it is composed of two mutually independent line branches for gas flow, the first line branch through a pipeline is formed into the calcining stage

opens whose outlet pipe to the gas inlet part of a preheater branch is connected, the outlet pipe for the gases directly into the inlet of the an exhaust fan opens, and wherein the second line branch is formed by the rotary kiln its outlet pipe is connected to the gas inlet part of the other preheater branch, its The outlet pipe for the gases opens directly into the inlet of the other exhaust fan.

Refinements of this device are characterized in subclaims 4 to 6.

By introducing the resulting flue gases from the calcining stage or the sintering stage into separate branches of the preheating stage and arranging separate fans to draw off the separate gas streams from the preheating branches and part of the preheated combustion air from the clinker cooler, reliable operation with lighter ones is achieved with relatively simple means Regulation with lower energy consumption is achieved because the fans are arranged in an area of relatively low temperatures, the maximum attainable temperature of the preheated air in the cooler of about 800 ⁰ C can be used and no special regulating element, such as slide or throttle valve, in one of the branches is required.

The invention is based on the embodiment illustrated in the single figure of the drawing explained in more detail

The device consists of a dispersion preheating stage, which is formed by two preheating branches 4 and 5, from a dispersion calcining stage 1, from the Rotary kiln 2 and from the clinker cooler 3 with fan 22. Each of the two preheater branches 4, 5 has its own own exhaust gas fan 6 or 7. The cement raw material is separated by supply pipes 13 and 14 Preheating branches 4 and 5 are supplied via automatic metering devices 15, 16. The preheated raw material is from both preheater branches 4, 5 through outlet pipes 17 and 18 of the common calcining stage 1 supplied, where the resulting from the combustion of the fuel supplied by the burner 20 Heat is used and the major part of the calcination reaction comes about. This raw material is fed from the calcining stage 1 through the pipe 19 to the rotary kiln 2, where by the incineration of the heat generated by the fuel supplied by the burner 21, the calcination is completed and the sintering process takes place.

The burnt out clinker is fed to the clinker cooler 3 where it is cooled by the air fed in.

The proportion of the preheated air of high temperature from the clinker cooler 3 is partly direct the rotary kiln 2 and partly fed through the pipeline 10 of the calcining stage 1 The proportion of air from the Clinker cooler 3 of low temperature is discharged by the fan 22 The combustion gases are removed the rotary kiln 2 are introduced through the outlet pipe 8 in the preheater branch 4, where they are part of the Dissipate heat to the cement raw material, after which it passes through the outlet pipe 12 by means of the exhaust fan 6 are discharged.

The combustion gases from the calcining stage 1 are passed through the outlet pipe 9 to the second Ycra-ännerzweig 5, where they also have a. Give part of their heat content to the cement raw material and finally through the outlet pipe 11 by means of of the exhaust fan 7 are discharged.

It is advantageous that by independent Regulation of the separate exhaust fans 6, 7, the change in the amount of in the calcining stage 1 and proportions of the combustion air sucked into the sintering stage (rotary kiln 2) depending on the determined Oxygen content in the exhaust gases behind these stages is effected and that according to the amount and the Temperature of the exhaust gases in front of these independent exhaust fans 6, 7 the amount of in the Preheating stage of the raw material to be fed and the distribution in their individual preheating branches 4, 5 be managed.

Each of the two combustion points thus has its own gas supply system, which is their relative

"Enables independence; the disruption that arises in a combustion system does not have an immediate effect in the other combustion system.

The activation of a fan in each of the two gas flow branches enables a fine and economical Regulation of the amount of gas. This allows the insertion of an additive fan in the branch the line of preheated secondary air for the dispersion calcining step are omitted, whereby the eliminate the disadvantages mentioned in relation to the prior art

Ji let.

The use of slides and throttle valves can also be omitted, and in the gas duct there is no need to include a reduced position, thereby increasing the operational reliability of the series of ovens increased and the risk of sticking is reduced. It is also advantageous that in the Calcination stage the combustion gases containing CO2 need not be fed from the rotary kiln.

It is known that the larger the CCh content in the Gases in the dissociation of the limestone, the slower this reaction takes place. The leadership of the Combustion gases from the rotary kiln outside of the calcining stage can therefore not carry out this calcination reaction influence negatively.

The use of the furnace series with such a calcining stage is particularly suitable for higher outputs advantageous, for which the dispersion preheating stage also expediently has two branches for other reasons having

The present invention requires the installation of two preheater branches in parallel. Since the preheater from the standpoint of performance are adaptable, both Vorwärmerzweige can preferably constructed of the same dimensions and differences in the heat content of the ^e: ~ passing gases are corrected by varying amounts of the registered commodity.

This ensures that the raw material is preheated evenly in both preheating branches and one reached approximately the same temperature of the exhaust gases

Since the combustion gases from the rotary kiln are not passed through the calcining stage, the CO2 content in the exhaust gases at this stage is smaller, which is from the point of view of the process of calcination Advantage is

By introducing the invention, the heat treatment stages are more reliable in operation and their control is facilitated
At the same time, the consumption of energy is prepared for burning. Reduced clinker

The process according to the invention can be used for each type of dispersion preheater and for each calcining stage be exploited.

1 sheet of drawings

Claims (5)

1 2 patent claims & device according to claims 3 to 5, raienwnsprucne, characterized in that in each dispersion 1. Procedure for gas and material management through the heat branch (4, 5) of the raw material separately a device for the heat treatment of powder feed pipe (13, 14) of the raw material opens, Shaped materials, in particular from cement raw s, which is provided with a mutually independent metering agent in the dry process of clinker production (15 or 16) in which the raw material calcination and the subsequent low sintering process in mutually separated Heat stages, a calcination stage and a sinter stage, be carried out in which with preheated io The invention relates to a method for gas Combustion air from the cooler of the sintered material and material guidance through a device for mixed fuel is burned, and in the heat treatment of powdery! Materials, the heat content of the exhaust gases from this heat, in particular of cement raw material in the dry process further to preheat the raw material in a ren in the clinker production, in which the raw material calcium Preheating stage is used, thereby eliminating and the subsequent sintering process in mutual characterized in that from the calcining and tig separated heat stages, a calcining and the sintering stage, the resulting flue gases are carried out in a sintering stage in which with separates preheated combustion air from the cooler into separate branches of the preheating stage are introduced, in which fuel mixed by a direct sinter is burned, and Contact with the flue gases of the raw material in the 20 at which the heat content of the flue gases from these Countercurrent is preheated, so that this then continues from heat stages to preheat the raw material in each branch of the preheating stage is used in one of a preheating stage, and one common calcining stage is introduced and that device for carrying out this process, the exhaust gases from the calcining and sintering stages. only via the associated branch of the preheating devices for burning cement clinker in the stage removed by means of separate fans dry process (DE-OS 22 48 030) with generated which are at the same time a part of the preheating and economic reasons up to 2.5-fa- the combustion air from the cooler to reduce the specific output of the rotary kiln in comparison see with fuel in the calciner and that with a device of the same dimensions Sinter stage suck in. 30 but conventional arrangement for dry compaction 2. The method according to claim 1, characterized marked driving proposed, namely rotary kilns marked with that ourch independent regulation of the switched dispersion heat exchanger. separate fans r'ie change in the amount This significant increase in output is due to this which enables the calcining stage and the sintering stage that the most heat-consuming process in sucked in proportions of combustion air in waste 35 burning cement clinker, d. H. the calcination, depending on the determined content of separately from the sintering process in a so-called Oxygen in the exhaust gases behind these stages is carried out in the dispersion calcination stage. As a result is effected and that according to the quantity and that of this technological division is in two stages Temperature of the exhaust gases in front of this self-contained it is necessary to also the total amount of heat energy Fans distribute the amount of the 40 in the preheating stage (which was previously generated in one place) and feed the raw material to be given up and the distribution in every part of the heat to that point, whose individual branches are regulated. where the relevant stage of the technological process 3. Device for carrying out the method expires. according to claim 1 and 2, characterized in that the for the stage of calcining the raw material they form the exhaust gases from two mutually independent conduits gene for gas guidance is composed, with the from the subsequent stage of the technological first line branch through a pipeline (10) process, i.e. the sintering process, which usually takes place in the is formed, which takes place in the calcining stage (1) rotary kiln, and partly directly in the room opens whose outlet pipe (9) to the gas inlet of this Disperskalzinkirstufe burned raw material. That Step part of a preheater branch (5) means that it is in the combustion process with separate is closed, the outlet pipe (11) for the gases raw material calcination two connected in series directly into the inlet of the exhaust gas fan (7) and in separate rooms. opens, and wherein the second branch of the line gives combustion processes, the one process in the is formed by the rotary kiln (2), the rotary kiln, the other running in the calcining stage. Outlet pipe (8) to the gas inlet part of the other 55 Every combustion process must except the fuel Preheating branch (4) is connected, which still has the necessary amount of the most preheated Outlet pipe (12) for the gases are fed directly into the inlet combustion air, the source of which is the of the other exhaust fan (6) opens. clinker cooler lined up behind the rotary kiln is where 4. Apparatus according to claim 3, characterized in that the preheated combustion air is cooled by cooling the draws that to guide the preheated μ hot clinker generated by means of supplied cold air Raw material the outlet pipes (17, 18) of the Vorwäf- is. Part of the preheated to burn the merzweige (S, 4) in a common calcining stage of fuel in the rotary kiln is necessary air (1) merge. this furnace from the cooler through their mutual 5. Device according to claims 3 and 4, supplied connection point. Part of the preheated characterized in that the preheating stage 65 air, which is used to burn the fuel portion in two preheating branches (4, 5), which are required in parallel in the dispersion calcination stage, becomes this Device for the heat treatment clasped step from the cooler through this with it are tet, has. connecting pipe supplied.