DE2909234C2 - Plant for burning raw materials for hydraulic binders, in particular cement - Google Patents

Description

mutually interfering with each other. This task should preferably be done while avoiding heat exchangers Losses can be achieved. A dedusting of the excess cooler exhaust air is intended to simplify the Plant can be avoided without causing environmental problems.

The solution to this problem succeeds with the invention by at least one second cooler exhaust air line, which - viewed in the direction of the gas flow - in an area located downstream of the secondary firing systems the calcining and / or preheating stage opens, in which one of the initiated during operation Air is approximately the same temperature level and that at least one of the two cooler exhaust air lines is equipped with a throttle device

With the invention there is the advantageous possibility that a temporary or permanent amount of heated air that exceeds the combustion air requirement of the furnaces Exhaust air from the cooler with return of the amount of heat it contains into the heat cycle of the Burning plant, and thus without loss of heat, can be transferred to the preheating and / or calcining stage can.

The introduction of the cooler exhaust air at this point downstream of the secondary firing prevents the It is necessary to dedust this air, as the solid particles it contains can easily be removed connect with the material flow penetrating these system parts.

In an embodiment of the invention it is provided that the second cooler exhaust air line as a bypass line from the first cooler exhaust line is branched off. This arrangement has the advantage of short piping. In addition, deposits of solid particles are avoided with such an approximately vertical pipeline routing largely avoided in the pipeline.

In another expedient embodiment of the system, however, use can also be made of the fact that the second cooler exhaust air line is branched off directly from the cooling system, preferably at a point with a high cooler exhaust air temperature, for example from a first stage of the cooling system. Among other things, this measure can be particularly advantageous in a case when the cooling system consists of a first and a second stage, the first cooling stage being supplied with as much air as the combustion system at the main furnace or the secondary furnace can remove. The second cooling stage can for example consist of an indirect aftercooler, the exhaust air of which is dust-free. In such a known system of a cooling system, the particular difficulty is that the first stage is directly coupled to the sintering furnace. In the event of malfunctions, shutdowns, incidents and so on, it is therefore not easily possible to vary the air supply to the first cooling stage. Because it results from operational and constructional reasons for the second cooling stage, the transport system to the second stage as well as for the conventionally the second cooling stage upstream breaker compelling need not to come higher than for example, 400 ⁰ C in temperature. This necessity of not exceeding the temperature limit when the material to be cooled enters the second cooling stage under no circumstances without damage to the system may force a higher air supply to the first cooling stage than the downstream furnaces can handle. In this case, the branching off of the second cooler exhaust air according to the invention directly from the cooling system is a considerable advance, with which the known problem is elegantly solved. The decision as to which design results in an optimal solution from case to case in adaptation to the design of the overall system must be made by the expert at his own discretion. It is also expedient, for example, that the second cooler exhaust air line preferably opens into the gas supply line of the first and / or second heat exchanger cyclone of the calcining stage

In the following the invention is based on one in the The embodiment shown in the drawing is described and explained in more detail

The figure shows a block diagram of a system for burning raw materials for hydraulic binders, in particular cement, with a preheating stage 1, a calcining stage 2 and 3 as well as a secondary furnace 4 within the calcination stage. The sintering stage is formed by the rotary kiln 5, which - in the direction of the Material transport seen - a cooling system 6 is connected downstream. The rotary kiln 5 protrudes with his lower end 7 into the exhaust gas head 8 of the cooling system 6 and is in this way out of the cooling system 6 supplied with hot cooler exhaust air, as indicated schematically by the arrows 9, 9 '.

From the head 8 of the cooling system 6 is a first cooler exhaust air line 10 branches off and opens - viewed in the direction of the gas flow - at a point 11 just below the burner 12 of the secondary furnace 4 in this one.

According to the invention, this first cooler exhaust air line 10 is a second cooler exhaust air line 13 branches off and opens at point 14 into the gas line 15 leading to the preheating stage 1.

In deviation from this arrangement, as is expressly provided by the invention, instead the second cooler exhaust air line 13 branched off from the first cooler exhaust air line 10 alternatively a second one Cooler exhaust air line 16 may be provided, which directly from the cooling system 6, for example at the point 17 branches off and opens into the pipeline 15, for example, at the point 14. One confluence with another Place, for example, in the calcining plant in the area of cyclones 2 or 3 - depending on the temperature of the introduced gas - also possible.

To regulate the gas flow through the lines 10, 13 and / or 16 are at the appropriate point Throttle organs 18,19,20 arranged.

The function of the system is as follows:

In operation, the cooling system 6 is, for example, completely burned with an approximately constant amount Clinker is applied, which approximately with sintering temperature, that is just below 1400 ° C, in the first stage of the cooling system 6 is abandoned. The application of cooling air to the first stage of the cooler 6 takes place in accordance with the temperature of the clinker, which - as known - is specially provided for this purpose Places the cooling system 6 is determined. Through the head 8 of the cooling system 6, hot cooler exhaust air is in introduced the rotary kiln 5 and serves as secondary air to maintain the generated by the burner 21 Flame 22. Another part of the cooler exhaust air is with the first cooler exhaust air line 10 at the point 11 in the Second fencing 4 abandoned in the area of the burner 12 and used there as combustion air. In the event of a change in operation, be it due to load changes, for example during the shutdown process or in the event of incurring attachments a ring from the rotary kiln 5 can

happen that the cooling system 6 is temporarily exposed to higher with hot clinker, and therefore with higher Cooling air throughput must be operated.

In this case, or in the case of control corrections to the firing, can be temporary or for a longer period of time Period of time there may be an excess of hot cooling air, which in the furnaces 12, 21 of the The distillation system cannot be processed. In this case, an excess of cooler exhaust air will open afterwards of the throttle member 19 through the second cooler exhaust air line ίο device 13 initiated at the point 14 in the preheating stage 1. This is where the warm exhaust air from the cooler is palpable Heat from the goods to be heated, with no dust removal problems, because the dust-laden Cooler exhaust air is also merged at point 14 with a flow of dust-laden gas, which then passes through the separator group 23 of the combustion system and finally with the help of the Exhaustors 24 abandoned a dedusting system, not shown, for example an electrostatic precipitator is, as indicated purely schematically by the arrow 25.

The system is not limited to the example shown, in particular the design of the pipeline 13 or 16 constructively left to the discretion of the specialist. In addition, the introduction is on the point 14 is not mandatory, it can for example also within the calcining stage in the area of the cyclones 2 or 3 take place, as already expressly disclosed in the patent claims and in the description became.

1 sheet of drawings

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Claims (5)

Patent claims: 1. Plant for burning raw materials for hydraulic binders, especially cement, with a Preheating stage, a calcining stage, a sintering stage and a downstream cooling system, being in a range between the sintering stage and material outlet end an additional cooler exhaust line with an exhaust fan. With the help of this additional cooler air duct the cooling air requirement of the cooler can continue within 5 limits independent of the air requirement of the furnace of the rotary kiln as well as the secondary firing of the calcination burner can be set. In this known system, however, is perceived as a disadvantage that the cooling carried away by the fan the calcining stage at least one secondary firing is arranged in which by means of at least one io air causes heat losses in the system because the first cooler exhaust air line heated cooler exhaust air is introduced there extracted cooling air a relatively low temperature is characterized by temperature, there are also hardly possible at least a second cooler exhaust air line (13, 16), opportunities for a beneficial use of this cooling switch - seen in the direction of the gas flow - exhaust air In addition, the extraction of air leads in a downstream of the second firing system (4) 15 to dedusting problems, the solution of which is given Genen area (1, 2, 3, 14) of the calcining and / or Vorwärmsf.ufe opens, in which during the Operation a temperature level approximately the same as the air introduced is available, and that min- if a very expensive extension of the Can lead to the dedusting device of the entire system complex. Another cement production plant of the initially At least one of the two cooler exhaust air lines (10, 20 designated type is known from US Pat. No. 40 50 882 13, 16) with a throttle element (18, 19, 20) the 2. Installation according to claim 1, characterized in that the upper heat exchanger cyclones are marked. In addition to the vorgenet, that the second cooler exhaust air line (13) is used as by-heated raw meal in the calcining furnace fuel pass line from the first cooler exhaust air line (10) 25 and combustion air in the form of hot cooler exhaust air branched off is. The discharge of the calcining furnace is via pipeline 3. Plant according to claim 1, characterized in that it is connected to a mixing chamber. This mischnet, that the second cooler exhaust air line (16) unmit- chamber is either from the bottom of the flue gas directly from the cooling system (6), preferably flowed through in the rotary kiln or alternatively after range of the highest temperature from a first step 30 stipulation of the partial gas extraction through the bypass system fe (17) of the cooling system (6), branched off, is exposed to hot radiator exhaust air. Hot radiator 4. System according to one of claims 1 to 3, since air thus passes once from the cooler directly through one characterized in that the second cooler exhaust air connection shaft known per se in the burner line (13,16) into the gas supply line (15) of the top of the rotary kiln and thus represents the secondary ones and / or second heat exchanger cyclone (2, 35 air for the first firing. Another from the cooler 3) the calcining stage (2,3,4) opens. outgoing hot air line is used exclusively for Supply of the secondary combustion with hot combustion air. Because of the function-related coupling of the hot air flows, there is a disruptive influence on the operating conditions the cooler and the furnace in the integrated The invention relates to a system for burning th total system cannot be avoided. Raw materials for hydraulic binders, in particular These disadvantages are also present in a cement manufacturer Cement, with a preheating stage, a calcining stage, treatment system according to DE-OS 24 35 079 available, a sintering stage and a downstream cooling Secondary air and the calcining stage at least one secondary firing
is arranged in soft by means of at least one first
Radiator exhaust line heated radiator exhaust air introduced and on the other hand the calcining furnace of the heat exchanger with hot cooler exhaust air. The calciner exists from a shaft-shaped reaction section with ^w ' ^rd - a raw material input by means of a downpipe When coupling a system for burning 50 of the higher-level cyclones of the heat exchanger. Raw materials for hydraulic binders with a downstream This downpipe is immediately adjacent to the switched cooling system, efforts are made to reduce the hot oxygen that is necessarily generated in the cooling process rich air in the heating circuit of the still Fuel entry. The reaction section ends in a solids separator, which is an integral part forms to the reaction zone. From the turning as lossless as possible and as profitably as possible to 55 tubular kilns, an exclusively combustion gases, Establish appropriate temperature levels, for example, no oxygen-containing combustion air absorbing material to be fed in as secondary air for the furnaces. back into the heat exchanger. As being disadvantageous Such a system is seen, for example, from the DE in this system that the entire cooler -OS 23 25 468 known. In particular, Fig. 5 exhaust air is fed into the reaction zone, independently a cooling system, in its exhaust-side head the lower 60 of the amount of fuel required there. The end of a rotary kiln protrudes, the furnace of which the object of the invention is to To eliminate radiator exhaust air of high temperature as secondary air parts and absorbs the previously occurring Schwic. With a cooler exhaust air line, skills and / or limits of technology are to be overcome Area of the cooling system cooler exhaust air from the. In particular, the operating states should both lower temperature and this example- b5 of the cooler as well as the firing of the integrated wise mixed with rotary kiln exhaust gases as a complete system in each case independently of each other Combustion air of a second combustion in the combustion chamber can be driven to the best point without this being listed. In addition, the cooler has, due to its function-related coupling, at its location parts