DE516859C - Process for the production of molten cement and device therefor - Google Patents

Description

The invention relates to the production of molten cement in a furnace, in which the melting furnace is preceded by another furnace, which through the exhaust gases of the melting furnace and in which the raw material mixture is heated to a certain extent is pre-fired.

Such processes for the production of molten cement are already known. at

ίο a known furnace system is the melting furnace with the associated pre-furnace regarding the supply of the goods in direct connection, so that an uninterrupted Movement of the goods takes place through the ovens. However, this method of working has not proven itself in the production of molten cement, because the product tends to bake before melting begins and is thus prevented from moving through the ovens.

It has already been proposed to overcome these difficulties in that the Exhaust gases from the furnace are cooled by mixing in cold air to such an extent that in premature softening of the goods cannot take place in the prebaking furnace. But offers this measure only for furnace systems with direct material transfer from the fore furnace not a satisfactory solution to the melting furnace, since the uninterrupted task of the only partially pre-fired material in the Melting furnace too strong, local cooling and freezing of the bath at the feed point can lead.

Advantageous charging of the furnace and trouble-free operation in the Pre-firing ovens can only be reached if the processes in the two ovens are extensive separated from each other.

According to the invention, the ovens are assembled so that they can only pass through the exhaust duct are connected, while the discharge opening of the prebaking furnace and the loading opening of the furnace remain accessible from the outside. The charging of the melting furnace, for example a Can be flame furnace, then does not take place directly from the pre-furnace, but with the mediation of a special device, e.g. B. one by a conveyor served trough. These devices remove the pre-fired material from the pre-firing furnace and then pass it on to the furnace at about the same temperature as the firing point. Through an opening or openings in the In the walls or in the ceiling of the furnace, the material is spread over the entire melting area equally distributed. The abandoned charge is quickly melted away and a favorable utilization of the melting area achieved.

As with the known methods mentioned, it is also necessary in the present case be to cool the exhaust gases before entering the preburning furnace to prevent premature To prevent softening of the goods in the same. The cooling of the exhaust gases can

with simultaneous preheating of the combustion air. Notwithstanding the known method is not only part of the exhaust gases, but their total amount passed through a recuperator, which is in the connecting channel between the melting and Pre-furnace is built in. The exhaust gases are only cooled down to such an extent that the in the remaining heat for the necessary pre-burning in the pre-burning furnace is still sufficient. By preheating the combustion air the performance in the melting furnace is increased.

The drawing shows, for example, two devices for carrying out the method shown, namely shows

Fig. Ι a flame furnace in connection with a shaft furnace,

Fig. 2 a flame furnace in connection with a rotary kiln.

In a flame furnace 1 2 fuel fz. B. coal dust) and Air is blown in so that the molten bath 3 is formed. The exhaust gases from the furnace pass through the recuperator 4, through its pipe system 5 the combustion air to be preheated is directed. The pretreated in the pretreatment furnace 6 designed as a shaft furnace at a relatively low temperature Good is drained through the discharge opening 7 into the loading trough 8 and intermittently by means of a conveying device 9 through an opening 10 provided on the rear end wall of the flame furnace, which can be closed by the door 11, abandoned in the furnace. The during this Cold air flowing into the furnace during the charging process can practically do that Do not cool the bath, since the loading opening 10 is arranged so that the incoming Air can get into the gas exhaust duct 12 immediately. The oven is convenient with Induced draft, which is generated by a fan 13. The extracted gases escape by the trigger 14.

The embodiment shown in Fig. 2 differs from the one described above essentially only in the use of a rotary kiln 15 instead of the shaft furnace 6. The flame furnace is expediently dimensioned so large that the charging can take place intermittently over long periods of time. The lower part of the shaft furnace or a correspondingly designed container 16 below the rotary kiln serves as a storage container for the pre-fired material.

Claims (2)

Patent claims: 1. Process for the production of molten cement in a melting furnace with a pre-firing furnace, which is heated by the exhaust gases of the melting furnace, thereby characterized in that the raw material mixture from the one with the melting furnace (1) only through the exhaust gas duct (12) connected pre-burning furnace (6 or 15) by a Device (8, 9) arranged outside the furnace, practically with a firing temperature is removed and then fed from this removal device into the melting furnace. 2. Device for performing the method according to claim 1, characterized in that that in the connecting duct (exhaust duct 12) between the Melting furnace (1) and the preburning furnace (6 or 15), a recuperator (4) or the like. is arranged, which is used to cool the exhaust gases and preheat the combustion air. 1 sheet of drawings