DE1211743B - Process for the recovery of converter exhaust gases - Google Patents

Description

Process for the utilization of converter exhaust gases The invention relates to a process for waste heat recovery in converter plants, in which each of two or three ready-to-use converters, a combustion chamber and waste heat boiler heating surfaces containing chimney is immediately downstream.

The degree of utilization of such systems, d. H. the duration ratio between the time these gases occur (the so-called blowing time of the converter) and of the total operating time can only be estimated at about 30%, so that the financial Economic efficiency of the converter waste heat recovery compared to many other waste heat systems From the outset, it is very difficult to invest larger funds for effective ones Waste heat recycler seems impractical. Therefore, the previously created, by Converter exhaust gases heated waste heat boilers in general - especially in view of the more frequently available cheap types of fuel - kept relatively small, so that the outlet temperatures of the boiler exhaust gases are still around 700 to 800 ° C fraud.

For this reason, it has already been proposed to have several alternately blowing converters work on a common chimney with a waste heat boiler. For this, however, separate gas hoods with more or less long, water-cooled connection ducts or a local displacement or movement of the converter at the beginning and end of the blowing process are necessary for each converter, so that these systems are also expensive and complicated. In such systems, too, the exhaust gases are usually only economically cooled to temperatures below 500 ° C. with difficulty, although these gases have to be brought to around 100 to 120 ° C. in order to be dedusted according to the operating requirements. For this deep cooling, direct water injection is still predominantly used today in the well-known way, but this practically does not allow any heat recovery.

It has long been known to the prior art to use flammable gases To burn components gradually by giving them the total required Combustion air not immediately in its total amount, but in portions one after the other is fed.

It has also been known for a long time in waste heat technology to have several sources of waste heat summarized in such a way that the exhaust gases generated by them are centralized and, depending on requirements, to one or more, connected in parallel or in series with one another Waste heat recyclers are distributed.

With the invention, the object is to be achieved in the intermittent resulting converter exhaust gases contain more heat energy than in the known Systems common and possible to use in order to increase the profitability of such Increase investments.

To solve this problem, the invention proposes the various Only let the converter blow alternately in a manner known per se and the exhaust gases leaving each blowing converter by supplying only part of the total required combustion air in the directly acted upon by them Burn the chimney only partially while the converter gases are completely burned out in the chimney assigned to another converter that is not currently blowing or takes place in a coal combustion chamber.

With such an arrangement, the individual waste heat recovery systems each converter be designed to be much smaller than before, because firstly each two (to three) boiler heating surfaces to utilize the exhaust gas heat from only one converter are available and secondly because of any necessary Ouerverbindungskanäle the reduced temperature of the gases passing through it without its own wall cooling device get by, all heating surfaces together the expensive equipment parts the waste heat boiler system (such as evaporation drum, circulation pump, induced draft, etc.) only one Boilers still require a very extensive final cooling of the completely burned out Enable converter exhaust gases.

To the total amount of heat to be transferred to the boiler water behind the first combustion stage in each case as large as the one behind the second stage and around the temperature of the converter anyway with about 1700 ° It is important not to let C escaping gases rise too high in the first chimney part advantageous in the chimney through which the converter exhaust gases flow first less than half, in the chimney that passed afterwards, on the other hand, more than half of the combustible Components of the gases burn and to distribute the combustion air accordingly to these two combustion chambers.

Only protection is given for the features claimed in the subclaims Desired in connection with the subject matter protected in claim 1.

Claims (2)

1. A method for waste heat recovery in converter plants in which each on-line from two or three converters, a a combustion chamber and Abhitzekesselheizflächen containing fireplace is connected directly downstream, d a -through in that the various converter blow only alternately in a known manner and that the exhaust gases leaving the blowing converter in each case only partially burn by supplying only part of the total required combustion air in the chimney directly acted upon by them, while the converter gases are completely burned out in the chimney assigned to another converter that is not currently blowing or in a melting chamber he follows. 2. Procedure according to claim 1, characterized in that the combustion air on the different chimney combustion chambers is distributed that in each of the exhaust gases at first there was less flow through the chimney, but in the chimney that passed afterwards more than half of the combustible gas components burns. Considered Publications: German Patent No. 687 428; Magazine "Gas-Wärme", No. 10, 1957, p.316 to 319; Journal "Stahl u. Eisen", No. 19, 1956, pp. 1224 to 1229.