DE3007909C2 - Waste heat boiler - Google Patents

Description

The invention relates to a waste heat boiler for a discontinuously heated plant, in which the heating surfaces are flowed through in a forced flow maintained by circulation pumps.

Such discontinuously heated systems are, for example, converters for producing steel using the oxygen-blasting process. During the converter's downtimes, in which no steel is produced, the waste heat boiler should be kept on standby and flowing. In this way, the waste heat boiler is kept warm so that thermal stresses due to sudden temperature changes are avoided when it is restarted.

The invention is based on the object of further developing a waste heat boiler of the type mentioned at the beginning in such a way that even during the operational break of the plant, a flow through the heating surfaces is maintained with a simultaneous reduction in drive power.

This object is achieved according to the invention in that a further pump is connected in parallel to the circulation pumps, which is designed for a lower throughput than the circulation pumps and in that the pumps are coupled to one another in such a way that the further pump is switched on alone during the operating breaks of the system.

According to the invention, a reduced flow is maintained with the help of a relatively low-power pump. The energy consumption of this pump is significantly lower than that of the main pumps. It has been shown that such a circulation is sufficient to keep the waste heat boiler in standby, so that the waste heat boiler according to the invention can be operated much more cheaply than a known waste heat boiler in which the flow would have to be maintained with the help of the main pumps.

An embodiment of the invention is shown in the drawing and is described in more detail below. The drawing shows the circuit of a waste heat boiler.

The waste heat boiler located behind a steelworks converter serves to cool the hot exhaust gases leaving the converter. The waste heat boiler consists of two gas flues through which the exhaust gases flow one after the other during the blowing period.

The walls of each gas flue are designed as heating surfaces 1 and 2 , through which feed water flows in parallel. The water-steam mixture created in the heating surfaces 2 and 1 is fed to a boiler drum 3 via pipes. The steam passes from the steam chamber of the boiler drum 3 into a storage tank or directly to a consumer. The water is taken from the water chamber of the boiler drum 3 and fed back to the heating surfaces 1 and 2 in forced operation with the help of several circulation pumps 4 and 5. Fresh feed water is fed into the water chamber of the boiler drum 3 via a boiler feed pump 6 .

In the case shown, three circulation pumps 4 are provided for the heating surfaces 1 of the first gas flue, two of which are in operation at a time, while the third is kept in reserve. Two circulation pumps 4 are used for the heating surfaces 2 of the second gas flue.

A further pump 7 is connected in parallel to the circulation pumps 4 and 5. The delivery line 8 of this further pump 7 flows into a connecting line 9. This connecting line 9 , which is provided with shut-off valves, connects the circuits leading through the heating surfaces 1 and 2 .

During the converter's downtimes, when no steel is produced and therefore no hot exhaust gas flows through the waste heat boiler, all circulation pumps 4 and 5 are switched off. During this time, forced operation is maintained at a reduced throughput with the help of the additional pump 7. The additional pump 7 is designed for this reduced throughput. The power consumption of this additional pump 7 is accordingly also significantly lower than that of the circulation pumps 4 or 5 .

Claims (2)

1. Waste heat boiler for a discontinuously heated plant, in which the heating surfaces are flowed through in a forced flow maintained by circulation pumps, characterized in that a further pump ( 7 ) is connected in parallel to the circulation pumps ( 4, 5 ), which is designed for a lower throughput than the circulation pumps ( 4, 5 ) and that the pumps ( 4, 5, 7 ) are coupled to one another in such a way that the further pump ( 7 ) is switched on alone during the operating breaks of the plant. 2. Waste heat boiler according to claim 1, characterized in that in a waste heat boiler with several separate circuits of the forced-flow medium, these are connected by a lockable connecting line ( 9 ) into which the delivery line ( 8 ) of the further pump ( 7 ) opens.