DE2213003A1 - Steelworks converter flue - has high temp liquid cooling circuit with immersed outlet rising pipes - Google Patents

Abstract

The rising pipes coming from the forced circulation cooled converter flues are connected with the boilers into which they feed the hot coolant below water level. For start up the fall pipes are drained of cold coolant and filled with hot coolant to start up immediate natural coolant circulation. The plant becomes immediately effective when the intermittently converters are being blown.

Description

Title: Hot Cooling Circuit and Procedure for Commissioning the Same The invention relates to a hot cooling circuit for intermittently heated cooling devices, in particular for systems with one or more converter chimneys with natural circulation the cooling liquid and a method to start up a converter cooling system after a pause.

Converter cooling systems are known which operate according to the natural circulation process be cooled. In these systems, the riser pipes open out above the water level in the boiler drum in the same. This circuit has the disadvantage9 that when starting, i.e. when the steelworks converter starts blowing, the natural circulation of the cooling liquid is hindered, causing pulsations with their consequences. These eventually cause the breakage of individual heating surface tubes, so that such systems are prone to repair.

The invention avoids the stated disadvantage and is characterized in that that the riser pipes of the chimney are below the water level in the boiler drum flow into the same. According to another feature of the invention, is at the lowest point of the cooling system, a drainage device is provided, with which the during the pause the resulting cooled cooling medium can be drained off.

The method according to the invention for putting a converter gas cooling system into operation is characterized in that at the latest before the start of the cooling process, preferably during the unaffected phase of the gas cooler, which is in the tubes of the Kühlkatiiines The resulting cooled cooling medium is drained off and the following tLeiker) cooling medium from the boiler drum is replaced.

The invention is illustrated by way of example and schematically in the attached figure presented. In this two parallel-connected cooling circuits are shown Have connections for a third or for several additional cooling circuits, which via a common steam bus bar 1 au. a shared memory 2 work. A circulation line 3 leads from the reservoir 2 to the hood cooling circulation pumps 4, 5 of the two converter chimneys. The two circulating pumps, in addition to the additional Forced cooling of the movable hoods 23 and 24 also promotes the cooling medium in the boiler drum 6, 7 with the liquid level 8, 9 in the boiler drum 6, 7 is constantly held and the excess cooling medium via the line 10, il is returned to memory 2. Connected to the boiler drum 6, 7 are the downpipes 12, 1), which in the im Inside the converter gas chimney arranged riser pipes 14, 15 open. At the lowest point of the cooling system 16, 17 a discharge device 18, 19 is provided, whereby the in the rising and Downpipes accumulated cooler cooling medium via the return line 20 into the memory 2 can be directed.

If necessary, a Dexpf consumer can in the ring line 21 Useful heat exchanger or a condenser 22 must be switched on.

Since converter systems are generally intermittent at short intervals are operated, the difficulty arises with the gas cooling systems to achieve the desired Time to be able to dissipate the amount of heat that arises. It therefore insists on Due to the currently known natural circulating chimney constructions, the danger9 that pulsations, or circulation difficulties occur, so that the absorbed by the heating surfaces Heat cannot be dissipated as desired.

For safe dissipation of the heat introduced by the converter gases In order to avoid pulsations, therefore, forced circulation boilers have already been used several times built, which, however, is preferred due to the constantly high demand for energy be replaced by naturally-cooled converter gas cooling systems. The ones in natural circulation operated chimneys reduce the inefficiency, which is in particular in closed-circuit chimneys, in which the generated steam is condensed and therefore does not result in any operational credit.

The first remedial measure is therefore the confluence of the riser pipes 14 and 15 laid in the boiler drum 6 and 7 below the water level 8 and 9, respectively. This measure enables immediate circulation within the heating surfaces, as soon as the heat build-up begins.

About residual difficulties when restarting the still warm chimney system To eliminate, a drain line into the accumulator is from the lower end of the cooling system which is switched by a drain valve 18, 19.

Through this drain valve, the gas in the cooling system of the gas cooler, removed cooled cooling medium and relatively hot cooling medium from the boiler drum flows through the downpipe and riser, so that when the heating starts Immediate steam generation begins, which ensures the safe circulation of the cooling medium causes in the system.

Of course, the shut-off valve 18 and is during the blowing time 19 closed. This circuit is particularly advantageous when several in parallel switched cooling chimneys are available, so that the cooling medium in the boilers on is kept approximately constant temperature.

The method according to the invention for putting a converter system into operation enables the cooling system to be started up particularly quickly and gently.

Claims (5)

PATENT CLAIMS 1.Hot cooling circuit for intermittently heated cooling devices, especially for a system of one or more converter chimneys with natural circulation of the cooling liquid, in that the riser pipes (14, 15) of the chimney below the water level (8, 9) in the boiler drum (6, 7) in the same flow. 2. Hot cooling circuit according to claim 1, characterized in that g e k e n n -z e i c h n e t that a water overflow is arranged in the boiler drum (6, 7), the leads to a memory (2) from which the circuit of the chimney is fed. 3. hot cooling circuit according to claim 1, characterized in that g e k e n n -z e i c h n e t that the steam chambers of the boiler drums with each other and with the memory (2) are connected. 4. hot cooling circuit according to claim 1 or 2, characterized in that g e -k e n n z e i c h n e t that at the lowest point (16, 17) of the natural circulation system a drainage device (18, 19) is provided, which is connected to a line (20) leading to the memory (2) is. 5. Procedure for commissioning a converter cooling system after a Blow pause according to at least one of Claims 1 to 4, characterized in that it is not possible c h n e t that before Start of the cooling process, preferably during the unheated phase of the cooling operation in the pipes of the natural circulation system The cooled cooling medium located is drained into the memory and from the incoming hot cooling medium from the boiler drum is replaced.