DE1533937B1 - PROCEDURE FOR CONTINUOUS APPROXIMATE DETERMINATION OF THE EXPECTED DRINKING TEMPERATURE DURING THE PROCESS IN THE BASIC OXYGEN INFLATABLE CONVERTER - Google Patents

Description

The invention relates to a process for hen mag that is continuous during the process

continuous, approximate determination of the to determine the temperature TB of the bath. The Com-

Expected tapping temperature during the process computer 10 sends a signal on line 12 that

The process in the basic oxygen inflation converter is indicative of the bath temperature.

Using the continuously determined bath temperature 5 The second when calculating the estimated

and a further continuously determined characteristic tapping temperature is used by the

size using process computers. Bath carbon (CB) computer 14 derived from the

The invention addresses the problem of continuously targeting the carbon content of the bath

Process control in the production of steel in the basic oxygen converter during the

basic furnace by means of oxygen. io treatment method determined. From the bath

During the refining of the pig iron to steel in the carbon computer, an output signal is sent to the A large line 16 is given to a basic oxygen converter. This bath carbon signal is Amount of heat generated by the freshening process itself, preferably representative of the temperature change. This warmth together with the warmth that would be produced in the bath if the content of the bath at the start of the freshening process 15 Amount of carbon determined by the computer 14 as in determines the final temperature of the bath. During the bath containing it is calculated with the in the Certain sections of the refining process are combined with the free bath oxygen introduced by the lance Heat would primarily be the result of oxidation.

of the carbon from the bath to remove carbon monoxide. The third signal that is used to calculate the

and to form carbon dioxide while another 20 estimated tapping temperature is necessary

Times during the process a considerable part due to the setting of the ISA grinder at the potential

the released heat results from the FeO, tiometer slide wire 18 generated by button 18 B ,

that is generated in the slag roof of the bath. where the potential on the output line 20 is linear

When refining pig iron in converters, the movement of the button 18 B varies. As shown by thermoelectric measuring devices for measuring the 25, the sliding wire 18 of the potentiometer is used with the temperature profile of the bath, which at its upper connection with a potential source E, neither with the aid of a lance through the converter and with its lower connection with earth the bath to be introduced, or after the. It will thus have a tapping coal head on line 20, depending on the German Auslegeschrift 1149 034 a measuring of the setting of the button, which generates in a recess in the infeed 30 material signal that is attached representative of the temple of the converter and in The working temperature change is that would be caused by the position of the converter under and, in the tilted position, a combination of the amount of carbon that lies above the bath level. Remaining content in the steel at the time of tapping

It is desirable that the blowmaster know the temperature as soon as is desired, with what is possible from the lance, during the blowing process, 35 oxygen; or, in other words, it is the temperature he has to expect at the time when the carbon equivalent of the tapping carbon content of the material content of the bath the bath in the basic oxygen converter desired for the tapping,
th value. A calculation of the estimated The signals on lines 12, 16 and 20 will be tapping temperature during the process is fed as input signals to an amplifier 22, able to give a very useful indication of this, 40 with the signals on lines 12 and 16 adding up wherever the blowmaster can take the necessary steps while the signal on line 20 is subtracted from the sum obtained so as to obtain the temperature of the bath. It is generated by changing to the appropriate tap temperature at the time when the desired tapping temperature has been achieved as a composite signal of the carbon content thus producing an output signal on line 24. ■ 45 indicator 26 is supplied and that is representative of

According to the invention, the stated object is that the estimated tapping temperature is.
The circuit shown in block form is particularly useful for determining the estimated carbon content of the coal tapping temperature for high temperatures to be carried out until the desired end is reached. Such temperatures, which are likely to burn off, usually do not result in the formation of an increase in the bath temperature, with a large amount of slag FeO, and thus this anticipated temperature increase itself, the signal on line 16 can be calculated as a linear function so approximately that the of the of the bath calculated carbon content, temperature increase at complete combustion and the signal on line 20 is a linear function of the time of temperature measurement vorliegen- be 55 of the set by the knob 18 B Äbstichden continuously measured carbon of the carbon-value. Both,; the bath carbon bath would occur to that portion of this signal and the tapping carbon signal, as they are due to the increase in temperature, which the computer 14 or the "potentiometer 18 generates the intended burn at the moment of the converter, correspond to expressions of points or The remaining carbon in the bath was smeared off 60 percent of carbon, so that the corresponding amount on the lines would be reduced. 16 and 20 signals provided independently

One embodiment of the invention is in which are on the weight of the bath.

Drawing illustrates. The bath temperature computer 10 can be one of

The drawing shows that the estimated rack will be any number of computers used for the

temperature display by combining several 65 continuous calculation of the temperature of the

Signals is received. The first of these signals will be Bades designed. An example of such a com

obtained from the bath temperature computer 10, the puters is in heavy weight registered on March 30, 1966

from a number of computer arrangements existing application L 53 234 IX / 42i of the same

Applicant disclosed. The means specified there for the calculation of the bath carbon could also be used as the bath carbon computer 14 can be used. Alternatively, the bath carbon content in the Manner as disclosed in U.S. Patent 3,181,343.

This calculation of the bath temperature and the bath carbon, and the rate of decarburization can either be in a manner known per se an analog computer or a digital computer, while that for the temperature change representative signals associated with the tapping carbon setting by button 18B are derived from any of a number of different types of signal generators so that the arrangement illustrated in the drawing is only representative of a particular one Form of the invention is.

Claims (1)

Claim: _ao Process for the continuous, approximate determination of the expected tapping temperature during the process sequence in the basic oxygen inflation converter with the help of continuously determined bath temperature and a further continuously determined parameter using process computers, characterized in that the measured Bath temperature from the temperature up to the achievement of the desired final carbon content carbon burn-off still to be carried out, likely increase in temperature of the bath is counted, this probable temperature increase itself in such a way it is approximately calculated that the temperature increase that occurs with complete burn-up the continuously measured carbon present at the time of the temperature measurement of the bath would occur to the proportion of this temperature increase that the imaginary burn-off of the desired one that was still present at the moment of the converter tapping Would correspond to carbon in the bath is reduced. 1 sheet of drawings