EP2789961A1 - Method, in particular for determining the condition of the tapping of a metallurgical vessel - Google Patents

Abstract

A method is used in particular for determining the state of the tapping of a vessel containing the molten metal (10). Data of the refractory lining of the tapping (20), such as materials, wall thickness, type of installation and others, are recorded, measured and evaluated. Then these data are collected and stored in a data structure. From this, a mathematical model is created from at least part of the measured or determined data or parameters, by means of which these data or parameters are evaluated by calculations and subsequent analyzes. Thus, in a metallurgical vessel not only measurements for the determination of the lstzustandes the refractory lining of the tapping of the vessel can be determined after its use, but it can be coherent or holistic investigations and analysis thereof.

Description

The invention relates to a method in particular for determining the state of the tapping of a metallurgical vessel according to the preamble of claim 1.

There are calculation methods for the design of the refractory lining of the tapping and the vessel in particular of metallurgical Melting vessels in which determined data or empirical values are converted into mathematical models. Since with these mathematical models, the effective wear mechanisms in the inserts of the metallurgical vessels can not be detected or taken into account with sufficient accuracy, the possibilities for a computational determination of the state of the refractory linings and the tapping and the care work of the lining are very limited, ie that the decisions over the period of use of the refractory lining of a vessel or its tap, for example, a converter, must still be taken manually.

In a method according to the document WO-A-03/081157 for measuring the residual strength of the refractory lining in the wall and / or bottom area of a metallurgical vessel, for. As an electric arc furnace, the measured data determined for the subsequent renovation of the detected wear areas are used. The measuring unit is brought to a serving for refurbishing the lining manipulator in a measuring position above or within the metallurgical vessel and it is then measured the residual thickness of the lining in the wall and / or floor area. From a comparison with a measured at the beginning of the furnace travel actual profile of the lining whose wear is determined, from which then the refractory lining can be rehabilitated. With this method, however, no comprehensive determination of the vessel lining is possible.

According to the document WO 2007/107242 is a method for determining the wall thickness or wear of the lining of a metallurgical melting vessel with a non-contact scanning system Detection of the lining surface with determination of the position and orientation of the scanner system and assignment to the position of the melting vessel revealed by the detection of spatially fixed reference points. In this case, a perpendicular reference system is used and the inclinations of two axes with respect to a horizontal plane are measured by inclination sensors. The measurement data of the scanner can be transformed into a perpendicular coordinate system and thus an automated measurement of the respective actual state of the lining of the melting vessel is possible.

Based on these known calculation methods or measuring methods, the present invention has the object to provide a method according to the type mentioned, by means of which the durability of the refractory lining of the tapping of a metallurgical vessel and the process itself can be optimized and reduces manual decisions for it or virtually eliminated.

According to the invention this object is achieved according to the features of claim 1.

The method according to the invention provides that data of a respective vessel are collected and stored in a data structure, and from all the measured and determined data or parameters, in particular the refractory lining of the tap, a computer model is created by means of which these data or parameters Calculations and subsequent analyzes are evaluated.

With this method according to the invention, in a metallurgical vessel not only measurements for determining the actual state of the refractory lining of the tapping of the vessel after its use can be determined, but it is also possible to carry out coherent or holistic investigations and analyzes thereof, from which optimization with respect to both Fireproof lining of the tapping and possibly on the entire process flow of the filled and treated in the vessel melt can be achieved.

Further advantageous details of this method in the context of the invention are defined in the dependent claims.

Fig. 1

einen schematischen Längsschnitt eines metallurgischen Gefässes mit einem Abstich.

Embodiments and other advantages of the invention are explained below with reference to a drawing. It shows:

Fig. 1

a schematic longitudinal section of a metallurgical vessel with a tap.

The method relates in particular to metallurgical vessels, such as such a vessel 10 as an embodiment in Fig. 1 is shown cut. In the present case, the vessel is a known converter 10 for steelmaking. This converter 10 consists essentially of a metal housing 15, a refractory lining 12, a tapping 20 and gas purging 17, 18, which can be coupled with a gas supply not shown in detail.

The filled during operation in this converter 10 molten metal is metallurgically treated, for example by a blowing process, which is not explained in detail. Usually, a plurality of such converters 10 are in use in a steel mill for steel production at the same time and it is to capture the data for each of these converters.

The upper lateral region of the converter 10 is associated with this tap 20, which serves to empty the molten metal after its treatment. This tapping 20 is composed of a tapping channel 21, the latter forming sleeve-shaped tapping blocks 22 and a metal outlet pipe 24 together. Of course, this tap can also be configured differently than shown.

The method can in principle be applied to various metallurgical vessels, such as electric furnace, blast furnace, steel ladle, non-ferrous metal vessel such as aluminum smelting furnace, copper anode furnace or the like.

The method is characterized by the fact that it can be applied for different different vessels. Thus, for example, the refractory linings of the taps of all standing in operation converter and possibly pans are determined in which the same melt is first treated in a converter and subsequently poured into steel pans.

First, the data divided into groups of a respective tap 20 of the converter 10 are comprehensively collected and stored in a data structure.

In order to measure the wear as a group, this is done initially for the new refractory lining, in which the given dimensions of the tapping blocks 22 are known. In addition, the materials and material properties of the used tapping blocks 22 and the mortar or the like may be detected.

In the other group designated as production data, a recording takes place during the period of use of the respective converter 10, such as melt quantity, temperature, composition of the melt or slag and their thickness, tapping times, temperature profile, treatment time and / or metallurgical parameters; like special additives in the melt. Depending on the type of converter, only part or all of the above production data is recorded.

The invention is characterized in particular by focusing primarily on the tapping time for the recurrent calculations or analyzes by the computer model. With the measurements of the tapping times very reliable conclusions about the wear and other factors, such as changes with increasing service life of the refractory tapping stones, can be drawn.

After the use of the converter 10 advantageously takes place a measurement of the inner diameter of the refractory lining in the tapping 20 advantageously sections. It is sufficient if the measurement of the wall thicknesses of the lining 12 is carried out after a number of taps. It can then be determined other process parameters, such as filling or Abstichart the molten metal in or out of the melting vessel.

According to the invention, a mathematical model is created from at least part of the measured and determined data or parameters, by means of which these data or parameters are evaluated by calculations and subsequent analyzes.

By means of this generated calculation model according to the invention, the maximum duration of use, the wall thicknesses, the materials and / or the care data of the refractory lining of the tapping 20 or, conversely, the process sequences in the treatment of the melt can be optimized. It can be from these analyzes sometimes on the further use without or with repairs of the refractory lining of the tapping 20. It requires no more or only a limited experience manual interpretation of the duration of use of the refractory lining of the tapping 20 and the other sizes to be determined, such as wall thickness, choice of material etc ..

The tapping 20 is expediently subdivided into several sections, for example into an inlet in the container interior, into a plurality of sections in the tapping channel 21 and into an outlet at the outlet connection 24.

With the calculation model, the sections in the tapping 20 are evaluated individually or independently of one another. This has the advantage that the different Loads of the lining can be considered accordingly.

Before or during the creation of the calculation model, the data is checked for plausibility after the acquisition, and if one or more values are missing or torn out, these are respectively corrected or deleted. After preferably individually checking the data, these are saved to a merged valid record.

Advantageously, a reduced number is selected from the measured or determined data or parameters for the recurrent calculations or analyzes, this taking place as a function of empirical values or by calculation methods. This selection of the measured or determined data or parameters for the recurrent calculations or analyzes takes place by means of algorithms, for example a random feature selection.

The data is used for statistical purposes or for later recording for the reconstruction of production errors or the like.

From the measurements of the refractory lining of the tapping 20 after a number of taps by means of an analysis, for example a regression analysis, the calculation model is adapted as a further advantage of the invention, by which the wear can be calculated or simulated taking into account the collected and structured data. This adapted calculation model is especially suitable for use of test purposes in order to test or simulate process sequences and to carry out targeted changes.

The invention is sufficiently demonstrated with the embodiment explained above. Of course, it could still be realized by other variants.

Claims (11)

1. A method in particular for determining the state of the tapping of a metallurgical vessel, are recorded in the data of the refractory lining of the tapping (20), such as materials, wall thickness, installation and others and measured and evaluated, characterized in that
the subsequent measured or determined data of a respective vessel (10) are collected and stored in a data structure, namely ➢ the initial refractory lining of at least the refractory lining of the tapping (20), such as materials, material properties, wall thicknesses of the tapping stones (22) and / or injection materials as care data; ➢ production data during use, such as melt quantity, temperature, composition of the melt or slag and their thickness, tapping times, temperature profiles, treatment times and / or metallurgical parameters; ➢ other process parameters, such as filling or Abstichart the molten metal in or out of the vessel; a mathematical model is generated from at least part of the measured or determined data or parameters, by means of which these data or parameters are evaluated by calculations and subsequent analyzes. 2. The method according to claim 1, characterized in that primarily the tapping time for the recurrent calculations or analyzes is taken into account by the computer model, this being done depending on empirical values or by calculation methods. 3. The method according to claim 1 or 2, characterized in that the data after the detection checked for plausibility and in the presence of a lack, tearing one or more values, these are respectively corrected or deleted. 4. The method according to any one of the preceding claims 1 to 3, characterized in that the data are stored after the preferably individual check to a joined valid data record. 4. The method according to any one of the preceding claims 1 to 3, characterized in that a reduced number of the measured or determined data or parameters for the recurrent calculations or analyzes are selected, this being done depending on empirical values or by calculation methods. 5. The method according to claim 4, characterized in that this selection of the measured or determined data or parameters for the recurrent calculations or analyzes by means of algorithms, for example, a random feature selection, takes place. 6. The method according to claim 4 or 5, characterized in that the data is used for statistical purposes or for a later recording of data. 7. The method according to any one of the preceding claims 1 to 6, characterized in that is decided by this computational model on the further use without or with repairs of the refractory lining of the tapping (20). 8. The method according to any one of the preceding claims 1 to 7, characterized in that from the measurements of the tapping of the melt from the vessel by means of an analysis, for example a regression analysis, the calculation model is adapted, by which the wear taking into account the collected and structured Data can be calculated. 9. The method according to claim 8, characterized in that the model is used for test purposes in order to test or simulate process sequences in order to make targeted changes in real operation. 10. The method according to any one of the preceding claims 1 to 9, characterized in that this tapping (20) consists of a tapping channel (21) and of the latter forming sleeve-shaped tapping stones (22) made of refractory material.

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