KR100321626B1 - Method and device for measuring level of melting material through measurement of voltage difference in blast furnace steel - Google Patents

Abstract

PURPOSE: A device and a method for measuring the height of a melting material are provided to improve the reliability of the measurement. CONSTITUTION: An operator(4) compensates the voltage difference of a blast furnace steel from sensors(1,1') by using a temperature difference from the sensors. The height of a melting material is calculated according to the compensated voltage difference. Thereby, the high measurement of the melting material is possible.

Description

Method and apparatus for measuring melt level by measuring voltage difference in blast furnace bar

The present invention relates to an apparatus and method for measuring the height of the blast furnace melt, and more particularly to an apparatus and method for measuring the height of the blast furnace melt using the voltage difference in the blast furnace shell. This invention is especially necessary in order to determine the opening-closing time of a tap opening in the blast furnace operation.

Blast furnace operation is a process of charging sintered ore and coke at the top and blowing hot air at the bottom to reduce the production of iron, and the resulting melt is accumulated at the bottom of the furnace. The melt produced at the bottom of the furnace should be discharged to the outside of the furnace through the tap. If the tapping is not desired, the melt level will gradually rise to fill the air vent position. have. Therefore, starting work is one of the most important fields in blast furnace operation and is a field that requires continuous management.

The current method of measuring the height of the blast furnace melt is to calculate the output amount by surveying in a torpedo ladle car, converting the output amount by the load power of the belt conveyor motor and calculating the difference from the theoretical production amount There is a method of measuring the amount of melt measured in a furnace. However, this method requires the use of an estimate if all the discharged water is not discharged, and the yield calculation according to the load power of the belt conveyor motor is inaccurate. Therefore, in practice, the operator directly monitors the starting situation and predicts the closing time according to the flame generated when the high pressure air in the furnace and the outlet of carbon in the furnace are discharged at the end of the departure.

Therefore, there is a need for a method and apparatus for measuring melt height in a reliable blast furnace.

An object of the present invention is to provide a device for measuring the height of a blast furnace melt and a method thereof, which are intended to satisfy the above requirements. The object of the present invention is a sensor for detecting the voltage difference and temperature of the blast furnace shells respectively installed in the lower end and the Bosch part of the blast furnace, and calculating means for calculating the height of the blast furnace in accordance with the voltage difference of the blast furnace shells received from the sensor An apparatus for measuring the height of the blast furnace melt consisting of, wherein the calculation of the calculation means corrects the voltage difference of the blast furnace shell detected by the sensor using the temperature difference measured by the sensor, and according to the corrected voltage difference An operation for calculating the height is achieved by providing an apparatus for measuring the height of the in-blast furnace melt by measuring the voltage difference in the blast furnace shell. In addition, an object of the present invention is to detect the voltage difference of the blast furnace shell, to correct the detected voltage difference according to the influence of temperature, and to adjust the height of the melt in the blast furnace based on the material resin according to the pressure difference corrected by the temperature effect It is achieved by the method of measurement.

1 is a schematic view of the apparatus for measuring the height of the in-blast furnace melt by measuring the voltage difference in the blast furnace shell according to the present invention;

2 is a schematic diagram of the electromotive force and temperature measurement sensor of FIG. 1;

Figure 3 shows an example of the installation position of the sensor of Figure 2 in one embodiment according to the present invention;

4 is a graph showing a change in electromotive force difference measured by a sensor with time and converting it into a height of a melt;

5 is a graph showing the effect of shell temperature;

6 is a view showing the relationship between the temperature change and the voltage difference of the steel bar due to aging; And

Fig. 7 shows the relationship between the voltage difference based on the material balance and the melt height.

In the lower part of the blast furnace, a small amount of electromotive force is generated by the electrochemical reaction at the interface between the molten iron and the slag. By drawing the terminal from the upper and lower parts of the blast furnace shell by this electromotive force, an electric circuit is formed from the inside of the blast furnace to the shell and measurement of the voltage difference in the shell This becomes possible. Here, the core coke, molten iron, slag and refractory filled in the furnace act as resistances in the electric circuit, but when the melt level rises, the furnace bottom has a significant portion of the coke layer with low electrical conductivity. The internal resistance decreases, resulting in an increase in the voltage difference in the shell. The opposite is also true if the melt level drops. Therefore, the voltage difference between the shells suggests the height of the melt. Therefore, the present invention is to measure the height of the blast furnace melt through the voltage difference measurement in the bark.

Hereinafter, with reference to the accompanying drawings shows an embodiment of the present invention.

1 is a schematic diagram of an apparatus for measuring the height of the in-blast furnace melt by measuring the voltage difference in the blast furnace shell according to the present invention. First, the blast furnace shell voltage difference and temperature measuring sensors 1 and 1 'are installed in the blast furnace 5. This sensor is to detect the electromotive force and temperature of the blast furnace shell, and is installed in the lower part of the blast furnace and the Bosch part. The voltage difference and the temperature measured by the sensor 1.1 'are transmitted via the cable 2 via the amplifier 3 to the process computer 4, which is an arithmetic means. In general, the signal measured by the sensor is a weak voltage on the order of 0.2-0.5 mV and amplified to, for example, 2-5 V through the amplifier 3 and transmitted to the calculation means 4. An example of such a sensor is shown in FIG. 2. The sensor machined two holes in the iron plate (7), inserted the iron wire (8) for measuring the voltage difference and the thermocouple (9) for measuring the shell temperature, and then welded the blast furnace (5). In order to prevent the penetration of the protective cover 10 can be covered. In addition, as shown in FIG. 3, the sensors 1 and 1 'are installed in the 0 ° direction of the lower part of the blast furnace, and another sensor is installed in the 180 ° direction of the blast furnace Bosch part so that the sensors of the nose part and the Bosch part are connected in pairs. .

The process computer 4 receives the electromotive force difference of the shell and the temperature difference from the sensors 1 and 1 'and performs calculation to measure the height of the melt of the blast furnace.

Figure 4 shows the change in electromotive force difference measured by the sensor over time and converted it to the height of the melt. In normal operation, the voltage value signal rises and falls repeatedly according to the opening and closing of the exit port, so that the change in voltage difference and the change in the height of the melt can be coincided with each other. For example, the melt level is 2.3 m when the voltage difference is 0.7 V and 2.73 m when the voltage difference is 1.14 V. However, in addition to the melt height, the voltage difference signal also depends on the change in the electrical conductivity of the molten iron, slag and refractory due to the change in the furnace, so the effect of the furnace needs to be considered. To this end, the present invention measures the temperature in the shell through a thermocouple installed in the electromotive force sensor and performs calculation in consideration of its effect.

5 is a graph showing the effect of the shell temperature. In the normal operation of FIG. 4, the voltage difference is repeated between 0.7 and 1.25V (see FIG. 4), but as the temperature difference between the Bosch part and the bottom part (see B diagram) increases, the voltage difference increases to 1.4V as shown in the A diagram. When the temperature difference between the part and the bottom part (see diagram B) approaches 0 ° C, the temperature drops again. That is, the line A of FIG. 5 shows a range different from the voltage difference range of FIG. 4, which is attributable to the temperature difference between the electrodes.

The temperature difference between the electrodes does not change significantly because the shell of the bottom part can always be sprayed with cooling water, but in the case of the Bosch part, the temperature difference between the electrodes is due to an increase in furnace heat due to an increase in the molten iron temperature in the furnace and the gas temperature in the furnace. Therefore, it is necessary to compensate for the effect of the temperature of the shell, rather than simply calculating the melt height depending on the electromotive force difference alone.

6 is a view showing the relationship between the temperature change and the voltage difference of the steel bar due to the heat. As can be seen here, the temperature difference between the electrodes and the voltage difference are closely related. Based on this, the voltage difference for correction can be obtained.

Difference voltage = 0.0003 (temperature) ² +0.0113 (temperature) +0.3717

That is, in order to measure the actual melt height, the correction voltage difference must be subtracted from the measured voltage difference, and thus, it is possible to recover the range of actual operation as shown by the C diagram of FIG. 5. Therefore, the computing means 4 calculates the height of the blast furnace melt by subtracting the correction voltage difference obtained by the above equation from the voltage difference detected by the sensor. The height of the melt due to the voltage difference can be calculated based on the material balance.

7 is a view showing the relationship between the voltage difference and the melt height based on the material resin from which it can be seen that the relationship between the voltage difference and the melt height is expressed by the following equation.

Melt Height = 0.70689 × (Voltage Difference) +0.29018

Therefore, the height of the melt can be measured by subtracting the correction voltage difference indicating the influence of temperature from the voltage difference of the blast furnace bar (subtraction voltage difference) and substituting the subtraction voltage difference into the voltage difference of the above equation. do.

That is, the process computer 4 as a calculation means subtracts the correction voltage difference according to the temperature of the blast furnace shell of Equation 1 above from the voltage difference of the blast furnace shell measured by the sensors 1 and 1 'to obtain a subtracted voltage difference. By calculating the height difference of the melt in the blast furnace by substituting this into the voltage difference of the above formula (2), which is a formula obtained based on the material balance.

As such, the present invention enables the measurement of the height of the blast furnace melt using the voltage difference between the blast furnace shells and the correction of the voltage difference caused by the temperature difference of the blast furnace bosch section and the bottom section. Enable measurement

Claims (5)

A sensor for detecting a voltage difference and a temperature of the blast furnace shells respectively installed at the bottom of the furnace bottom and the bosch section of the blast furnace; Comprising a calculation means for calculating the melt height of the blast furnace receiving a signal from the sensor, the device for measuring the height of the blast furnace in accordance with the voltage difference in the blast furnace shell, the calculation of the calculation means The voltage difference in the blast furnace bar is characterized by correcting the voltage difference of the blast furnace bark detected by the sensor using the temperature difference measured by the sensor, and calculating the height of the blast furnace melt in accordance with the corrected voltage difference. Apparatus for measuring melt height in blast furnace through measurement. The method of claim 1, Correction of the detected voltage difference of the blast furnace shell using the blast furnace shell temperature difference is achieved by subtracting the correction voltage difference obtained by the following equation (3) from the blast furnace shell detection voltage difference: Apparatus for measuring melt height in blast furnace through measurement. Difference voltage = 0.0003 (temperature) ² +0.0113 (temperature) +0.3717 The method of claim 2, The calculation of the blast furnace melt height of the calculation means is calculated by the following equation (4) from the subtraction pressure difference of claim 2, the apparatus for measuring the height of the blast furnace melt through the voltage difference measurement. Melt height = 0.70689 × (subtracted voltage difference) +0.29018 The method of claim 1, The sensor is a device for measuring the height of the melt in the furnace, characterized in that made of a wire for measuring the voltage difference and a thermocouple for measuring the shell temperature. In the method for measuring the height of the blast furnace melt, the method of measuring the voltage difference of the blast furnace shell, the above-mentioned voltage difference is a correction voltage difference obtained by the following equation 5 by the temperature of the blast furnace shell And subtracting the blast furnace voltage difference from the blast furnace voltage difference, and substituting the subtracted pressure difference into Equation 6 below to measure the height of the melt. Difference voltage = 0.0003 (temperature) ² +0.0113 (temperature) +0.3717 Melt height = 0.70689 × (subtracted voltage difference) +0.29018

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