JP2020158642A - Measuring method of coke strength, estimating method of coke strength, and producing method of coke - Google Patents

Abstract

To provide a measuring method of coke strength capable of comparing coke strengths measured at different facilities, and an estimating method of the coke strength.SOLUTION: A measuring method of coke strength of this invention includes: a step of setting as a reference shock amount an accumulated amount of shock imposed on coke from a coke oven to handover to a coke strength test; a step of measuring as an actually measured shock amount an accumulated amount of shock imposed on the coke from the coke oven to a sampler using an acceleration meter at a measurement target coke oven; and a step of measuring coke strength after separately adding to coke collected by the sampler a difference of shock amount between the reference shock amount and the actually measured shock amount.SELECTED DRAWING: Figure 2

Description

The present invention relates to a method for measuring coke strength, a method for estimating coke strength, and a method for producing coke.

Strength is a particularly important quality control item in the production of coke required for blast furnace operation. If high-strength coke is used, the air permeability in the blast furnace is improved, and the blast furnace can be operated stably. Against this background, various methods for measuring coke strength have been proposed so far.

Japanese Unexamined Patent Publication No. 58-96678

However, the conventional coke strength measuring method does not consider the amount of impact received from the junction, head, etc. of the belt conveyor until the coke produced in the coke oven is transported to the DI analyzer for analyzing the strength. The coke strength changes depending on the amount of impact applied to the coke. Therefore, according to the conventional method for measuring the coke intensity, it is not possible to compare the coke intensity between facilities having different configurations from the coke oven to the DI analyzer. Specifically, in the equipment shown in FIG. 6A, the coke produced in the coke oven is transported to the drop chute 12 by the one-stage belt conveyor 11 and then transported, hand-sieved, and reduced. It is sent to the DI analyzer 13. On the other hand, in the equipment shown in FIG. 6B, the coke produced in the coke oven is sent to the hopper 14 by the two-stage belt conveyor 11, and is carried from the hopper 14 to the reduction device by the three-stage belt conveyor 11. After that, it is transported, automatically hand-sieved, reduced, and hand-sieved and sent to the DI analyzer 13. Therefore, the amount of impact applied to the coke before being carried to the DI analyzer 13 differs between the equipment shown in FIG. 6A and the equipment shown in FIG. 6B, so that the equipment was analyzed by the DI analyzer. Coke strength cannot be simply compared. Patent Document 1 discloses a method for controlling coke particle size and coke strength in which the amount of impact to be applied to coke in the coke transfer process is evaluated by the number of revolutions of a drum tester. It cannot solve the problem of the difference in the analysis value depending on the position.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a method for measuring coke intensity and a method for estimating coke intensity capable of comparing coke intensities measured in different facilities. Another object of the present invention is to provide a method for producing coke capable of stably producing coke having a strength within a desired range.

The method for measuring coke strength according to the present invention includes a step of setting the cumulative impact amount given to coke as a reference impact amount between the coke oven and the test for coke strength test, and an accelerometer in the coke oven to be measured. The step of measuring the cumulative impact amount applied to the coke between the coke oven and the sampler as the measured impact amount, and the impact amount of the difference between the reference impact amount and the measured impact amount are measured on the coke collected by the sampler. It is characterized by including a step of measuring coke strength after giving separately.

The method for estimating the coke strength according to the first aspect of the present invention includes a step of setting the cumulative impact amount given to the coke as a reference impact amount between the coke oven and the test for the coke strength test, and the coke to be measured. The step of measuring the cumulative impact amount applied to the coke between the coke oven and the sampler using an accelerometer in the coke as the measured impact amount, and the difference between the reference impact amount and the measured impact amount for a plurality of coke in advance. The correlation between the coke strength measured after separately applying the impact amount to the coke collected by the sampler and the coke strength measured without separately applying the difference impact amount to the coke collected by the sampler was obtained. When the coke strength is measured after separately giving the difference impact amount based on the step to be set and the coke strength measured without separately giving the difference impact amount to the coke collected by the sampler and the above correlation. It is characterized by including a step of estimating coke intensity.

The method for estimating the coke strength according to the second aspect of the present invention includes a step of setting the cumulative impact amount given to the coke as a reference impact amount between the coke oven and the test for the coke strength test, and the coke to be measured. In the furnace, the step of measuring the cumulative impact amount applied to the coke between the coke oven and the sampler using an acceleration sensor as the measured impact amount, and the cumulative impact amount and cumulative impact amount given to the coke in advance for multiple cokes are given. The step of obtaining the correlation with the coke strength measured after that, the coke strength measured without giving an additional impact to the coke collected by the sampler, the measured impact amount, and the correlation. It is characterized by including a step of estimating the coke strength when the coke strength is measured after giving the reference impact amount based on the above.

The method for producing coke according to the first aspect of the present invention includes a step of setting a target value of coke strength using the coke strength when the reference impact amount is applied as an index, and a method for measuring the coke strength according to the present invention. It is characterized by including a step of producing coke so that the coke intensity measured by is equal to or higher than the target value.

The method for producing coke according to the second aspect of the present invention includes a step of setting a target value of coke strength using the coke strength when the reference impact amount is applied as an index, and a method for estimating the coke strength according to the present invention. It is characterized by including a step of manufacturing coke so that the coke strength estimated by is equal to or higher than the target value.

According to the method for measuring coke intensity and the method for estimating coke intensity according to the present invention, it is possible to compare the coke intensity measured by different facilities. Further, according to the method for producing coke according to the present invention, coke having a strength within a desired range can be stably produced.

FIG. 1 is a diagram showing an example of the relationship between the cumulative impact amount and the DI intensity. FIG. 2 is a flowchart showing a flow of a method for measuring coke strength according to the present invention. FIG. 3 is a schematic view showing the configuration of a drum strength tester. FIG. 4 is a diagram showing an example of the relationship between the normal DI strength and the post-impact DI strength. FIG. 5 is a diagram showing an example of the relationship between the cumulative impact amount and the DI intensity. FIG. 6 is a schematic view showing an example of equipment having different configurations from the coke oven to the DI analyzer.

FIG. 1 is a diagram showing an example of the relationship between the cumulative impact amount applied to coke and the DI intensity (coke intensity) of coke measured by a DI analyzer. As shown in FIG. 1, it can be seen that the coke strength changes according to the magnitude of the cumulative impact amount. Therefore, as a result of repeated diligent research, the inventor of the present invention measured the cumulative impact amount applied to the coke between the coke oven and the sampler using an acceleration sensor in the coke oven to be measured as the measured impact amount. By comparing the coke strength after making the cumulative impact applied to the coke at the same level based on the measured measured impact amount, we came up with the technical idea that the coke strength measured by different facilities can be compared. Hereinafter, a method for measuring coke strength, a method for estimating coke strength, and a method for producing coke, which are conceived based on the present technical idea, will be described with reference to the drawings.

[Measuring method of coke strength]
First, a method for measuring coke strength according to the present invention will be described with reference to FIGS. 2 and 3. FIG. 2 is a flowchart showing a flow of a method for measuring coke strength according to the present invention. FIG. 3 is a schematic view showing the configuration of a drum strength tester.

As shown in FIG. 2, in the method for measuring coke strength according to the present invention, first, the cumulative impact amount given to coke from the coke oven to the test for the coke strength test is set as the reference impact amount (step S1). ). Here, as the reference impact amount, a measured value of the cumulative impact amount in a certain coke oven or an arbitrary set value can be used. Next, in the coke oven to be measured, the cumulative impact amount applied to the coke between the coke oven and the sampler is measured as the measured impact amount using an accelerometer (step S2).

In general, the installation position of the sampler differs depending on the equipment. For example, the equipment shown in FIG. 6A is installed at the position P1, and the equipment shown in FIG. 6B is installed at the position P2. In addition, the measured impact amount can be measured by mixing coke with an accelerometer and flowing the coke through an actual transport path. In this case, the accelerometer may be inserted inside the outer shell structure according to the size, shape, and specific gravity of the coke. When a 3-axis acceleration sensor is used as the accelerometer, the measured impact amount measures the acceleration at a predetermined frequency, obtains the acceleration vector from the acceleration of each of the 3-axis, and the length of the acceleration vector is a predetermined value. It can be obtained by integrating the above measured values.

Next, the impact amount of the difference between the reference impact amount set in step S1 and the measured impact amount measured in step S2 is separately applied to the coke collected by the sampler (step S3). Specifically, coke C was inserted into the cylindrical drum strength tester 1 as shown in FIG. 3, and the drum strength tester 1 was rotated to be provided on the inner peripheral surface of the drum strength tester 1. By scraping up the coke C with the wings 1a and dropping it, the impact amount of the difference is separately given to the coke C. The amount of impact applied to the coke C can be adjusted by obtaining in advance the relationship between the rotation speed of the drum strength tester 1 and the amount of impact applied to the coke C. Examples of other equipment for applying an impact amount to coke include a shutter device and a tumbler tester. The amount of impact per rotation or one drop in the equipment for which the amount of impact is applied can be obtained, for example, by placing the above-mentioned accelerometer in the equipment for applying the amount of impact and measuring the amount of impact.

Finally, the strength of the coke after separately applying the impact amount of the difference is measured (step S4). According to such a method of measuring the coke strength, the coke strength is measured after the cumulative impact amount applied to the coke is unified to the reference impact amount, so that the coke strength measured by different facilities can be compared.

[Coke strength estimation method]
Next, a method for estimating the coke intensity according to the first and second aspects of the present invention will be described with reference to FIGS. 4 and 5.

[First aspect]
First, a method for estimating coke intensity according to the first aspect of the present invention will be described with reference to FIG. FIG. 4 shows the difference between the coke strength (DI strength after impact) measured after separately applying the impact amount of the difference between the reference impact amount and the measured impact amount to the coke collected by the sampler and the coke collected by the sampler. It is a figure which shows an example of the relationship with the coke strength (normally DI strength) measured without giving an impact amount.

In the method for estimating the coke strength according to the first aspect of the present invention, first, in the same manner as the method for measuring the coke strength, the cumulative impact amount given to the coke from the coke oven to the test for the coke strength test is used as a reference. It is set as the impact amount, and the cumulative impact amount applied to the coke between the coke oven and the sampler is measured as the measured impact amount using an accelerometer in the coke oven to be measured.

Next, for a plurality of cokes in advance, the coke strength (DI strength after impact) measured after separately applying the impact amount of the difference between the reference impact amount and the measured impact amount to the coke collected by the sampler and the sample were collected by the sampler. The correlation with the coke intensity (usually DI intensity) measured without giving a difference impact amount to the coke is obtained. Specifically, for example, by measuring the coke intensity before and after the impact amount of the difference is applied, the function L1 showing the relationship between the normal DI intensity and the post-impact DI intensity as shown in FIG. 4 is obtained.

And finally, the coke when the coke strength is measured after giving the difference impact amount based on the coke strength measured without giving the difference impact amount to the coke collected by the sampler and the above-mentioned correlation. Estimate the strength. Specifically, in the example shown in FIG. 4, the post-impact DI intensity is calculated by substituting the measured coke intensity into the function L1 without giving a difference impact amount to the coke collected by the sampler. According to such a method of estimating the coke intensity, it is possible to compare the coke intensities measured by different facilities without giving a difference impact amount to the coke collected by the sampler.

[Second aspect]
Next, a method for estimating the coke intensity according to the second aspect of the present invention will be described with reference to FIG. FIG. 5 is a diagram showing an example of the relationship between the cumulative impact amount applied to coke and the coke intensity (DI intensity) measured after applying the cumulative impact amount in a plurality of cokes having different intensities.

In the method for estimating the coke strength according to the second aspect of the present invention, first, in the same manner as the method for measuring the coke strength, the cumulative impact amount given to the coke from the coke oven to the test for the coke strength test is used as a reference. It is set as the impact amount, and the cumulative impact amount applied to the coke between the coke oven and the sampler is measured as the measured impact amount using an accelerometer in the coke oven to be measured.

Next, for a plurality of cokes having different intensities in advance, the correlation between the cumulative impact amount applied to the coke and the coke intensity measured after the cumulative impact amount is applied is obtained. Specifically, for a plurality of cokes having different intensities, the coke strength is measured by changing the rotation speed of the drum strength tester, and the cumulative impact amount at each rotation speed is obtained using an accelerometer. Plot. As a result, as shown in FIG. 5, curves L2 to L4 showing the relationship between the cumulative impact amount applied to the coke in a plurality of cokes having different intensities and the coke intensity (DI intensity) measured after the cumulative impact amount is applied. Is obtained. At this time, if the coke collected at the position immediately after being discharged from the coke oven is used, the position immediately after being discharged from the coke oven is set as the position where the cumulative impact amount is 0, and the coke sampled at any subsequent position can be used. It can be used as a method for estimating coke intensity according to the second aspect of the present invention. Immediately after being discharged from the coke oven, it may be immediately after being discharged from the carbonization chamber, or immediately after being discharged from, for example, a CDQ (coke dry fire extinguishing device). It can be located at the most upstream position of the coke transfer process, which is closest to the coke oven, among the places where sampling for strength measurement can be substantially performed. Further, the reference position where the cumulative impact amount is 0 can be arbitrarily determined as the most upstream position where the strength in the transport process should be evaluated.

Next, the correlation corresponding to the coke to be measured is estimated based on the coke strength measured without applying an additional impact to the coke collected by the sampler and the measured impact amount. Specifically, a curve corresponding to the coke to be measured is selected from the curves L2 to L4 shown in FIG. For example, when curves L2 to L4 are obtained using coke immediately after being discharged from the coke oven, the cumulative impact amount on the horizontal axis in FIG. 5 is added in that it is equal to the measured impact value from immediately after discharge to the sampler. Select the curve corresponding to the coke to be measured from the curves L2 to L4 by examining which curve of the curves L2 to L4 the value of the coke intensity measured without giving the impact of is on. Can be done. Finally, the coke intensity is estimated when the coke intensity is measured after the reference impact amount is applied based on the estimated correlation. According to such an estimation method of coke strength, even when the reference impact amount is smaller than the measured impact amount, the coke measured by different facilities without giving a difference impact amount to the coke collected by the sampler. The strengths can be compared.

[Coke manufacturing method]
In the method for producing coke according to the first aspect of the present invention, a target value of coke strength is set using the coke strength when a reference impact amount is applied as an index, and the coke strength is measured by the method for measuring coke strength according to the present invention. Manufacture coke so that the coke strength exceeds the target value. Further, in the method for producing coke according to the second aspect of the present invention, a target value of coke strength is set using the coke strength when a reference impact amount is applied as an index, and the first or second aspect of the present invention. The coke is manufactured so that the coke strength estimated by the coke strength estimation method according to the above is equal to or higher than the target value. According to the method for producing coke according to the present invention, for example, coke having a strength within a desired range can be stably produced regardless of the difference in the coke oven, coke transfer, and sampling process, and then the blast furnace is operated. Can be stabilized.

Although the embodiment to which the invention made by the present inventors has been applied has been described above, the present invention is not limited by the description and the drawings which form a part of the disclosure of the present invention according to the present embodiment. That is, other embodiments, examples, operational techniques, and the like made by those skilled in the art based on the present embodiment are all included in the category of the present invention.

1 Drum strength tester 1a Feather C coke

Claims (5)

The step of setting the cumulative impact amount given to the coke as the reference impact amount between the coke oven and the test for the coke strength test, and
In the coke oven to be measured, the step of measuring the cumulative impact amount applied to the coke between the coke oven and the sampler using an accelerometer as the measured impact amount, and
A step of measuring the coke strength after separately applying the impact amount of the difference between the reference impact amount and the measured impact amount to the coke collected by the sampler, and
A method for measuring coke strength, which comprises. The step of setting the cumulative impact amount given to the coke as the reference impact amount between the coke oven and the test for the coke strength test, and
In the coke oven to be measured, the step of measuring the cumulative impact amount applied to the coke between the coke oven and the sampler using an accelerometer as the measured impact amount, and
For a plurality of cokes in advance, the coke strength measured after separately applying the impact amount of the difference between the reference impact amount and the measured impact amount to the coke collected by the sampler and the impact of the difference between the coke collected by the sampler. A step to find the correlation between the coke intensity measured without giving a separate amount, and
Based on the coke strength measured without separately giving a difference impact amount to the coke collected by the sampler and the correlation, the coke strength when the coke strength is measured after separately applying the difference impact amount is estimated. Steps to do and
A method for estimating coke intensity, which comprises. The step of setting the cumulative impact amount given to the coke as the reference impact amount between the coke oven and the test for the coke strength test, and
In the coke oven to be measured, the step of measuring the cumulative impact amount applied to the coke between the coke oven and the sampler using an acceleration sensor as the measured impact amount, and
For a plurality of cokes in advance, a step of obtaining the correlation between the cumulative impact amount given to the coke and the coke intensity measured after the cumulative impact amount is given, and
When the coke strength is measured after giving the reference impact amount based on the coke strength measured without giving an additional impact to the coke collected by the sampler, the measured impact amount, and the correlation. Steps to estimate the coke strength of
A method for estimating coke intensity, which comprises. A step of setting a target value of coke strength using the coke strength when the reference impact amount is given as an index, and
A step of manufacturing coke so that the coke strength measured by the coke strength measuring method according to claim 1 is equal to or higher than the target value.
A method for producing coke, which comprises. A step of setting a target value of coke strength using the coke strength when the reference impact amount is given as an index, and
A step of manufacturing coke so that the coke strength estimated by the coke strength estimation method according to claim 2 or 3 is equal to or higher than the target value.
A method for producing coke, which comprises.

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