KR20200011774A - System and method for pressure control of pulverized coal feed hopper - Google Patents

Abstract

A pressure control system for a pulverized coal feed hopper comprises: first and second back pressure control valves controlling a gas flow between a pulverized coal storage hopper and the pulverized coal feed hopper; a pressure control device outputting a pressure control value according to a result obtained by comparing a pressure setting value and a pressure detection value obtained by detecting the pressure of the pulverized coal feed hopper; first and second back-pressure control calculators outputting different opening degree control signals in response to the pressure control values; first and second signal selectors, respectively selecting the opening degree control signals of the first and second back-pressure control valves from among the opening degree control signals output from the first and second back-pressure control calculators; first and second opening degree detectors detecting the opening degree of the first and second back-pressure control valves; a valve abnormality determiner determining the abnormality of the first and second back-pressure control valves by comparing the result detected through the first and second opening-degree detectors with the selected opening-degree control signal for each of the first and second back-pressure control valves; and a switching control device controlling the selection of the first and second signal selectors according to the determination result of the valve abnormality determiner. Even when the abnormality of the back-pressure control valve occurs, the internal pressure of the pulverized coal feed hopper can be stably controlled.

Description

Pressure control system of pulverized coal feed hopper and its method {SYSTEM AND METHOD FOR PRESSURE CONTROL OF PULVERIZED COAL FEED HOPPER}

Embodiments of the present invention relate to a pressure control system and a method of a pulverized coal feed hopper.

Pulverized coal injection facility is a facility which blows pulverized coal into blast furnace.

The pulverized coal produced by crushing coal with a crusher is transported to the bag filter by hot air (exhaust gas), separated from the off-gas, and then stored in the pulverized coal storage hopper under the bag filter. The pulverized coal stored in the pulverized coal storage hopper is filled into a feed hopper below the pulverized coal storage hopper and blown into the blast furnace via a distributor.

In the process of blowing the pulverized coal filled in the pulverized coal feed hopper into the blast furnace, the pulverized coal feed hopper is subjected to a process of controlling the internal pressure such as pressurization and back pressure. The internal pressure of the pulverized coal feed hopper acts as a factor affecting the amount of pulverized coal blown. Therefore, it is necessary to stably control the pressure inside the pulverized coal feed hopper in order to prevent the fluctuation of the pulverized coal quantity injected into the blast furnace and to stabilize the blast furnace operation.

An object of the present invention is to provide a pressure control system and a method of a pulverized coal feed hopper which can stably control the internal pressure of the pulverized coal feed hopper even when an abnormality of the back pressure control valve occurs.

The pressure control system of the pulverized coal feed hopper according to an embodiment of the present invention for solving the above problems, the first and second back pressure control valve for controlling the gas flow between the pulverized coal storage hopper and the pulverized coal feed hopper, the pulverized coal feed hopper A pressure control device for outputting a pressure control value according to a result of comparing the pressure detection value and the pressure setting value for detecting the pressure of the first pressure, and the first and second back pressure control outputting different opening degree control signals in response to the pressure control value. First and second signal selectors for selecting the opening degree control signals of the first and second back pressure control valves from among the opening degree control signals output from the operator and the first and second back pressure control calculators, and the first and second signals. The first and second opening degree detectors for detecting the opening degree of the back pressure control valve, the first and second opening degree detectors, and the first and second back pressure control valves respectively. And the valve abnormality determiner which determines the abnormality of the said 1st and 2nd back pressure control valve by comparing the selected opening degree control signal, and the selection of the said 1st and 2nd signal selector according to the determination result of the said valve abnormality determiner. It may include a switching control device for controlling.

The switching control device, when the first back pressure control valve acts as a main back pressure control valve, the second back pressure control valve acts as a sub back pressure control valve, the opening degree control signal output from the first back pressure control calculator is The first and second signal selectors may be controlled to be output as an opening degree control signal of the first back pressure control valve and to output an opening degree control signal output from the second back pressure control calculator to the opening degree control signal of the second back pressure control valve. Can be.

When the abnormality of the first back pressure control valve is detected by the valve abnormality determiner, the switching control device outputs an opening degree control signal output from the first back pressure control calculator as an opening degree control signal of the second back pressure control valve. The first and second signal selectors may be controlled to output the opening degree control signal output from the second back pressure control calculator as the opening degree control signal of the first back pressure control valve.

The pressure control system further comprises a first back pressure shutoff valve positioned between the first back pressure control valve and the pulverized coal feed hopper, the first back pressure shutoff valve for blocking or allowing gas flow between the pulverized coal storage hopper and the pulverized coal feed hopper, The switching control device can control the first back pressure shutoff valve to the closed state when an abnormality of the first back pressure control valve is detected by the valve abnormality determiner.

The switching control device is, when the first back pressure control valve returns to a normal state while the second back pressure control valve is operated as the main back pressure control valve, the opening degree control signal output from the first back pressure control calculator is the first. The first and second signal selectors may be removed so that the opening degree control signal of the back pressure control valve is output and the opening degree control signal output from the second back pressure control calculator is output as the opening degree control signal of the second back pressure control valve.

The switching control device may open the first back pressure shutoff valve when the first back pressure control valve returns to a normal state while the second back pressure control valve is operated as the main back pressure control valve.

The first back pressure control calculator, when the pressure control value reaches 47%, the corresponding back pressure control valve of the first and second back pressure control valve starts to open, and when the pressure control value reaches 38%, The opening degree of the corresponding back pressure control valve is controlled to 17%, and when the pressure control value reaches 0, the opening degree control signal may be output such that the corresponding back pressure control valve is completely opened.

The second back pressure control calculator, when the pressure control value reaches 15%, the corresponding back pressure control valve of the first and second back pressure control valve starts to open, and when the pressure control value reaches 10%, The opening degree of the corresponding back pressure control valve is controlled to 40%, and when the pressure control value reaches 0, the opening degree control signal may be output such that the corresponding back pressure control valve is completely opened.

The pressure control device may gradually increase the pressure control value when the pressure detection value is smaller than the pressure setting value, and output the pressure control value, and gradually decrease the pressure control value when the pressure detection value is larger than the pressure setting value. You can print

The pressure control system further includes a pressure control valve for controlling the gas compressed by the compressor into the pulverized coal feed hopper, and a pressure control calculator for controlling the opening degree of the pressure control valve based on the pressure control value. can do.

In addition, the pressure control method of the pulverized coal feed hopper of the pressure control system according to an embodiment of the present invention, detecting the pressure in the pulverized coal feed hopper, comparing the pressure detection value and the pressure set value in the pulverized coal feed hopper Calculating first and second opening control signals different from each other, and a first back pressure control valve controlling a gas flow between the pulverized coal feed hopper and the pulverized coal storage hopper based on the first opening control signal. Controlling the opening degree of the second back pressure control valve for controlling a gas flow between the pulverized coal feed hopper and the pulverized coal storage hopper based on the second opening degree control signal, and the first back pressure control valve. The abnormality of the first back pressure control valve is determined based on a result of comparing the opening degree detection value of and the opening degree control signal of the first back pressure control valve. And when the abnormality of the first back pressure control valve is determined, the opening degree of the second back pressure control valve is controlled based on the first opening degree control signal, and the first opening degree is controlled based on the second opening degree control signal. Controlling the opening degree of the back pressure control valve.

When the abnormality of the first back pressure control valve is determined, the pressure control method is located between the first back pressure control valve and the pulverized coal feed hopper to block or allow gas flow between the pulverized coal storage hopper and the pulverized coal feed hopper. The method may further include controlling the first back pressure shutoff valve to the closed state.

In the pressure control method, when the first back pressure control valve returns to a normal state, the opening degree of the first back pressure control valve is controlled based on the first opening degree control signal, and based on the second opening degree control signal, The method may further include controlling the opening degree of the second back pressure control valve.

The pressure control method may further include opening the first back pressure shutoff valve when the first back pressure control valve returns to a normal state.

The calculating of the first and second opening degree control signals may include calculating a pressure control value on the basis of a result of comparing the pressure detection value with the pressure setting value, and corresponding to the pressure control value. And calculating the first and second degree control signals.

The first opening degree control signal may include: when the pressure control value reaches 47%, a corresponding back pressure control valve of the first and second back pressure control valves starts to open, and when the pressure control value reaches 38%, The opening degree of the corresponding back pressure control valve is controlled to 17%, and when the pressure control value reaches zero, the corresponding back pressure control valve can be set to be fully open.

The second opening degree control signal may include: when the pressure control value reaches 15%, a corresponding back pressure control valve of the first and second back pressure control valves starts to open, and when the pressure control value reaches 10%, The opening degree of the corresponding back pressure control valve is controlled to 40%, and when the pressure control value reaches zero, the corresponding back pressure control valve can be set to be fully open.

The calculating of the pressure control value may include incrementally increasing the pressure control value when the pressure detection value is smaller than the pressure setting value, and increasing the pressure control value when the pressure detection value is larger than the pressure setting value. Progressively reducing.

1 schematically shows a pulverized coal injection facility according to an embodiment of the present invention.
2 illustrates an example of opening degree control patterns used for opening degree control of a main back pressure control valve and a sub back pressure control valve in a pressure control system of a pulverized coal feed hopper according to an exemplary embodiment of the present invention.
Figure 3 schematically shows a pressure control method of the pulverized coal feed hopper according to an embodiment of the present invention.
FIG. 4A illustrates a change in the pressure and the pulverized coal injection of the pulverized coal feed hopper in the case of using the pressure control method of the pulverized coal feed hopper according to the prior art as an example.
Figure 4b is a view showing the change in the pressure change and the powdered coal injection amount of the pulverized coal feed hopper in the case of applying the pressure control method of the pulverized coal feed hopper according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

In order to clearly describe the embodiments of the present invention, parts irrelevant to the description are omitted, and like reference numerals designate like elements throughout the specification.

Throughout the specification, when a part is "connected" to another part, it includes not only "directly connected" but also "electrically connected" with another element in between. .

Hereinafter, an apparatus and a method for controlling back pressure of a pulverized coal feed hopper according to an embodiment of the present invention will be described in detail with reference to necessary drawings.

1 schematically shows a pulverized coal injection facility according to an embodiment of the present invention.

Referring to FIG. 1, the pulverized coal blowing facility according to the embodiment of the present invention includes a coal storage hopper 11, a crusher 12, a bag filter 13, and a pulverized coal storage hopper 14. , Fill shutoff valve 15, pulverized coal feed hopper 16, blow shutoff valve 17, pickup device 18, and distributor 19.

The coal loaded in the coal yard is moved to the coal storage hopper 11 through the conveyor belt and stored in the coal storage hopper 11. The coal stored in the coal storage hopper 11 is fed to the crusher 12 by a coal feeder (not shown), and crushed by the crusher 12 to be manufactured into pulverized coal.

The pulverized coal produced by the crusher 12 may be dried by hot air gas (exhaust gas) generated by a hot stove (not shown) and then conveyed to the bag filter 13. The pulverized coal transported to the bag filter 13 is separated from the flue gas and stored in the pulverized coal storage hopper 14 under the bag filter 13.

Then, when the filling process of the pulverized coal feed hopper 16 is started, the filling shutoff valve 15 between the pulverized coal storage hopper 14 and the pulverized coal feed hopper 16 is opened, and the pulverized coal stored in the pulverized coal storage hopper 14 is opened. The lower pulverized coal feed hopper 16 may be filled.

Thereafter, when the filling process of the pulverized coal feed hopper 16 is finished, a pressurization process for increasing the pressure in the pulverized coal feed hopper 16 may be performed to inject the pulverized coal feed. Then, after the pressurization process is completed, after the predetermined time is waited until the blowing order, the blowing process of blowing the pulverized coal of the pulverized coal feed hopper 16 into the blast furnace 5 may proceed.

When the blowing process is started, the blow shutoff valve 17 under the pulverized coal feed hopper 16 is opened, so that the pulverized coal filled in the pulverized coal feed hopper 16 is passed through the pickup device 18 and the distributor 19. It can be blown into the blast furnace 5.

Subsequently, when the blowing process is completed, a back pressure process for discharging the pressurized gas (nitrogen) inside the pulverized coal feed hopper 16 to the outside of the pulverized coal feed hopper 16 is performed, and the pulverized coal feed hopper 16 having the back pressure process completed is The pulverized coal may be refilled for subsequent pulverized coal injection.

As such, the pulverized coal feed hopper 16 receives the pulverized coal stored in the pulverized coal storage hopper 14 and repeatedly passes through the filling-> pressurizing-> atmospheric-> blowing-> back pressure process to blow into the blast furnace 5. do.

Meanwhile, although only one pulverized coal feed hopper 16 is illustrated in FIG. 1, the pulverized coal injection facility may include a plurality of pulverized coal feed hoppers. In addition, the same filling-> pressurization-> atmosphere-> blowing-> backpressure processes as described above for the plurality of pulverized coal feed hoppers may be sequentially performed. The pulverized coal feed hopper blows pulverized coal into the blast furnace 5 in order according to its blowing order, so that the pulverized coal injection to the blast furnace 5 can be continued without interruption.

The pulverized coal blowing facility may include a weight detector 21, a weight indicator 22, and a blow controller 23 to control the above blowing process.

The weight detector 21 may be positioned under the pulverized coal feed hopper 16 to detect the weight of the pulverized coal feed hopper 16. The weight indicator 22 may convert the detection signal received from the weight detector 21 into a weight detection value and then output it to the blowing controller 23. The blowing controller 23 may compare the weight detection value input from the weight indicator 22 with a preset weight setting value (lower weight limit, or upper weight limit), and control the blowing process according to the comparison result. That is, the blowing controller 23 may continuously monitor the weight detection value of the pulverized coal feed hopper 16 during the blowing process, and terminate the blowing process when the weight detection value becomes lower than or equal to the lower weight limit.

The pulverized coal injection facility may include a pressure control system of the pulverized coal feed hopper 16 for controlling the internal pressure of the pulverized coal feed hopper 16 during the above-described pressurization process and back pressure process. The pressure control system of the pulverized coal feed hopper 16 includes a compressor 31, a pressure control valve 32, a pressure control operator 33, first and second back pressure control valves 34 and 35, first and second Two back pressure control valve actuators 36 and 37, first and second back pressure shutoff valves 38 and 39, pressure detector 41, pressure indicator 42, pressure control device 43, main back pressure control calculator 44 ), The sub back pressure control calculator 45, the first and second signal selectors 46 and 47, the first and second opening degree detectors 51 and 52, the valve abnormality detecting device 53, and the switching control device 54. ) May be included.

The compressor 31 may compress the gas (eg, nitrogen) to raise the pressure. The pressure control valve 32 may be positioned between the compressor 31 and the pulverized coal feed hopper 16 to control the inflow of the gas compressed by the compressor 31 into the pulverized coal feed hopper 16. The pressure control calculator 33 is for controlling the operation of the pressure control valve 32, and may control the opening or closing of the pressure control valve 32 according to an input control value. For example, when the pressure control value MV is input from the pressure controller 43b, which will be described later, the pressure control calculator 33 uses the formula (MV-50) × α (where α is a weight) to control the pressure. The opening degree value% of the valve 32 can be calculated, and the opening degree of the pressure control valve 32 can be adjusted according to the calculated opening degree value%.

When the filling process to the pulverized coal feed hopper 16 is finished and the pressurization process is started, the pressurization control valve 32 is opened by the pressure control calculator 33, and the gas compressed by the compressor 31 is pulverized coal feed hopper ( 16) flows into the inside, the internal pressure of the pulverized coal feed hopper 16 is increased by the inflow of compressed gas.

The first and second back pressure control valves 34 and 35 are located on different pipes connecting the inside of the pulverized coal storage hopper 14 and the inside of the pulverized coal feed hopper 16, and the pulverized coal storage hopper 14 and the pulverized coal. Gas flow between the feed hoppers 16 can be regulated. The first and second back pressure control valve actuators 36 and 37 are for operating the first and second back pressure shutoff valves 38 and 39, respectively. The opening and closing of the 38 and 39 can be controlled, respectively.

The first and second back pressure shutoff valves 38 and 39 are located on the pipe where the first and second back pressure control valves 34 and 35 are located, respectively, and the pulverized coal storage hopper 14 and the pulverized coal feed hopper 16 are provided. It can block or allow gas flow between.

When the blowing process of the pulverized coal feed hopper 16 is finished and the back pressure process is started, the first and second back pressure control valves 34 and 35 and the first and second back pressure shutoff valves 38 and 39 are opened. Thus, the pressurized gas inside the pulverized coal feed hopper 16 may be discharged to the pulverized coal storage hopper 14.

On the other hand, the pressure control system of the pulverized coal feed hopper 16 may continuously perform pressure control for stabilizing the pressure in the pulverized coal feed hopper 16 after the pressurization process is started until the back pressure process is completed.

To this end, the pressure detector 41 may continuously detect the internal pressure of the pulverized coal feed hopper 16 and output a detection signal. The pressure detection signal output by the pressure detector 41 may be converted into the pressure detection value PV by the pressure indicator 42 and input to the pressure control device 43.

The pressure controller 43 compares the preset pressure set value SV with the pressure detection value PV of the pulverized coal feed hopper 16, and controls the pressure for controlling the pressure of the pulverized coal feed hopper 16 according to the comparison result. The value MV can be output. To this end, the pressure control device 43 may include a pressure setter 43a, a pressure controller 43b, and a signal distributor 43c.

The pressure setter 43a can set a pressure set value SV which is a reference for the internal pressure control of the pulverized coal feed hopper 16. The pressure setter 43a can set the pressure set value SV based on the weight set value which is a reference for controlling the blowing process in the blown controller 23.

The pressure controller 43b compares the pressure detection value PV input through the pressure indicator 42 with the pressure setting value SV set by the pressure setter 43a, and according to the comparison result, the pulverized coal feed hopper ( It is possible to output the pressure control value (MV) for the pressure control of 16). For example, the pressure controller 43b gradually increases the pressure control value MV so that when the pressure detection value PV becomes smaller than the pressure set value SV, the internal pressure of the pulverized coal feed hopper 16 gradually increases. The output can be increased (eg, gradually increased from 0% to 100%). Further, for example, the pressure controller 43b gradually increases the pressure control value MV so that the internal pressure of the pulverized coal feed hopper 16 gradually decreases when the pressure detection value PV becomes larger than the pressure set value SV. Can be reduced (eg, gradually reduced from 100% to 0%) and output.

The signal distributor 43c may divide and output the pressure control value MV output from the pressure controller 43b to the pressure control calculator 33, the main back pressure control calculator 44, and the sub back pressure control calculator 45. have.

When the pressure control value MV is input from the pressure controller 43b, the main back pressure control calculator 44 and the sub back pressure control calculator 45 use the first back pressure control valve 34 or the other back control pattern. The opening degree control signals ⓐ, ⓑ, ⓒ, ⓓ for opening degree control of the second back pressure control valve 35 may be output. The opening degree control patterns of the back pressure control calculators 44 and 45 use the pressure control value MV input from the pressure controller 43b as an input value, and the opening degree control signals ⓐ, ⓑ, ⓒ, ⓓ corresponding thereto. Can be output as an output value.

FIG. 2 illustrates the opening degree control patterns 101 and 102 used in the main back pressure control calculator 44 and the sub back pressure control calculator 45 as an example. In addition, Table 1 below shows examples of the opening degree control signal output from the main back pressure control operator 44 and the sub back pressure control operator 45 when the opening degree control patterns of FIG. 2 are used.

Table 1. Example of opening control signal according to pressure control value

2 and Table 1, the opening degree control pattern 101 of the main back pressure control calculator 44 starts to open the corresponding back pressure control valve when the pressure control value MV is 47%, and the pressure control value ( When the MV) is 38%, the opening degree of the corresponding back pressure control valve is controlled to 17%. When the pressure control value (MV) is 0, the opening degree control signal can be output so that the corresponding back pressure control valve is completely open. have.

On the other hand, the opening degree control pattern 102 of the sub back pressure control calculator 44 starts to open the corresponding back pressure control valve when the pressure control value MV is 15%, and the pressure control value MV is 10%. In this case, the opening degree of the corresponding back pressure control valve is controlled at 40%, and when the pressure control value MV is 0, the opening degree control signal can be output so that the corresponding back pressure control valve is completely opened.

2 and Table 1, the opening degree control pattern 102 of the sub back pressure control calculator 44 operates to start opening the corresponding back pressure control valve at a relatively low pressure control value MV. Thus, the opening control pattern 102 of the sub back pressure control operator 44 is not used to finely control the pressure inside the pulverized coal feed hopper 16, but rather quickly opens the corresponding back pressure control valve for fast back pressure in the back pressure process. Can be used to Accordingly, fine pressure control of the pulverized coal feed hopper 16 may be mainly performed by the opening degree control pattern 101 of the main back pressure control calculator 44.

Referring again to FIG. 1, the first and second signal selectors 46, 47 respectively open the opening control signals ⓐ, ⓑ, ⓒ, ⓓ from the main back pressure control calculator 44 and the sub back pressure control calculator 45. ), And selects one of these control signals based on the switching control signals ① and ② input from the switching control device 54 to be described later, and outputs it to the corresponding back pressure control valve actuators 36 and 37. can do. That is, the first and second signal selectors 46 and 47 are used as back pressure control valve actuators 36 and 37 of the back pressure control valve selected as the main back pressure control valve among the first and second back pressure control valves 34 and 35. The opening degree output from the main back pressure control calculator 44 can also transmit a control signal. In addition, the back pressure control valve actuators 36 and 37 of the back pressure control valve selected from the first and second back pressure control valves 34 and 35 as the sub back pressure control valve are configured to output an opening degree control signal output from the sub back pressure control calculator 45. I can deliver it.

The first and second opening degree detectors 51 and 52 detect the opening degrees of the first and second back pressure control valves 34 and 35, respectively, and output the opening degree detection signal to the valve abnormality detection device 53 described later. Can be.

The valve abnormality detecting device 53 receives the opening degree detection signals of the first and second back pressure control valves 34 and 35 from the first and second opening degree detectors 51 and 52, respectively, and the first and second back pressures are also received. The abnormality of the first and second back pressure control valves 34 and 35 can be detected in comparison with the opening degree control signal input to each of the control valves 34 and 35. To this end, the valve abnormality detecting apparatus 53 may include first and second opening degree indicators 53a and 53b and first and second valve abnormality determiners 53c and 53d.

The first and second opening degree indicators 53a and 53b receive the opening degree detection signals of the first and second back pressure control valves 34 and 35 from the first and second opening degree detectors 51 and 52, respectively. It can transmit to 1st and 2nd valve abnormality determiner 53c, 53d, respectively.

The first and second valve abnormality determiners 53c and 53d receive the opening degree detection signal and the opening degree control signal of the first and second back pressure control valves 34 and 35, respectively, and compare the first and second valve abnormality control signals. The abnormality determination signal of the back pressure control valves 34 and 35 can be output. The first valve abnormality determiner 53c compares the opening degree detection signal and the opening degree control signal of the first back pressure control valve 34, and when the opening degree values corresponding to the two signals differ by more than a predetermined value from each other, the first back pressure It can be determined that an abnormality has occurred in the control valve 34. Further, the second valve abnormality determiner 53d compares the opening degree detection signal and the opening degree control signal of the second back pressure control valve 35, and if the opening degree values corresponding to the two signals differ by more than a predetermined value from each other, the second valve abnormality is determined. It can be determined that an abnormality has occurred in the back pressure control valve 35.

The switching control device 54 receives the abnormality determination signals of the first and second back pressure control valves 34 and 35 from the valve abnormality detection device 53, and based on this, the first and second signal selectors 46 and 47. Control the signal selection and control the first back pressure shut-off valve 38 or the second back pressure shut-off valve 39. To this end, the switching control device 54 may include a first signal controller 54a, a second signal controller 54b, and a switching controller 54c.

The first signal controller 54a controls the signal selection of the first and second signal selectors 46 and 47 when the first back pressure control valve 34 is selected as the main back pressure control valve and operates the second back pressure shut-off valve. A function of controlling 39 can be performed. The first signal controller 54a includes a main back pressure control calculator (1) among the opening degree control signals (ⓐ, ⓓ) from which the first signal selector 46 is received from the main back pressure control calculator 44 and the sub back pressure control calculator 45. The opening degree control signal ⓐ received from 44 may be selected and controlled to be output to the first back pressure control valve actuator 36. In addition, the first signal controller 54a controls the sub-back pressure of the opening degree control signals ⓑ and ⓒ from which the second signal selector 47 is received from the main back pressure control calculator 44 and the sub back pressure control calculator 45. The opening degree control signal ⓑ received from the calculator 45 may be selected and controlled to be output to the second back pressure control valve actuator 37. When the abnormality of the second back pressure control valve 35 occurs, the first signal controller 54a determines that operation as the back pressure control valve of the second back pressure control valve 35 is difficult, so that the second back pressure shut-off valve 39 You can also control it to close.

The second signal controller 54b controls the signal selection of the first and second signal selectors 46 and 47 when the second back pressure control valve 35 is selected as the main back pressure control valve, and operates the first back pressure shut-off valve. A function of controlling 38 can be performed. The second signal controller 54b is a sub-back pressure control calculator (1) of the opening degree control signals (ⓐ, ⓓ) from which the first signal selector 46 is received from the main back pressure control calculator 44 and the sub back pressure control calculator 45. 45 may be controlled to select the opening degree control signal ⓓ to be output to the first back pressure control valve actuator 36. In addition, the second signal controller 54b controls the main back pressure control of the opening degree control signals ⓑ and ⓒ from which the second signal selector 47 is received from the main back pressure control calculator 44 and the sub back pressure control calculator 45. The opening degree control signal ⓒ received from the calculator 44 may be selected and controlled to be output to the second back pressure control valve actuator 37. When the abnormality of the first back pressure control valve 34 occurs, the second signal controller 54b determines that operation as the back pressure control valve of the first back pressure control valve 34 is difficult, so that the first back pressure shut-off valve 38 You can also control it to close.

When the back pressure is required, an abnormality occurs in the first back pressure control valve 34 operating as the main back pressure control valve, and only by operating the second back pressure control valve 34 operating as the sub back pressure control valve, When the pressure control is performed, the back pressure may not be achieved until the pressure control value MV is reduced to 15% instead of 47%. Since the pressure control value MV is controlled to decrease gradually, it may take a long time until the pressure control value MV decreases from 47% to 15%. Normal pressure control is not possible during this time due to the abnormality of the first back pressure control valve 34, which causes a rapid increase in the pressure in the pulverized coal feed hopper 16, thereby feeding pulverized coal and nitrogen in the pulverized coal feed hopper 16. A facility accident that may be ejected out of the hopper 16 may occur.

Accordingly, the switching controller 54c receives the abnormality determination signal of each of the back pressure control valves 34 and 35 from the valve abnormality detecting device 53 and based on this, one of the first and second signal controllers 54a and 54b. Can be turned ON.

When both the first and second back pressure control valves 34 and 35 are normal, the first back pressure control valve 34 may be selected as the main back pressure control valve for pressure control of the pulverized coal feed hopper 16. Accordingly, the switching controller 54c turns on the first signal controller 54a by the first signal controller 54a when the first and second back pressure control valves 34 and 35 are in normal operation. The two signal selectors 46 and 47 can be controlled.

In addition, the switching controller 54c may turn on the second signal controller 54b to cause the second back pressure control valve 35 to operate as the main back pressure control valve when an abnormality occurs in the first back pressure control valve 34. . Then, when the first back pressure control valve 34 is replaced or repaired with a regular product and returns to a normal state, the switching controller 54c may generate a first signal such that the first back pressure control valve 34 operates as the main back pressure control valve. The controller 54a can be turned on.

The switching controller 54c may operate in the automatic switching mode or the manual switching mode. The switching controller 54c automatically operates the first and second signal controllers based on the abnormality determination signals of the respective back pressure control valves 34 and 35 received from the valve abnormality detecting apparatus 53 when operating in the automatic switching mode. One of (54a, 54b) can be turned ON. On the other hand, when operating in the manual switching mode, the switching controller 54c receives the abnormality determination signals of the respective back pressure control valves 34 and 35 from the valve abnormality detecting device 53, and based on this, the back pressure control valve ( 34 or 35) can be displayed on the operation screen. When the operator who checks the abnormality of each of the back pressure control valves 34 and 35 from the operation screen requests the switching of the main back pressure control valve using an input device (not shown), the back pressure control currently operating as the main back pressure control valve is performed. The first and second signal controllers 54a and 54b may be controlled such that the valve operates as the sub back pressure control valve and the back pressure control valve currently operating as the sub back pressure control valve operates as the main back pressure control valve.

On the other hand, when the switching controller 54c operates in the manual switching mode, the first and second signal controllers 54a and 54b are alternated at the request of the operator regardless of the abnormal detection results of the respective back pressure control valves 34 and 35. You can also turn it on. Thus, instead of continuously using one of the back pressure control valves as the main back pressure control valve, when the first and second back pressure control valves 34 and 35 are alternately used as the main back pressure control valve, the life of each back pressure control valve Can improve.

According to the embodiment of the present invention, when an abnormality occurs in one back pressure control valve as described above, the back pressure control is performed using only the remaining back pressure control valve until the back pressure control valve in which the error occurs is replaced or repaired. Accordingly, in the embodiment of the present invention, the hole diameters of the first and second back pressure control valves 34 and 35 may be formed to be 80A (about 80 mm).

Figure 3 schematically shows a method for controlling the pressure of the pulverized coal feed hopper in the pulverized coal injection facility according to an embodiment of the present invention. The pressure control method of FIG. 3 may be performed by the pressure control system of the pulverized coal feed hopper described with reference to FIGS. 1 and 2.

Referring to FIG. 3, the pressure control system of the pulverized coal feed hopper 16 according to the embodiment of the present disclosure starts the pressure control of the pulverized coal feed hopper 16 as the pressurization process of the pulverized coal feed hopper 16 is started. (S11).

As pressure control is initiated, the pressure control system continuously detects the internal pressure of the pulverized coal feed hopper 16 via the pressure detector 41, and based on the first and second back pressure control valves 34, 35, The internal pressure of the pulverized coal feed hopper 16 is controlled by controlling the opening degree of the pressure control valve 32 (S12).

In the step S12, the pressure control system may continuously obtain the pressure detection value PV of the pulverized coal feed hopper 16 through the pressure detector 41. Then, the pressure control device 43 outputs a pressure control value MV for controlling the pressure of the pulverized coal feed hopper 16 according to the comparison result between the pressure detection value PV and the pressure set value SV. Can be. For example, the pressure control device 43 gradually increases the pressure control value MV so that when the pressure detection value PV becomes smaller than the pressure set value SV, the internal pressure of the pulverized coal feed hopper 16 gradually increases. To increase the output (for example, gradually increasing from 0% to 100%). Further, for example, the pressure control device 43 adjusts the pressure control value MV so that the internal pressure of the pulverized coal feed hopper 16 gradually decreases when the pressure detection value PV becomes larger than the pressure set value SV. Can be gradually reduced (e.g., gradually reduced from 100% to 0%)

In the step S12, the pressure control operator 33 of the pressure control system substitutes the pressure control value MV into the formula (MV-50) × α (where α is the weight), thereby reducing the pressure control valve 32. The opening degree of the pressure control valve 32 may be adjusted by calculating the opening degree value% and outputting a corresponding opening degree control signal to the pressure control valve 32. According to this, the pressure control valve 32 may be opened when the pressure control value MV is 50% or more, and may be controlled so that the opening degree increases as the pressure control value MV increases.

When pressure control is started, by default the first back pressure control valve 34 is selected to act as the main back pressure control valve and the second back pressure control valve 35 is selected to act as the sub back pressure control valve. Accordingly, in the step S12, the first back pressure control valve 34 is controlled in accordance with the main opening degree control signal calculated by the main back pressure control calculator 44, the second back pressure control valve 35 is the sub back pressure control The opening degree can be controlled according to the sub-opening degree control signal calculated by the calculator 44. Here, the main back pressure control calculator 44 starts to open the corresponding back pressure control valve when the input pressure control value MV is 47%, and when the pressure control value MV is 38%, the corresponding back pressure control valve. The opening degree of is controlled to 17%, and when the pressure control value (MV) is 0, the opening degree control signal may be output so that the corresponding back pressure control valve is controlled to be fully open. In addition, the sub back pressure control calculator 44 When the input pressure control value (MV) is 15%, the corresponding back pressure control valve starts to open.When the pressure control value (MV) is 10%, the opening degree of the corresponding back pressure control valve is controlled to 40%. When the control value MV is 0, the opening degree control signal may be output so that the corresponding back pressure control valve is controlled in a completely open state.

The pressure control system continuously monitors the occurrence of an abnormality of the first back pressure control valve 34, which is the main back pressure control valve, during the pressure control through the valve abnormality detection device 53 (S13). When the abnormality of the first back pressure control valve 34 is sensed and the switching control device 54 is operating in the automatic switching mode (S14), the second back pressure control valve 35 is automatically performed through the switching control device 54. ) Is selected as the main back pressure control valve (S17).

On the other hand, when the switching control device 54 is operating in the manual switching mode (S14), the abnormal state of the first back pressure control valve is displayed on the operation screen via the switching control device 54 (S15), Wait for reception of the switching request (S16). When a switch request of the main back pressure control valve is received from the operator through an input device (not shown), the second back pressure control valve 35 is selected as the main back pressure control valve through the switching control device 54 (S17). .

At this time, since the normal operation of the first back pressure control valve 34 is impossible, the first back pressure shut-off valve 38 is controlled in a completely closed state (S18).

Even after the main back pressure control valve is changed to the second back pressure control valve 35, the pressure control system, through the pressure control device 43, depends on the internal pressure of the pulverized coal feed hopper 16 and the first and second back pressure control valves 34. 35 and pressure control to control the opening degree of the pressure control valve 32 are continued (S19). However, in the step S19, since the second back pressure control valve 35 is the main back pressure control valve, the second back pressure control valve 35 is opened according to the main opening degree control signal calculated by the main back pressure control calculator 44. The first back pressure control valve 34 may be controlled and the opening degree may be controlled according to the sub-opening degree control signal calculated by the sub back pressure control calculator 44.

Subsequently, when the first back pressure control valve 34 operates normally due to repair or replacement of the first back pressure control valve 34 (S20), the pressure control system controls the first back pressure control valve through the switching control device 54. Reselect 34 as the main back pressure control valve (S21). Then, since the first back pressure control valve 34 operates normally, the first back pressure shutoff valve 38 is controlled to be opened again (S22).

Thereafter, the pressure control system controls the first and second back pressures according to the internal pressure of the pulverized coal feed hopper 16 through the pressure control device 43 while operating the first back pressure control valve 34 as the main back pressure control valve. Pressure control for controlling the opening degree of the valves 34 and 35 and the pressure control valve 32 is continued (S23).

Since the first back pressure control valve 34 operates as the main back pressure control valve, in step S23, the first back pressure control valve 34 opens according to the main opening degree control signal calculated by the main back pressure control calculator 44. The second back pressure control valve 35 may be controlled, and the opening degree may be controlled according to the sub-opening degree control signal calculated by the sub back pressure control calculator 44.

Hereinafter, with reference to Figure 4 will be described the effect of the pressure control method of the pulverized coal feed hopper according to an embodiment of the present invention.

FIG. 4A illustrates a change in the pressure of the pulverized coal feed hopper and the change in the amount of pulverized coal blown in the case of using the pressure control method of the pulverized coal feed hopper according to the prior art, and FIG. The pressure change and the pulverized coal injection amount change of the pulverized coal feed hopper in the case of applying the pressure control method of FIG.

Referring to FIG. 4A, when the pressure control of the pulverized coal feed hopper 16 using the main back pressure control valve is continued in a state in which an abnormality occurs in the main back pressure control valve as in the related art, the actual point is based on the time 213 at which the abnormality occurs. The pressure detection value 212 that detects the pressure of the pulverized coal feed hopper is significantly lower than the pressure set value 211 of the pulverized coal feed hopper. Accordingly, the pulverized coal injection amount 222 blown into the blast furnace 5 from the pulverized coal feed hopper 16 also occurs, which is significantly lower than the injection amount set value 221 starting at the time point 223 at which an abnormality occurs.

On the other hand, referring to Figure 4b, in the pressure control method of the pulverized coal feed hopper according to an embodiment of the present invention, even if an error occurs in the valve currently operating as the main back pressure control valve, the remaining main back pressure control valve is the main back pressure control valve By switching to, the pressure detection value 212 of the pulverized coal feed hopper 16 is stably following the pressure setting value 211 even when an abnormality occurs in the main back pressure control valve 233. In addition, even if abnormality 243 occurs in the pulverized coal injection amount 242 blown into the blast furnace 5 from the pulverized coal feed hopper 16, the blowing amount set value 221 is stably followed.

As described above, the pressure control system and method of the pulverized coal feed hopper according to the embodiment of the present invention, even if an abnormality occurs in the main back pressure control valve for the internal pressure control of the pulverized coal feed hopper 16, By controlling the pressure stably, it is possible to prevent facility accidents, and furthermore, it is possible to control the pulverized coal injection to stabilize the blast furnace operation.

Pressure control method of the pulverized coal feed hopper according to an embodiment of the present invention can be executed through software. When implemented in software, the constituent means of the present invention are code segments that perform the necessary work. The program or code segments may be stored on a computer readable recording medium.

Computer-readable recording media include all types of recording devices that store data that can be read by a computer system. Examples of the computer-readable recording device include ROM, RAM, CD-ROM, DVD_ROM, DVD_RAM, magnetic tape, floppy disk, hard disk, optical data storage device, and the like. The computer readable recording medium can also be distributed over network coupled computer devices so that the computer readable code is stored and executed in a distributed fashion.

DETAILED DESCRIPTION OF THE INVENTION The detailed description of the invention and the drawings so far referred to are merely illustrative of the invention, which is used only for the purpose of illustrating the invention and is intended to limit the scope of the invention as defined in the meaning or claims. It is not. Therefore, one of ordinary skill in the art can easily select and replace therefrom. Those skilled in the art can also omit some of the components described herein without adding performance degradation or add components to improve performance. In addition, those skilled in the art may change the order of the method steps described herein according to the process environment or equipment. Therefore, the scope of the present invention should be determined not by the embodiments described, but by the claims and their equivalents.

5: blast furnace 11: coal storage hopper
12: shredder 13: bag filter
14: Pulverized coal storage hopper 15: Filling shutoff valve
16: pulverized coal feed hopper 17: blow-off valve
18: pickup device 19: dispenser
21: weight detector 22: weight indicator
23: blow controller 31: compressor
32: pressure control valve 33: pressure control calculator
34, 35: back pressure control valve 36, 37: back pressure control valve actuator
38, 39: back pressure shutoff valve 41: pressure detector
42: pressure indicator 43: pressure control device
43a: pressure regulator 43b: pressure controller
43c: signal divider 44, 45: back pressure control calculator
46, 47: signal selector 51, 52: opening degree detector
53: valve abnormality detection apparatus 53a, 53b: opening degree indicator
53c, 53d: Valve abnormality determiner 54: Switching control apparatus
54a, 54b: signal controller 54c: switching controller

Claims (18)

In the pressure control system of pulverized coal feed hopper,
First and second back pressure control valves for controlling gas flow between the pulverized coal storage hopper and the pulverized coal feed hopper,
A pressure control device for outputting a pressure control value according to a result of comparing the pressure detection value detecting the pressure of the pulverized coal feed hopper and the pressure setting value;
First and second back pressure control calculators which output different opening degree control signals in response to the pressure control value,
First and second signal selectors for respectively selecting the opening degree control signals of the first and second back pressure control valves from the opening degree control signals output from the first and second back pressure control calculators;
First and second opening degree detectors for detecting the opening degrees of the first and second back pressure control valves,
A valve abnormality determiner for determining an abnormality of the first and second back pressure control valves by comparing the results detected through the first and second opening degree detectors with the selected opening control signals for each of the first and second back pressure control valves. , And
And a switching control device that controls the selection of the first and second signal selectors in accordance with the determination result of the valve abnormality determiner. The method of claim 1,
The switching control device, when the first back pressure control valve acts as a main back pressure control valve, the second back pressure control valve acts as a sub back pressure control valve, the opening degree control signal output from the first back pressure control calculator is Controlling the first and second signal selectors to output the opening degree control signal of the first back pressure control valve and to output the opening degree control signal output from the second back pressure control calculator as the opening degree control signal of the second back pressure control valve. Pressure control system. The method of claim 2,
When the abnormality of the first back pressure control valve is detected by the valve abnormality determiner, the switching control device outputs an opening degree control signal output from the first back pressure control calculator as an opening degree control signal of the second back pressure control valve. And controlling the first and second signal selectors such that the opening degree control signal output from the second back pressure control calculator is output as the opening degree control signal of the first back pressure control valve. The method of claim 3,
A first back pressure shutoff valve positioned between the first back pressure control valve and the pulverized coal feed hopper, the first back pressure shutoff valve configured to block or allow a gas flow between the pulverized coal storage hopper and the pulverized coal feed hopper,
And the switching control device controls the first back pressure shut-off valve to the closed state when an abnormality of the first back pressure control valve is detected by the valve abnormality determiner. The method of claim 4, wherein
The switching control device is, when the first back pressure control valve returns to a normal state while the second back pressure control valve is operated as the main back pressure control valve, the opening degree control signal output from the first back pressure control calculator is the first. Pressure control for controlling the first and second signal selectors so that the opening degree control signal of the back pressure control valve is output, and the opening degree control signal output from the second back pressure control calculator is output as the opening degree control signal of the second back pressure control valve. system. The method of claim 5,
And the switching control device opens the first back pressure shutoff valve when the first back pressure control valve returns to a normal state while the second back pressure control valve is operated as the main back pressure control valve. The method of claim 1,
The first back pressure control calculator, when the pressure control value reaches 47%, the corresponding back pressure control valve of the first and second back pressure control valve starts to open, and when the pressure control value reaches 38%, And an opening degree of the corresponding back pressure control valve is controlled at 17%, and outputs an opening degree control signal to open the corresponding back pressure control valve completely when the pressure control value reaches zero. The method of claim 1,
The second back pressure control calculator, when the pressure control value reaches 15%, the corresponding back pressure control valve of the first and second back pressure control valve starts to open, and when the pressure control value reaches 10%, And the opening degree of the corresponding back pressure control valve is controlled at 40%, and outputs an opening degree control signal to open the corresponding back pressure control valve completely when the pressure control value reaches zero. The method of claim 1,
The pressure control device may gradually increase the pressure control value when the pressure detection value is smaller than the pressure setting value, and output the pressure control value, and gradually decrease the pressure control value when the pressure detection value is larger than the pressure setting value. Output pressure control system. The method of claim 1,
A pressure control valve for controlling the gas compressed by the compressor into the pulverized coal feed hopper, and
And a pressure control calculator that controls the opening degree of the pressure control valve based on the pressure control value. In the pressure control method of the pulverized coal feed hopper of the pressure control system,
Detecting a pressure inside the pulverized coal feed hopper,
Calculating different first and second opening degree control signals based on a result of comparing the pressure detection value and the pressure setting value inside the pulverized coal feed hopper,
Controlling an opening degree of a first back pressure control valve for controlling a gas flow between the pulverized coal feed hopper and the pulverized coal storage hopper based on the first opening degree control signal,
Controlling an opening degree of a second back pressure control valve that controls a gas flow between the pulverized coal feed hopper and the pulverized coal storage hopper based on the second opening degree control signal,
Determining an abnormality of the first back pressure control valve based on a result of comparing the opening degree detection value of the first back pressure control valve and the opening degree control signal of the first back pressure control valve; and
When the abnormality of the first back pressure control valve is determined, the opening degree of the second back pressure control valve is controlled based on the first opening degree control signal, and the opening degree of the first back pressure control valve is based on the second opening degree control signal. Pressure control method comprising the step of controlling. The method of claim 11,
When the abnormality of the first back pressure control valve is determined, a first back pressure shut-off valve positioned between the first back pressure control valve and the pulverized coal feed hopper to block or allow gas flow between the pulverized coal storage hopper and the pulverized coal feed hopper. Pressure control method further comprising the step of controlling the closed state. The method of claim 12,
When the first back pressure control valve returns to a normal state, the opening degree of the first back pressure control valve is controlled based on the first opening degree control signal, and the second back pressure control valve is opened based on the second opening degree control signal. Pressure control method further comprising the step of controlling the opening degree. The method of claim 13,
And when the first back pressure control valve returns to a normal state, opening the first back pressure shutoff valve. The method of claim 11,
The calculating of the first and second opening degree control signals may include:
Calculating a pressure control value based on a result of comparing the pressure detection value with the pressure setting value, and
And calculating the first and second opening degree control signals in response to the pressure control value. The method of claim 15,
The first opening degree control signal may include: when the pressure control value reaches 47%, a corresponding back pressure control valve of the first and second back pressure control valves starts to open, and when the pressure control value reaches 38%, And the opening degree of the corresponding back pressure control valve is controlled to 17%, and when the pressure control value reaches 0%, the corresponding back pressure control valve is set to open completely. The method of claim 15,
The second opening degree control signal may include: when the pressure control value reaches 15%, a corresponding back pressure control valve of the first and second back pressure control valves starts to open, and when the pressure control value reaches 10%, And the opening degree of the corresponding back pressure control valve is controlled to 40%, and when the pressure control value reaches 0%, the corresponding back pressure control valve is set to open completely. The method of claim 15,
Computing the pressure control value,
Gradually increasing the pressure control value when the pressure detection value is smaller than the pressure setting value, and
And gradually decreasing the pressure control value when the pressure detection value is greater than the pressure set value.

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