KR101149098B1 - Apparatus and method for recovering sensible heat from slag - Google Patents

Abstract

The present invention relates to an apparatus and method for recovering sensible heat of slag, comprising a plurality of temperature measuring sensors for measuring the sensible heat temperature of slag, wherein the plurality of temperature measuring sensors are disposed in a plurality of divided regions in the slag pit. Comparing the temperature measurement results from the first temperature measuring unit and the plurality of temperature measuring sensors, the drive signal to heat exchange using the sensible heat of the slag in the region of the high temperature where the temperature measurement result is the highest among the divided regions in the slag pit. And a motor driver for driving the motor in accordance with a drive signal from the controller to move the heat exchanger to a high temperature region. According to the present invention, it is easy to move the position of the heat exchanger that recovers the sensible heat of the slag, thereby moving the position of the heat exchanger to a region where the temperature of the slag is high and recovering the sensible heat, thereby increasing the sensible heat recovery efficiency. There is this.

Description

Apparatus and method for recovering sensible heat from slag}

The present invention relates to an apparatus and a method for recovering sensible heat of slag. In particular, when a high temperature slag is deposited on the slag pit, the heat exchanger is moved to a region having a high temperature by the slag of the slag pit, and the sensible heat of the slag is recovered in the region. The present invention relates to an apparatus and a method for recovering sensible heat of slag.

Blast furnace slag and steel slag generated in steel mills are useful sources of energy with sensible heat at high temperatures (above 700 ° C), but in general, these slags are left in the air or cooled with cooling water, followed by cement granules, reducing agents or It is used as a resource for civil engineering aggregates.

SUMMARY OF THE INVENTION An object of the present invention is to provide an apparatus and method for recovering sensible heat of slag which is easy to move a position of a heat exchanger for recovering sensible heat of slag.

In addition, another object of the present invention, the sensible heat recovery device of the slag to increase the sensible heat recovery efficiency by recovering the sensible heat by moving the position of the heat exchanger to a region where the temperature of the slag is high as the position of the heat exchanger is easy to move and In providing a method.

In order to achieve the above object, the apparatus for recovering sensible heat of slag includes a plurality of temperature measuring sensors for measuring the sensible heat temperature of the slag, and the plurality of temperature measuring sensors are divided into a plurality of slag pit. Comparing the temperature measurement results from the plurality of temperature measurement sensors with each of the first temperature measurement units disposed in the areas, and the slag in the high temperature region where the temperature measurement result is the highest among the divided regions in the slag pit. And a control unit for outputting a driving signal to heat exchange using sensible heat, and a motor driving unit for driving the motor according to the driving signal from the control unit to move the heat exchanger to the high temperature region.

At this time, the controller is characterized in that for outputting the drive signal when the temperature measurement result measured in the high temperature region is more than the reference temperature.

The control unit monitors the temperature measurement results from the temperature measuring sensors of the first temperature measuring unit in a predetermined time unit, and when the position of the high temperature region is changed as a result of the comparison of the temperature measurement results, the heat exchange is performed in the region of the changed position. And outputting a driving signal as much as possible.

On the other hand, in the slag sensible heat recovery apparatus according to the present invention, when the heat exchanger moves to the high temperature region, the fan drive unit for driving the suction fan in accordance with the drive signal, the air is sucked into the heat exchanger in the high temperature region. It characterized in that it further comprises.

The slag sensible heat recovery apparatus according to the present invention, when the heat exchanger is moved to the high temperature region, the pump to drive the cooling water pump according to the drive signal, so that the water supply to the water supply pipe disposed in the heat exchanger in the water supply station. It further comprises a drive unit.

In addition, the sensible heat recovery device of the slag according to the invention is characterized in that it further comprises a second temperature measuring unit having a temperature measuring sensor for measuring the temperature of the water supply discharged from the heat exchanger.

The controller may determine whether the temperature measurement result of the water supply is within a preset temperature range, and determine the degree of opening of the flow regulating valve according to the result.

The control unit may output a flow rate control signal for adjusting a flow rate of water supplied into the heat exchanger based on a temperature measurement result of the second temperature measurement unit.

At this time, the sensible heat recovery device of the slag according to the present invention is characterized in that it further comprises a flow control unit for controlling the opening degree of the flow control valve based on the flow control signal from the control unit.

On the other hand, the method for recovering the sensible heat of the slag according to the present invention for achieving the above object, the step of receiving a temperature measurement results from a plurality of temperature measuring sensors each disposed in a plurality of divided areas in the slag pit (pit), Comparing the temperature measurement results from a plurality of temperature measuring sensors, the comparison result of the comparing step, using the sensible heat of the slag in the region of the high temperature where the temperature measurement result is the highest among the divided areas in the slag pit (pit) Outputting a driving signal to exchange heat, and driving the motor according to the driving signal to move the heat exchanger to the high temperature region.

The outputting of the driving signal may include outputting the driving signal when the temperature measurement result measured in the high temperature region is equal to or higher than a reference temperature.

On the other hand, in the method for recovering the sensible heat of slag according to the present invention, after the moving step, driving the suction fan so that the heated air is sucked in the high temperature region by the heat exchanger according to the drive signal, and the drive signal And driving the coolant pump to supply the coolant to the water supply pipe disposed in the heat exchanger.

In addition, the method for recovering the sensible heat of the slag according to the invention, characterized in that it further comprises the step of measuring the temperature of the water supply discharged from the heat exchanger.

In addition, the method for recovering the sensible heat of the slag according to the present invention, further comprising the step of determining whether the temperature measurement result of the water supply is within a predetermined temperature range, and determines the degree of opening of the flow control valve according to the result. It is done.

In addition, the method for recovering the sensible heat of the slag according to the present invention, the step of outputting a flow rate adjustment signal for adjusting the flow rate of water supplied into the heat exchanger based on the temperature measurement result of the water supply, and the flow rate based on the flow rate adjustment signal And controlling the opening degree of the control valve.

In this case, the comparing may be performed in units of a predetermined time, and the outputting of the driving signal may include outputting a driving signal to exchange heat in the region of the changed position when the position of the region of high temperature is changed as a result of the comparison of the temperature measurement results. It is characterized by.

According to the present invention, it is easy to move the position of the heat exchanger that recovers the sensible heat of the slag, thereby moving the position of the heat exchanger to a region where the temperature of the slag is high and recovering the sensible heat, thereby increasing the sensible heat recovery efficiency. There is this.

In addition, according to the present invention, by recovering the sensible heat and use for heat exchange, there is an effect of reducing the energy cost for obtaining hot water or steam.

1 is an overall configuration diagram referred to for explaining the operation of the sensible heat recovery device of the slag according to the present invention.
2 is a partial configuration diagram referred to for explaining the operation of the sensible heat recovery device of the slag according to the present invention.
3 is a block diagram referred to for explaining the configuration of the sensible heat recovery apparatus of slag according to the present invention.
4A to 4C are exemplary views referred to for explaining the operation of the sensible heat recovery device of the slag according to the present invention.
Figure 5 is a flow chart showing the operation flow for the sensible heat recovery method of steelmaking slag according to the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is an overall configuration diagram referred to for explaining the structure of the sensible heat recovery apparatus of slag according to the present invention. 2 is a partial configuration diagram referred to for explaining the operation of the sensible heat recovery apparatus of slag according to the present invention.

Generally, the steelmaking slag is collected in a plurality of slag yards or pits. In the present invention, the slag pit 2 in which the slag 1 is collected is classified into a plurality of regions, and the temperature in each divided region. By arranging the measurement sensors 11, 12, and 13, the temperature of each divided area is measured. In the present invention, an example in which the slag pit 2 is classified into three regions is illustrated, but is not limited thereto.

1 and 2, the apparatus for recovering sensible heat of slag according to the present invention includes a heat exchanger 23 having a suction fan 29 and a suction port 20, and a heat exchanger 23. It further includes a motor 40 for moving the support 30 and the support 30 in the left / right direction.

At this time, the support 30 moves to the left / right according to the driving of the motor 40, and thus moves the position of the heat exchanger 23 connected to the support 30.

In addition, the sensible heat recovery device is a cooling water pump for supplying the cooling water of the water supply table 50 to the water supply pipe 56 disposed inside the heat exchanger 23, and the flow rate adjustment for adjusting the flow rate of the cooling water supplied to the water supply pipe 56 It further includes a valve 53.

In the sensible heat recovery apparatus of slag, the temperature measuring sensors 11, 12, and 13 arranged in each divided area of the slag pit 2 measure the temperature in each area, and transmit the temperature measurement result to the controller 70.

The controller 70 controls the driving of the motor 40, the suction fan 29, and the cooling water pump according to the temperature measurement results of the temperature measuring sensors 11, 12, and 13 disposed in each divided area. At this time, the control unit 70 drives the motor 40 according to the temperature measurement result in the slag pit 2 to move the heat exchanger 23 to the region with the highest temperature, and then perform a heat exchange operation at the corresponding position. do.

In this case, the heat exchange is performed in the region where the sensible heat temperature is the highest, thereby increasing the sensible heat recovery efficiency.

Here, the suction fan 29 is disposed above the heat exchanger 23, and the suction port 20 is disposed below the heat exchanger 23. Therefore, as the suction fan 29 is driven, the heat exchanger 23 sucks the heated air into the heat exchanger 23 through the suction port 20.

Meanwhile, a filter 26 for filtering foreign matter may be further disposed between the heat exchanger 23 and the suction fan 29.

In addition, the water supply pipe 56 is arranged to pass through the heat exchanger 23, and the cooling water in the water supply pipe 56 is heated by high temperature heat sucked by the suction port 20. At this time, the cooling water heated in the heat exchanger 23 is converted to hot water or steam, and discharged to the outlet of the water supply pipe 56.

At this time, a temperature measuring sensor 60 for measuring the temperature of hot water or steam in the water supply pipe 56 is disposed at the outlet of the water supply pipe 56. The temperature measuring sensor 60 transmits the temperature measured in the water supply pipe 56 to the controller 70.

Therefore, the controller 70 adjusts the flow rate control valve 53 according to the temperature measurement result in the water supply pipe 56 to adjust the flow rate in the water supply pipe 56, thereby continuously discharging hot water or steam within a preset temperature range. Be sure to

3 is a block diagram referred to for explaining the configuration of the sensible heat recovery apparatus of slag according to the present invention.

As shown in FIG. 3, the sensible heat recovery apparatus for slag according to the present invention includes a temperature measuring unit 110 and 120, a control unit 70, and a driving unit.

First, the temperature measuring units 110 and 120 include a first temperature measuring unit 110 having a plurality of temperature measuring sensors 11, 12, and 13 for measuring the temperature of the slag 1 in the slag pit 2. It includes a second temperature measuring unit 120 having a temperature measuring sensor 60 for measuring the temperature of the water supply discharged from the heat exchanger (23).

The temperature measuring sensors 11, 12, and 13 of the first temperature measuring unit 110 are disposed in respective areas divided in the slag pit 2 as shown in FIG. Measure the temperature by sensible heat.

The temperature measuring sensor 60 of the second temperature measuring unit 120 is disposed in the water supply discharge region of the water supply pipe 56 disposed in the heat exchanger 23, and measures the water supply temperature in the water supply pipe 56.

The driving unit includes a motor driving unit 130, a fan driving unit 140, a pump driving unit 150, and a flow rate adjusting unit 160.

The motor driver 130 drives the motor 40 according to a driving command from the controller 70 to move the support 30 supporting the heat exchanger 23 in the left or right direction. In this case, the motor driver 130 may stop the driving of the motor 40 by an operation such as a proximity sensor or a limit switch disposed corresponding to each area.

The fan driver 140 drives the suction fan 29 according to a driving command from the controller 70 to suck the air heated by the sensible heat of the slag 1 in the region where the heat exchanger 23 is located.

The pump driving unit 150 drives the cooling water pump according to a driving command from the control unit 70 while the heated air is sucked in the corresponding area through the suction fan 29, so that the cooling water of the drinking fountain 50 supplies the water supply pipe 56. Water supply). At this time, the water supply pipe 56 is arranged to pass through the heat exchanger 23, so that the water supplied into the heat exchanger 23 is heated by the air sucked by the suction fan (29).

The flow rate controller 160 adjusts the flow rate in the water supply pipe 56 by controlling the opening degree of the flow rate control valve 53 according to a driving command from the controller 70 while the water supply is heated by the heat exchanger 23. .

Meanwhile, when the temperature measurement result for each area in the slag pit 2 is input from the temperature measuring sensors 11, 12, and 13 of the first temperature measuring unit 110, the controller 70 inputs the input temperature measurement result. Compare

At this time, the control unit 70 outputs a driving signal to the motor driving unit 130 according to the comparison result, so that the heat exchanger 23 is moved to the region of the high temperature where the temperature measurement result is the highest.

However, the controller 70 outputs a drive signal to the motor driver 130 only when the temperature measurement result of the high temperature region is equal to or higher than the reference temperature α. Here, the reference temperature α is the lowest temperature for driving the heat exchanger 23, which can be changed depending on the setting, but is preferably set at 200 ° C.

In addition, the control unit 70 outputs a drive signal to the fan driver 140 and the pump driver 150 when the heat exchanger 23 moves to a high temperature region.

In addition, the control unit 70 outputs a drive signal for controlling the opening degree of the flow control valve 53 to the flow control unit 160 based on the temperature measurement result of the second temperature measuring unit 120. At this time, the controller 70 determines whether the temperature measurement result of the second temperature measuring unit 120 is within a preset temperature range, and determines the degree of opening of the flow regulating valve 53 according to the result.

Here, the preset temperature range may be changed depending on the setting, but is preferably set to 80 ℃ to 120 ℃.

Of course, the control unit 70 monitors the temperature measurement results from the temperature measuring sensors 11, 12, 13 disposed in the slag pit 2 even during heat exchange, and if the comparison result of the measured temperature is changed, The position of the heat exchanger 23 is changed in units and the cooling water is heated using the sensible heat of the slag 1.

In addition, the control part 70 controls so that heat exchange operation may be complete | finished if all the temperature measurement results measured in the slag pit 2 during heat exchange fall below the reference temperature (alpha).

4A to 4C are exemplary views referred to for explaining the operation of the sensible heat recovery device of the slag according to the present invention.

4A to 4C show an embodiment in the case where the position of the heat exchanger 23 is changed according to the temperature comparison result of each region. 4A to 4C assume that when the slag pit 2 is divided into three regions, the temperature of each region is T1, T2, and T3.

First, FIG. 4A shows that the temperature T1 of the first region, the temperature T2 of the second region, and the temperature T3 of the third region are 'T1> T2> T3', and the temperature T1 of the first region having the highest temperature is the reference temperature ( When α) is exceeded (T1> α), the position of the heat exchanger 23 is moved to the first region to inhale the air heated by the sensible heat of the slag 1 in the region.

4B shows that the temperature T1 of the first region, the temperature T2 of the second region, and the temperature T3 of the third region are 'T2> T1> T3', and the temperature T2 of the second region having the highest temperature is the reference temperature ( When (alpha) is exceeded (T2> (alpha)), the position of the heat exchanger 23 is moved to a 2nd area | region, and the operation | movement which sucks air heated by the sensible heat of the slag 1 in the said area | region is shown.

4C shows that the temperature T1 of the first region, the temperature T2 of the second region, and the temperature T3 of the third region are 'T3>T2>T1', and the temperature T3 of the third region, which is the highest temperature, is the reference temperature ( In the case where α) is exceeded (T3> α), the position of the heat exchanger 23 is moved to the third region to inhale the air heated by the sensible heat of the slag 1 in the region.

Thus, the sensible heat recovery apparatus of slag which concerns on this invention is sensible heat generate | occur | produced from the slag 1 of the said area | region, moving the heat exchanger 23 to the area | region with the highest temperature among each division area | region in the slag pit 2. By performing the heat exchange operation by using, the sensible heat of the slag 1 is recycled, and at the same time, the sensible heat recovery is achieved at the highest efficiency.

5 is a flowchart illustrating an operation flow of a method for recovering sensible heat of slag according to the present invention.

Referring to FIG. 5, in the sensible heat recovery method according to the present invention, the temperature (from the plurality of temperature measuring sensors 11, 12, 13 disposed in respective regions in which the sensible heat recovery device of slag is divided in the slag pit 2) is obtained. T1, T2, and T3) are measured (S100).

In the embodiment of FIG. 5, the slag pit is divided into three regions as an example, but this is only an example, and the number of divided regions may be changed.

At this time, the sensible heat recovery device of the slag compares the temperature T1, T2, T3 of each divided region measured in the 'S100' process (S110). The slag sensible heat recovery apparatus compares T1, T2 and T3 with the reference temperature α, and terminates the sensible heat recovery operation when all of T1, T2 and T3 are α or less (S120).

If any one of T1, T2, and T3 exceeds the reference temperature α, the sensible heat recovery device moves the heat exchanger 23 to the region having the highest measured temperature (S130).

Thereafter, when the heat exchanger 23 is moved to the region of the high temperature where the measurement temperature is the highest, the sensible heat recovery device drives the suction fan 29 and the cooling water pump (S140 and S150).

That is, the sensible heat recovery device drives the suction fan 29 so that the air heated by the sensible heat of the slag 1 in the high temperature region is sucked into the heat exchanger 23. In addition, the sensible heat recovery device drives the cooling water pump to supply the cooling water to the heat exchanger 23 while the heated air is sucked into the heat exchanger 23, whereby the cooling water is exchanged by the heat exchanger 23 to provide hot water or steam. To be discharged.

At this time, the sensible heat recovery device checks whether the temperature measurement result of the temperature measuring sensor 60 disposed in the water supply outlet is within a preset temperature range, and controls the opening degree of the flow control valve 53 according to the result (S160, S170).

The sensible heat recovery apparatus repeatedly performs the processes 'S160' and 'S170' for a predetermined time, and when a predetermined time elapses (S180), the temperature of each divided region in the slag pit 2 is re-measured (S100).

At this time, the sensible heat recovery apparatus monitors the temperature of each divided heating heat in the slag pit 2 in real time or at regular time intervals, and checks whether the position of the region of the high temperature where the measurement temperature is the highest is changed. It also monitors whether the measured temperature in each division falls below the reference temperature.

If the location of the high temperature region is changed, the process '110' to 'S170' is performed again. Otherwise, the process 'S110' to 'S150' is omitted.

Module implementation apparatus and method of the quantitative risk assessment system according to the present invention as described above with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed herein, the scope of the technical spirit is protected It can be applied within.

11, 12, 13, 60: temperature measuring sensor 20: inlet
23: heat exchanger 26: filter
29: suction fan 30: support
40: motor 50: drinking fountain
53: flow control valve 56: water supply piping
70: controller 110: first temperature measuring unit
120: second temperature measuring unit 130: motor driving unit
140: fan drive unit 150: pump drive unit
160: flow control unit

Claims (16)

A plurality of temperature measuring sensors for measuring the sensible heat temperature of the slag, the plurality of temperature measuring sensors each of which is disposed in a plurality of divided areas in the slag pit (pit);
Comparing the temperature measurement results from the plurality of temperature measuring sensors, and outputs a drive signal to heat exchange using the sensible heat of the slag in the region of the high temperature of the divided region in the slag pit the highest temperature A control unit; And
And a motor driver for driving a motor in response to a drive signal from the controller to move a heat exchanger to the high temperature region. The method according to claim 1,
The control unit,
And the drive signal is output when the temperature measurement result measured in the high temperature region is equal to or higher than a reference temperature. The method according to claim 1,
The control unit,
Monitor the temperature measurement results from the temperature measuring sensors of the first temperature measuring unit for a predetermined time unit, and outputs a driving signal to exchange heat in the region of the changed position when the position of the high temperature region is changed as a result of the comparison of the temperature measurement results. A sensible heat recovery device for slag, characterized in that. The method according to claim 1,
When the heat exchanger moves to the high temperature region, the fan drive unit for driving the suction fan in accordance with the drive signal, so that the air heated to the heat exchanger in the high temperature region; Sensible heat recovery device. The method according to claim 1,
And a pump driver for driving the cooling water pump according to the driving signal when the heat exchanger moves to the high temperature region to supply the cooling water to the water supply pipe disposed in the heat exchanger. Sensible heat recovery device. The method according to claim 1,
And a second temperature measuring unit having a temperature measuring sensor for measuring the temperature of the feed water discharged from the heat exchanger. The method of claim 6,
The control unit,
Determining whether the temperature measurement result of the second temperature measuring unit is within a predetermined temperature range, and determines the degree of opening of the flow control valve according to the result, the sensible heat recovery device of the slag. The method of claim 6,
The control unit,
And a flow rate control signal for adjusting a flow rate of water supplied into the heat exchanger based on the temperature measurement result of the second temperature measuring unit. The method according to claim 8,
And a flow rate control unit for controlling the opening degree of the flow control valve based on the flow rate control signal from the control unit. Receiving a temperature measurement result from a plurality of temperature measuring sensors each disposed in a plurality of divided regions in the slag pit;
Comparing temperature measurement results from the plurality of temperature measurement sensors;
Outputting a driving signal to heat-exchange using the sensible heat of the slag in the region of the high temperature at which the temperature measurement result is the highest among the divided regions in the slag pit; And
And driving a motor in accordance with the drive signal to move a heat exchanger to the high temperature region. The method according to claim 10,
The outputting of the driving signal may include:
And the drive signal is output when the temperature measurement result measured in the high temperature region is equal to or higher than a reference temperature. The method according to claim 10,
After the moving, driving the suction fan to suck the heated air in the high temperature region to the heat exchanger according to the driving signal; And
And driving the cooling water pump to supply the cooling water to the water supply pipe disposed in the heat exchanger according to the driving signal. The method according to claim 10,
Measuring sensible heat of the slag, characterized in that it further comprises the step of measuring the temperature of the water supply discharged from the heat exchanger. The method according to claim 13,
Determining whether the temperature measurement result of the water supply is within a predetermined temperature range, and determining the degree of opening of the flow control valve according to the result; The sensible heat recovery method of the slag further comprising. The method according to claim 13,
Outputting a flow rate adjustment signal for adjusting a flow rate of water supplied into the heat exchanger based on a temperature measurement result of the water supply; And
And controlling the opening degree of the flow regulating valve based on the flow regulating signal. The method according to claim 10,
The comparing step is performed by a predetermined time unit,
The outputting of the driving signal may include: outputting a driving signal to heat exchange in the region of the changed position when the position of the high temperature region is changed as a result of comparing the temperature measurement result.

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