KR101087128B1 - Cooler for power generator and control method thereof - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling apparatus for a static pressure generator and a control method thereof, and more particularly, to a cooling apparatus for a static pressure generator and a control method thereof such that the temperature of blast furnace gas flowing into the static pressure generator is maintained below a set temperature. .

The present invention, the temperature sensor for sensing the temperature of the wet processor discharge gas; A cooler for injecting a cooling fluid into the gas flowing into the purifier; And a controller for driving the cooler when the temperature detected by the temperature sensor is greater than or equal to a first predetermined temperature.

Steelmaking, Steelmaking, Casting, Rolling, Blast Furnace

Description

Cooling device for no-pressure generator and its control method {COOLER FOR POWER GENERATOR AND CONTROL METHOD THEREOF}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling apparatus for a static pressure generator and a control method thereof, and more particularly, to a cooling apparatus for a static pressure generator and a control method thereof so that the temperature of blast furnace gas flowing into the static pressure generator is maintained below a set temperature. .

General steel production consists of a steelmaking process to produce molten iron, a steelmaking process to remove impurities from molten iron, a regeneration process in which iron in a liquid state becomes a solid, and a rolling process in which iron is made of steel or wire.

The process of making pig iron, the first step in the process of making steel from iron ore, is called steelmaking and steelmaking, and the process of making steel from pig iron is called steelmaking.

The casting process is a process in which molten steel, which is a liquid ecology, is injected into a mold, and then passed through a continuous casting machine, cooled, and solidified to continuously form an intermediate material such as slab or bloom.

In this process, the bloom is again processed into a billet (Billet) through a steel sheet rolling mill and processed into a wire rod through a wire rod rolling mill.

In addition, the slab is made of a hot rolled coil or a hot rolled steel sheet while being produced in a thick plate through a thick plate rolling mill or through a hot rolling mill.

A blast furnace or an electric furnace is used to perform the above-described steelmaking process, a blast furnace is a furnace for extracting molten iron from iron ore, and an electric furnace is a furnace for making molten iron using heat generated by an induced current.

The blast furnace gas generated in the blast furnace is purified through a dry processor, a wet processor, and a purifier, and drives the stationary pressure generator using the pressure supplied through the purified gas.

The technical structure described above is a background technique for assisting the understanding of the present invention, and does not mean the prior art widely known in the technical field to which the present invention belongs.

Since the stationary pressure generator according to the prior art uses the blast furnace gas passed through the dry processor, the wet processor, and the cleaner for power generation, if the gas generated from the blast furnace is supplied in a superheated state above a predetermined temperature, the power generation work is stopped and overheated. There is a problem that the power generation work must be stopped until this is resolved.

Therefore, there is a need for improvement.

The present invention has been made to solve the above problems, and an object thereof is to provide a cooling device for a static pressure generator and a control method thereof so that the temperature of the supplied blast furnace gas is maintained below a set temperature.

In order to achieve the above object, the present invention, a temperature sensor for sensing the temperature of the wet processor discharge gas; A cooler for injecting a cooling fluid into the gas flowing into the purifier; And a controller for driving the cooler when the temperature detected by the temperature sensor is greater than or equal to a first predetermined temperature.

In addition, the present invention provides a cooling device for a static pressure generator further comprises a final temperature sensor for sensing the temperature of the gas is cooled by the cooler and introduced into the static pressure generator.

In addition, the present invention is installed in the blast furnace gas discharge pipe is a preliminary temperature sensor for sensing the temperature of the blast furnace gas; And a precooler for injecting a cooling fluid into the gas discharged from the dry processor when the temperature detected by the preliminary temperature sensor is greater than or equal to the first preliminary temperature.

In addition, the present invention comprises a cooling determination step of determining whether the gas discharged from the wet processor is above the first set temperature; And a cooling step of injecting a cooling fluid into the blast furnace gas flowing into the purifier when the blast furnace gas is higher than the first set temperature in the cooling determination step. to provide.

In addition, the present invention includes a preliminary determination step of determining whether the gas discharged from the blast furnace is above the first preliminary temperature; In the preliminary determination step, if the blast furnace gas is equal to or greater than the first preliminary temperature, the precooler is further driven, and further comprising a preliminary cooling step of injecting a cooling fluid to the blast furnace gas flowing into the wet processor. Provide control method.

In addition, the present invention includes a stop determination step of determining whether the gas discharged from the blast furnace is below the second preliminary temperature when the preliminary cooling step is started; And when the temperature detected in the stop determination step is less than the second preliminary temperature provides a control method of the cooling device for a static pressure generator, characterized in that the switching to the step of the operation of the pre-cooler is terminated.

In addition, in the preliminary determination step of the present invention, if the blast furnace gas is less than the first preliminary temperature, it provides a control method of a cooling apparatus for a static pressure generator, characterized in that the switching to the cooling determination step.

In addition, the present invention is a drive determination step of determining whether the temperature of the gas discharged from the purifier is less than the first set temperature when the cooling step is started; Driving the static pressure generator when the temperature detected in the driving determination step is less than a first predetermined temperature; A final determination step of determining whether the gas discharged from the purifier is less than or equal to a second predetermined temperature when the static pressure generator is driven; And stopping the cooler when the temperature sensed in the final determination step is less than or equal to the second predetermined temperature.

In addition, if the temperature detected in the drive determination step of the present invention is greater than the first set temperature, the stationary pressure generator is a step of stopping, after which the cooling device for a static pressure generator, characterized in that switched to the cooling step. Provide control method.

The cooling device for a static pressure generator and its control method according to the present invention can be supplied to the static pressure generator by lowering the blast furnace gas below the set temperature even when the blast furnace gas is abnormally overheated, so that the driving of the static pressure generator is independent of the state of the blast furnace. There is an advantage that can be suppressed and that the productivity decreases.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of a cooling apparatus for a static pressure generator according to the present invention and a control method thereof.

In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or custom.

Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a block diagram showing a cooling apparatus for a static pressure generator according to an embodiment of the present invention, Figure 2 is a block diagram showing a static pressure generator according to an embodiment of the present invention.

1 and 2, the cooling device for a static pressure generator according to an embodiment of the present invention is installed in the blast furnace gas discharge pipe to detect the temperature of the blast furnace gas 30 and the dry processor (12) Precooler 70 for injecting a cooling fluid to the blast furnace gas discharged from the) and the wet processor 14, the temperature sensor 40 for detecting the temperature of the blast furnace gas and the cleaner 16 When the temperature of the blast furnace gas detected by the preliminary temperature sensor 30 and the cooler 80 for injecting a cooling fluid to the blast furnace gas is greater than the first preliminary temperature, the precooler 70 is driven and the temperature sensor 40 The control unit 100 for driving the cooler 80 when the temperature of the gas detected in the first set temperature or more.

If the gas discharged from the blast furnace 10 is equal to or greater than the first preliminary temperature, the precooler 70 is driven by the operation signal of the controller 100, so that the blast furnace gas flowing into the wet processor 14 passes through the dry processor 12. Cooling fluid is injected.

If the gas discharged from the blast furnace 10 is lowered below the second preliminary temperature after the precooler 70 is driven, the precooler 70 is stopped to stop the injection of the cooling fluid.

At this time, since the injected cooling fluid is made of low temperature nitrogen (N2) it is heat exchanged with the high temperature blast furnace gas to collect the heat of the blast furnace gas.

Subsequently, the blast furnace gas, which has not cooled below the first set temperature while passing through the precooler 70 and the wet processor 14, is cooled again by the cooler 80.

At this time, the cooling fluid to be injected is nitrogen (N2) or cooling water is used, the type of cooling fluid can be changed in various ways.

In addition, since the final temperature sensor 50 is installed in the discharge pipe of the purifier 16 and detects the temperature of the gas flowing into the static pressure generator 20, the blast furnace gas passed through the cooler 80 and the purifier 16. The temperature of the gas supplied to the stationary pressure generator 20 is finally sensed by determining whether the temperature is cooled below the second set temperature.

If the temperature of the gas measured by the final temperature sensor 50 is less than the second set temperature, the cooler 80 is stopped to end the cooling operation of the gas supplied to the stationary pressure generator.

Looking at the control method of the cooling device for a static pressure generator according to an embodiment of the present invention configured as described above are as follows.

3 is a flowchart illustrating a control method of a cooling apparatus for a static pressure generator according to an embodiment of the present invention.

1 to 3, the control method of the cooling apparatus for a static pressure generator according to an embodiment of the present invention is a preliminary determination step of determining whether the temperature of the gas discharged from the blast furnace 10 is more than the first preliminary temperature ( S10), and if the temperature of the gas in the preliminary determination step (S10) is above the first preliminary temperature, the precooler 70 is driven to inject a cooling fluid to the gas flowing into the wet processor 14 (S20). And a cooling determination step S50 for determining whether the gas discharged from the wet processor 16 is greater than or equal to the first predetermined temperature, and when the temperature of the gas is greater than or equal to the first predetermined temperature in the cooling determination step S50, It is driven to include a cooling step (S60) for injecting a cooling fluid to the gas flowing into the purifier (16).

In detail, when the gas discharged from the blast furnace 10 is the first preliminary temperature, about 150 degrees or more, the driving signal of the precooler 70 is controlled by the control unit 100 by a signal transmitted from the preliminary temperature sensor 30. Since the transmission of the cooling fluid is injected from the pre-cooler (70).

After the preliminary cooler 70 is driven, a stop determination step (S30) and a stop determination step (S30) for determining whether the gas discharged from the blast furnace 10 is lowered to a second preliminary temperature, about 100 degrees or less. If the temperature is less than the second preliminary temperature, about 100 degrees, step S40 of stopping the driving of the precooler 70 is performed.

In addition, when the temperature sensed in the preliminary determination step S10 is less than or equal to the first preliminary temperature, the preliminary cooler 70 is not driven because it is switched to the cooling determination step S50.

Thereafter, when the cooling determination step S50 is performed and the temperature of the gas detected by the temperature sensor 40 is less than the first set temperature, about 90 degrees, step S80 of driving the static pressure generator 20 is performed. When the temperature is greater than or equal to 90 degrees, the cooling step S60 in which the cooler 80 is driven by the signal transmitted from the temperature sensor 40 is performed, and the cooling fluid is injected into the gas flowing into the cleaner 16.

After the cooler 80 is driven, the driving determination step S70 of sensing the exhaust gas temperature of the cleaner 16 is performed, and if the temperature detected in the driving determination step S70 is less than the first set temperature, the static pressure generator 20 is switched to the step (S80) is driven.

After the stationary pressure generator 20 is driven, a final determination step S90 of determining whether the temperature of the gas discharged from the cleaner 16 is less than or equal to the second set temperature is performed, and the final determination step S90 is detected. If the gas temperature is less than the second set temperature, about 70 degrees, the operation of the cooler 80 is stopped (S100).

In addition, when the temperature detected in the driving determination step (S70) is greater than or equal to the first set temperature, the static pressure generator 20 proceeds to the step (S110) of stopping, and then, the cooling step (S60) is switched.

Thereby, it is possible to provide a cooling device for a static pressure generator and a control method thereof so that the temperature of the blast furnace gas supplied is kept below the set temperature.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible to those skilled in the art. Will understand.

In addition, the cooling device for a static pressure generator and a control method thereof have been described as an example, but this is merely exemplary, and the cooling device and the control method of the present invention may be used in other products than the static pressure generator.

Therefore, the true technical protection scope of the present invention will be defined by the claims below.

1 is a configuration diagram showing a cooling apparatus for a static pressure generator according to an embodiment of the present invention.

2 is a block diagram showing a static pressure generator according to an embodiment of the present invention.

3 is a flowchart illustrating a control method of a cooling apparatus for a static pressure generator according to an embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

10: blast furnace 20: static pressure generator

30: preliminary temperature sensor 40: temperature sensor

50: final temperature sensor 70: pre-cooler

80: cooler 100: control unit

Claims (9)

A temperature sensor for sensing the temperature of the wet processor exhaust gas; A cooler for injecting a cooling fluid into the gas flowing into the purifier; And And a controller for driving the cooler when the temperature detected by the temperature sensor is greater than or equal to a first predetermined temperature. The method of claim 1, And a final temperature sensor for sensing the temperature of the gas cooled by the cooler and flowing into the stationary pressure generator. The method according to claim 1 or 2, A preliminary temperature sensor installed at the blast furnace gas discharge pipe and detecting a temperature of the blast furnace gas; And And a precooler for injecting a cooling fluid into the gas discharged from the dry processor when the temperature detected by the preliminary temperature sensor is greater than or equal to the first preliminary temperature. A cooling determination step of determining whether the gas discharged from the wet processor is above the first set temperature; And And a cooling step of injecting a cooling fluid into the wet processor discharge gas which is driven by the cooler when the wet processor discharge gas is equal to or higher than the first preset temperature. 5. The method of claim 4, A preliminary determination step of determining whether the gas discharged from the blast furnace is equal to or greater than the first preliminary temperature; If the blast furnace exhaust gas is greater than the first preliminary temperature, the pre-cooler is driven to control the cooling device for a stationary pressure generator, characterized in that it further comprises a pre-cooling step of injecting a cooling fluid to the blast furnace exhaust gas flowing into the wet processor. Way. The method of claim 5, A stop determination step of determining whether the blast furnace discharge gas is below a second preliminary temperature when the preliminary cooling step is started; And If the blast furnace exhaust gas is less than the second preliminary temperature, the control method of the cooling device for a static pressure generator, characterized in that switching to the step of the operation of the pre-cooler is terminated. The method of claim 5, If the blast furnace discharge gas is less than the first preliminary temperature in the preliminary determination step, the control method of the cooling device for a static pressure generator, characterized in that the switch to the cooling determination step. The method according to any one of claims 4 to 7, A driving determination step of determining whether a gas discharged from the purifier is less than a first predetermined temperature when the cooling step is started; Driving a static pressure generator when the purifier exhaust gas is less than a first predetermined temperature; A final determination step of determining whether the gas discharged from the purifier is less than or equal to a second predetermined temperature when the static pressure generator is driven; And And controlling the cooler to stop when the temperature detected in the final determination step is less than or equal to a second predetermined temperature. The method of claim 8, And if the temperature detected in the driving determination step is equal to or greater than a first predetermined temperature, the static pressure generator is stopped, and then the cooling step is switched to the cooling step.

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