KR101355514B1 - Method for controlilng temperature of drum water in boiler using surplus steam - Google Patents

Abstract

The present invention relates to a method for controlling the drum water temperature of a boiler using surplus steam. When the boiler is idle, the control unit receives the temperature of the drum water contained in the lower drum of the boiler from the temperature sensor and the temperature of the drum water is When the temperature is lower than the reference temperature, the control unit includes a step of controlling the auxiliary steam valve so that the steam flowing through the main steam pipe is supplied to the lower drum of the boiler through the auxiliary steam pipe, the idle state according to the present invention using surplus steam The number of drums contained in the lower drum of the in-boiler can be heated to a certain level in advance. Therefore, even when the steam pressure in the joint stand drops abruptly due to equipment problems in the sintering plant, steelmaking plant, and power plant, Can be supplied.

Description

TECHNICAL FOR CONTROLILNG TEMPERATURE OF DRUM WATER IN BOILER USING SURPLUS STEAM}

The present invention relates to a method for controlling the drum water temperature of a boiler using surplus steam, and more particularly, by using surplus steam to maintain a constant temperature of the drum water contained in the lower drum of the boiler in idle state using surplus steam. It relates to a drum water temperature control method of a boiler.

In general, about 40% of the energy of coal in the steelmaking and steelmaking processes is converted into blast furnace gas, coke furnace gas, and converter gas, respectively, through the blast furnace process, the coke furnace process, and the converter process.

The by-product gas thus generated is reused as a heating energy source required for each process or as a heat source for power generation for rolling.

For example, self-powered boilers in the steelmaking process use steam production by-products BFG, LDG, and COG as the main fuels to generate steam and drive turbines to produce power, or in facilities such as vacuum degassing facilities and thermal insulation facilities. I use it variously.

Therefore, the steelmaking process continuously monitors various by-product gases and steam, and the operator observes the changes in by-product gases and steam in real time.

Related prior art is Korean Patent Application Publication No. 10-2012-0084126 (2012.03.08 publication, name of the invention: steam and gas display device).

The purpose of the present invention is to maintain the temperature of the drum water contained in the lower drum of the boiler in the idle state using surplus steam at a certain level, causing equipment problems in the sintering plant, steel mill and power plant, so that the pressure drop in the joint stage suddenly drops. In the case of providing a method for controlling the drum water temperature of the boiler using the excess steam to quickly supply the steam by operating the boiler.

In accordance with an aspect of the present invention, there is provided a method for controlling the drum water temperature of a boiler using surplus steam, wherein the controller inputs the temperature of the drum water contained in the lower drum of the boiler from a temperature sensor when the boiler is idle. Receiving step; And when the temperature of the drum water is equal to or less than a reference temperature, controlling the auxiliary steam valve so that the steam introduced through the main steam pipe is supplied to the lower drum of the boiler through the auxiliary steam pipe.

In the step of controlling the auxiliary steam valve of the present invention, the controller is characterized in that to maintain the temperature of the drum water above a set temperature.

In the present invention, the steam is reduced in pressure by the pressure reducing valve is characterized in that it is supplied to the lower drum of the boiler.

In the present invention, the steam is supplied to a heat exchanger installed in the lower drum of the boiler is characterized in that the indirect heating of the drum water.

The temperature of the drum water in the present invention is installed in the auxiliary steam pipe is characterized in that it is maintained at a set temperature by a temperature control valve for intermittent supply of steam.

According to the present invention, since the number of drums contained in the lower drum of the boiler in the idle state can be heated to a predetermined level by using the surplus steam, problems in the sinter plant, steel mill, and power plant may occur, resulting in sudden increase in the joint frame steam pressure. In case of a descent, the boiler can be started quickly to supply steam.

In addition, according to the present invention, the surplus steam used to heat the drum water of the boiler can be recycled to increase the water supply temperature of the deaerator and the deaerator water tank of the boiler feed tank, thereby increasing the energy efficiency and cost Can be saved.

In addition, according to the present invention, since the pressure of the excess steam is reduced to a certain level and then supplied to the lower drum of the boiler, the impact on the boiler facility can be minimized.

1 is a view for explaining a process in which steam is generated and supplied in a steel mill in relation to a method for controlling the drum water temperature of a boiler using surplus steam according to an embodiment of the present invention.
2 is a view schematically showing a structure of a drum water temperature control apparatus of a boiler for performing a drum water temperature control method of a boiler using surplus steam according to an embodiment of the present invention.
3 is a block diagram illustrating a configuration of a drum water temperature control apparatus of a boiler for performing a drum water temperature control method of a boiler using surplus steam according to an embodiment of the present invention.
4 is a flowchart illustrating an operation of a method for controlling the drum water temperature of a boiler using surplus steam according to an embodiment of the present invention.

Hereinafter, a method for controlling the drum water temperature of a boiler using surplus steam according to the present invention will be described in detail with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a view for explaining a process of generating and supplying steam in a steel mill in relation to a method for controlling the drum water temperature of a boiler using surplus steam according to an embodiment of the present invention, Figure 2 is an embodiment of the present invention 2 is a view schematically illustrating a structure of a drum water temperature control apparatus of a boiler for performing a drum water temperature control method of a boiler using surplus steam according to the present invention.

As shown in FIG. 1, the sintering plant 110, the power plant 120, the steelmaking plant 130, and the boiler 140 in the steel mill generate steam, and the generated steam is passed through the joint-vessel steam pipe A. It is supplied to each use place 150 in a steel mill.

Specifically, the sintering plant 110 generates steam by heat-exchanging flue gas sensible heat generated in the process of cooling the sintered ore distributed in the sintering machine (not shown) in a cooler (not shown), and the power plant 120 generates steel. By-product gases (COG, BFG, LDG) are burned as fuel to generate steam.

Steelmaking plant 130 generates steam by heat exchange in the process of cooling the drum water supplied from the deaerator (not shown) through a circulation pump (not shown) in a cooler (not shown), and generates the steam The water is collected and stored in an accumulator (not shown) and then supplied to each use place 150.

As shown in FIG. 2, the boiler 140 includes a lower drum 141, a combustion chamber 143, and an upper drum 145, and the number of drums that rises from the lower drum 141 to the combustion chamber 143 is determined by the combustion chamber ( 143, and steam is generated in the upper drum 145 by the heated drum water.

The steam generated in this way is supplied to each use place 150 through the main steam pipe (B) and the communal stand steam pipe (A) in which the main steam valve 31 is installed, and the temperature and pressure of the steam supplied are 216 ° C and Can be 17kg / cm ² .

In this case, the amount of steam generated in the boiler 140 is determined according to the amount of steam used in each use place 150 and the amount of steam generated in the sintering plant 110, the power plant 120, and the steelmaking plant 130, and the sintering plant 110. In the case where a sufficient amount of steam is supplied from the power plant 120 and the steelmaking plant 130, the boiler 140 is switched to an idle state from an operating state.

When the boiler 140 is switched to the idle state, the temperature of the drum water contained in the upper drum 145 and the lower drum 141 is lowered, and when the boiler 140 is switched to the operating state, the drum water is reheated. Will generate steam.

Therefore, even when the boiler 140 is switched to the operating state, since it takes a certain time until the steam is supplied, it is difficult to supply the steam quickly.

On the other hand, when the boiler 140 is switched to the idle state, surplus steam generated in the sintering plant 110, the power plant 120 and the steelmaking plant 130 is introduced through the main steam pipe (B), the surplus steam introduced Is discharged to the outside through the siren 150.

Therefore, the present invention is characterized in that the drum water of the boiler 140 is heated to a predetermined level by using a part of surplus steam discharged to the outside when the boiler 140 is at rest.

3 is a block diagram illustrating a configuration of a drum water temperature control apparatus of a boiler for performing a drum water temperature control method of a boiler using surplus steam according to an embodiment of the present invention.

As shown in FIG. 3, the apparatus for controlling the drum water temperature of the boiler for performing the drum water temperature control method of the boiler using surplus steam according to an embodiment of the present invention includes a temperature sensor 10, a controller 20, The first auxiliary steam valve 32 includes a second auxiliary steam valve 34.

The temperature sensor 10 measures the temperature of the drum water contained in the lower drum 141 of the boiler 140 and transmits the temperature to the controller 20.

As shown in Figure 2, the first auxiliary steam valve 32 and the second auxiliary steam valve 34 is installed on the auxiliary steam pipe (C) to regulate the flow of steam, the first and second auxiliary steam valve 32 and 34 may be solenoid valves whose opening and closing are controlled by the controller 20.

Here, the auxiliary steam pipe (C) is a pipe for supplying the surplus steam flowing through the main steam pipe (B) to the lower drum 141 of the boiler 140 may be installed branched to the main steam pipe (B). have.

In addition, although the first and second auxiliary steam valves 32 and 34 are provided in the auxiliary steam pipe C in this embodiment, the number of auxiliary steam valves provided in the auxiliary steam pipe C is required. It can be variously selected according to.

The control unit 20 supplies a sufficient amount of steam to the joint stage steam pipe (A) based on the amount of steam used in the use 150 and the amount of steam generated in the sinter plant 110, power plant 120 and steelmaking plant 130. If it is determined that, the boiler 140 is switched from the operating state to the idle state.

The controller 20 receives the temperature of the drum water contained in the lower drum 141 of the boiler 140 from the temperature sensor 10 after the boiler 140 is switched to the idle state, and the temperature of the drum water is equal to the reference temperature. In comparison, when the temperature of the drum water is below the reference temperature, the first and second auxiliary steam valves 32 and 34 are opened.

Here, the reference temperature refers to the temperature that is the reference temperature for supplying surplus steam to the lower drum 141 of the boiler 140 in the idle state to increase the temperature of the drum water in advance, and the specification of the equipment and the intention of the designer It can be variously selected according to. For example, the reference temperature may be selected as 40 ℃.

When the first and second auxiliary steam valves 32 and 34 are opened, surplus steam is introduced into the auxiliary steam pipe C through the first auxiliary steam valve 32 and the surplus steam is introduced into the pressure reducing valve 33. By the pre-set pressure. For example, the pressure reducing valve 33 may reduce the excess steam of 17 kg / cm ² to 5 kg / cm ² .

As such, when the pressure of the surplus steam is reduced and supplied to a predetermined level, the impact applied to the boiler 140 may be minimized.

The surplus steam decompressed by the pressure reducing valve 33 is supplied to the heat exchanger 147 installed in the lower drum 141 of the boiler 140 through the second auxiliary steam valve 34.

The drum water contained in the lower drum 141 of the boiler 140 is indirectly heated by surplus steam supplied to the heat exchanger 147, and the controller 20 controls the first, 2 Controls the opening and closing of the auxiliary steam valves (32, 34).

At this time, the control unit 20 may open and close the first and second auxiliary steam valves 32 and 34 at the same time, but to control the temperature of the drum water more precisely, the first and second auxiliary steam valves 32 and 34 are controlled. It can also be opened and closed independently.

In addition, the set temperature means a temperature at which the steam can be generated immediately when it is urgently to supply the steam to the joint stand steam pipe (A), can be variously selected according to the specifications of the equipment and the intention of the designer. . For example, the set temperature may be selected as 100 ° C.

As such, since the number of drums contained in the lower drum 141 of the boiler 140 in the idle state may be heated to a predetermined level (for example, 100 ° C.) using surplus steam, the sintering plant 110 and the power plant 120 ) And the steelmaking plant 130, such as a problem in the installation can be quickly supplied steam even if the pressure drop in the cavity stand suddenly.

In addition, since the excess steam used to heat the drum water of the boiler 140 can be recycled to increase the water supply temperature of the deaerator (not shown), which is a boiler feed tank and a purified water tank (not shown), which is a deaerator feed tank, energy Increase efficiency and reduce costs.

4 is a flowchart illustrating an operation of a drum water temperature control method of a boiler using surplus steam according to an embodiment of the present invention, with reference to this will be described the specific operation of the present invention.

As shown in FIG. 4, first, the controller 20 checks whether the boiler 140 is at rest (S101), and when the boiler 140 is at rest, the lower drum of the boiler 140 from the temperature sensor 10. The temperature of the number of drums contained in 141 is received (S102).

Subsequently, the controller 20 checks whether the temperature of the drum water is equal to or lower than the reference temperature (S103), and opens the first and second auxiliary steam valves 32 and 34 if it is lower than or equal to the reference temperature (S104).

As described above, when the first and second auxiliary steam valves 32 and 34 are opened, surplus steam is introduced into the auxiliary steam pipe C through the first auxiliary steam valve 32, and the introduced excess steam is decompressed. The pressure is reduced by the valve 33 and supplied to the heat exchanger 147 installed in the lower drum 141.

Thereafter, the controller 20 controls the first and second auxiliary steam valves 31 and 32 to maintain the temperature of the drum water at a set temperature or more (S105).

Specifically, the controller 20 closes the first and second auxiliary steam valves 32 and 34 when the temperature of the drum water rises above the set temperature, and closes the first and second auxiliary steam valves 32 and 34, and when the temperature of the drum water falls below the set temperature. The auxiliary steam valves 32 and 34 are opened to maintain the temperature of the drum water above the set temperature.

Thus, according to the method for controlling the drum water temperature of the boiler using the surplus steam according to the present invention, since the drum number contained in the lower drum of the boiler in the idle state can be heated to a predetermined level using the surplus steam, the sintering plant, Even in the case of an equipment problem in a steelmaking plant or a power plant, a sudden decrease in the pressure of the joint stand steam can be provided to quickly supply the steam by operating the boiler.

In addition, since the excess steam used to heat the drum water of the boiler can be recycled to increase the water supply temperature of the deaerator and the deaerator water tank as the boiler feed tank, it is possible to increase the energy efficiency and reduce the cost.

In the present embodiment, the controller 30 controls the opening and closing of the first and second auxiliary steam valves 32 and 34 when the temperature of the drum water is maintained above the set temperature.

However, a temperature control valve (TCV) for automatically controlling the supply of excess steam on the auxiliary steam pipe (C) may be provided to maintain the temperature of the drum water at the set temperature.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand. Accordingly, the technical scope of the present invention should be defined by the following claims.

10: temperature sensor 20: control unit
31: main steam valve 32: the first auxiliary steam valve
33: pressure reducing valve 34: second auxiliary steam valve
110: sintering plant 120: power plant
130: steel plant 140: boiler
141: lower drum 143: combustion chamber
145: upper drum 147: heat exchanger
150: sirens

Claims (5)

When the boiler is at rest, the controller receiving a temperature of the drum water contained in the lower drum of the boiler from a temperature sensor; And
When the temperature of the drum water is less than the reference temperature, using the surplus steam comprising the step of controlling the auxiliary steam valve so that the steam flowing through the main steam pipe is supplied to the lower drum of the boiler through the auxiliary steam pipe How to control the drum water temperature in the boiler.
The method of claim 1, wherein in the controlling of the auxiliary steam valve,
The control method of the drum water temperature of the boiler using excess steam, characterized in that the control unit maintains the temperature of the drum water above a set temperature.
The method of claim 1, wherein the steam is reduced in pressure by a pressure reducing valve and then supplied to the lower drum of the boiler.
The method of claim 1, wherein the steam is supplied to a heat exchanger installed in the lower drum of the boiler to indirectly heat the drum water.
The drum water temperature control of a boiler using surplus steam according to claim 1, wherein the temperature of the drum water is maintained at a set temperature by a temperature control valve installed in the auxiliary steam pipe to control the supply of steam. Way.

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