KR20100035834A - A method and device of preventing the ignition of coal dusts - Google Patents

Abstract

PURPOSE: A method and a device for preventing coal dust from being ignited in an enclosed storage are provided to reduce the concentration of coal dust by spraying water when the concentration is more than a set value. CONSTITUTION: A device for preventing coal dust from being ignited in an enclosed storage comprises an enclosed storage(10), a dust measuring unit, a controller(500), and a spray operating unit(600). Coal(C) is loaded in the enclosed storage. The dust measuring unit is arranged inside the enclosed storage, and irradiates laser light. And the dust measuring unit collects the irradiated laser light, and changes the decrement of the laser light to an electric signal. The controller determines dust concentration based on the electric signal, and outputs a control signal. The spray operating unit accepts the control signal, and sprays water.

Description

A method for controlling dust ignition in sealed storage and its device {A METHOD AND DEVICE OF PREVENTING THE IGNITION OF COAL DUSTS}

The present invention relates to a method and apparatus for suppressing dust ignition in a closed yard, in particular, by always measuring the dust concentration in the closed yard and spraying water through a spray to lower the dust concentration, thereby igniting by dust The present invention relates to a method and apparatus for suppressing dust ignition in a closed yard to prevent an accident.

Generally, dust refers to suspended solid fine particles having a diameter of about 1 to 10 µm existing in air. In addition, dust is represented by various names according to its state, and suspended dust is suspended in the air, and deposited dust is dust deposited in a building or facility.

Dust ignition is influenced by various factors such as particle size and dust concentration, but the finer the particle size of dust, the easier it is to ignite. This is because the finer the dust, the more the surface area per unit mass increases, and therefore, there is a characteristic that it is ignited by low concentration, low temperature, and low ignition energy.

On the other hand, the complexing properties of bituminous materials such as coal and coke are characterized in that the case of deposited dust is complexed at a much lower temperature than suspended dust. For example, pulverized coal suspended in air ignites at a high temperature of 617 ° C, but spontaneously ignites at a low temperature of 222 ° C when it is accumulated and accumulated. Reference is made to Explosibility of Carbonaceous Dusts, Bureau of Mines, USA, NITS PB80174188 (1965). In addition, even in the case of deposited dust, the thicker the layer of dust, the faster the ignition temperature is characterized.

This tendency is because the thicker the sedimentary layer of dust, the heat of oxidation reaction generated by the oxidation of coal accumulates in the sedimentary layer, which can be interpreted that the complexing reaction can proceed even at low ambient temperature.

This principle leads to spontaneous ignition when the coal is stored for a long time in the form of a huge file. If ignition is detected, the coal pile is sprayed with water or the heat of oxidation accumulated inside the pile is released into the atmosphere. It is similar to the principle of suppressing ignition by digging through the file.

In addition, in order to improve the quality of the metallurgical coke, the powdered coal is dried and charged into the coke oven, so that dust is inevitably generated during the drying of the coal.

Coal raw materials used in existing steel mills are often loaded in piles in outdoor loading sites, and in this case, the concentration of dust is lower than that of indoor storage, which reduces the probability of ignition. There is a drawback to polluting the environment by blowing in the wind.

Therefore, indoor enclosed storage is required at the time when regulatory conditions are strengthened due to environmental factors. In this case, safety measures against dust explosion are urgently required.

Conventional safety measures against dust explosions include fire extinguishing facilities, temperature sensing equipment for detecting fire occurrence, and carbon monoxide detectors, but these are equipments used to detect dust explosions or extinguish fires. There is no way or facility.

The present invention has been proposed to solve the above problems in view of the above problems, the object of which is to always measure the dust concentration in the storage room to reduce the dust concentration in order to prevent in advance the dust explosion accident of coal loaded in the closed storage. The present invention provides a method and apparatus for suppressing dust ignition in an enclosed storage.

The present invention for achieving the above object is a sealed storage and the coal is loaded therein,

Dust measuring means disposed in the reservoir and irradiating laser light in an indoor atmosphere of the reservoir, and receiving the irradiated laser light to convert the amount of reduction of the received laser light into an electrical signal;

A control unit for determining an indoor dust concentration based on the electrical signal of the dust measuring means, and outputting a control signal corresponding to the determined indoor dust concentration;

And a spray operation unit for spraying water into the indoor atmosphere of the reservoir through a spray nozzle disposed inside the reservoir when the indoor dust concentration determined by the controller is higher than a preset value by receiving the control signal of the controller. It features.

The dust measuring means is disposed on one side of the inside of the reservoir and the light emitting unit for emitting the laser light to the indoor atmosphere of the reservoir;

A reflector disposed at the other side of the reservoir to reflect the laser light emitted from the light exiting part;

A light receiving unit which receives the laser light reflected through the reflector;

And a photoelectric conversion unit for comparing the laser light received from the light receiving unit with the laser light irradiated from the light emitting unit, and converting the reduced amount of the laser light into an electrical signal.

Another example of the dust measurement means of the present invention, is disposed on one side of the inside of the reservoir and the light emitting unit for emitting the laser light to the indoor atmosphere of the reservoir;

A light receiving unit disposed at the other side of the reservoir to receive laser light emitted from the light exiting unit;

And a photoelectric conversion unit for comparing the laser light received from the light receiving unit with the laser light irradiated from the light emitting unit, and converting the reduced amount of the laser light into an electrical signal.

The spray operation unit preferably further includes a timer for limiting the time operated by the control signal of the control unit.

Another characteristic element of the present invention is a method of suppressing dust ignition in an enclosed storage room, irradiating laser light into an indoor atmosphere of an enclosed storage room where coal is loaded therein, and based on the amount of laser light that is changed when the laser light is emitted and received. Measuring the indoor dust concentration in the reservoir;

Comparing the measured indoor dust concentration with a predetermined set value and outputting a control signal when the indoor dust concentration is higher than the set value;

And spraying water into the indoor atmosphere of the reservoir through a spray nozzle disposed inside the reservoir through the spray operation unit operated by receiving the output control signal, wherein the concentration of the indoor dust is reduced. .

The present invention is to measure the coal dust concentration of the storage having an enclosed indoor space to prevent ignition in advance, according to the present invention is to continuously measure the concentration of dust floating in the indoor atmosphere of the storage, By spraying water in the air when it is above the set value to suppress the scattering of dust, it has a useful effect that can reduce the dust concentration to prevent ignition in advance.

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

The dust ignition suppression method and apparatus thereof of the hermetic storage according to the present invention will be described with reference to FIGS. 1 and 3. First, the configuration of the dust ignition suppression apparatus is loaded with coal (C) in the form of a pile and the coal (C). The laser generating unit 100 is provided with an airtight reservoir 10 for dispensing the light into and out of the container 10, and is disposed on one inner wall of the reservoir 10 and has a light emitting part and a light receiving part 210 for emitting and receiving laser light. ), A reflector 300 disposed on the other inner wall of the reservoir 10 to reflect the laser light emitted from the light exiting part 110 of the laser generating part 100 toward the light receiving part 210, and the light receiving part 210. Based on the electrical signal of the photoelectric conversion unit 400 and the photoelectric conversion unit 400 to compare the intensity of the laser light received from the light exit unit 110 to convert the reduced amount of laser light into an electrical signal Determine indoor dust concentration and judge indoor The control unit 500 outputs a control signal corresponding to the true concentration, and when the indoor dust concentration determined by the control unit 500 is higher than the preset value by receiving the control signal from the control unit 500, It consists of a spray actuator 600 for spraying water into the indoor atmosphere of the reservoir 10 through the spray nozzle 50 disposed.

In more detail, the dust measuring means including the laser generating unit 100 and the photoelectric conversion unit 400 is for measuring the concentration of coal dust contained in the atmosphere of the storage 10, and the light is emitted from the light emitting unit 110. Compared to the intensity of the laser light and the intensity of the laser light received by the light receiving unit 210 has a function of measuring the indoor dust concentration corresponding to the amount of reduction of the laser light.

The photoelectric conversion unit 400 has a function of converting light intensity into an electrical signal using a photoelectric conversion element.

The spray nozzles 50 are disposed in plural to be spaced apart from each other in the reservoir 10 and spray water into the indoor atmosphere of the reservoir 10 in the form of a spray when the spray operation part 600 is operated.

In addition, the spray operation unit 600 may employ a solenoid valve as an example, and when the dust concentration of the measured reservoir 10 is less than or equal to the set value, the operation of the spray operation unit 600 is automatically stopped.

On the other hand, it is preferable to further include a known timer 650 to limit the operation time of the spray nozzle 50 to limit the operation time of the spray operation unit 600 to be made for a predetermined time.

However, since the dust measurement means always measures the dust concentration in the storage 10, the timer 650 may be omitted.

The light emitter 110 and the light receiver 210 of the laser generator 100 are disposed at positions spaced apart from each other up and down, and the reflector 300 is viewed from the side to reflect the irradiated laser toward the light receiver 210. It has a structure that is installed at an inclined angle so that the upper part is leaned compared to the lower part.

In addition, in order to accurately measure the indoor dust concentration in the storage 10, it is preferable to include a plurality of dust measuring means disposed in the storage 10.

Referring to the operation of the present invention having such a configuration as follows.

According to an embodiment of the present invention, the dust ignition suppression method always measures the dust concentration contained in the indoor atmosphere of the sealed storage 10, and the spray nozzle 50 when the measured dust concentration is higher than a predetermined set value. Spraying water into the indoor atmosphere of the reservoir 10 to reduce the dust concentration.

In the step of measuring the dust concentration, when the light exit unit 110 of the laser generating unit 100 emits the laser toward the reflecting mirror 300 side, the laser is reflected in the reflector 300 to be refracted toward the light receiving unit 210 side, the light receiving unit ( The amount of laser light absorbed and scattered by the dust in the process of irradiating the laser to the indoor atmosphere of the storage room 10 is compared with the intensity of the laser light received by the light emitter 110. After calculating, the amount of reduction of the calculated laser light is converted into an electrical signal by the photoelectric conversion unit 400.

Subsequently, the electrical signal of the photoelectric conversion unit 400 is applied to the control unit 500 side, and after calculating the dust concentration value corresponding to the electrical signal based on the data stored in the control unit 500, the predetermined dust concentration (ignition) Higher than the easy dust concentration) to drive the spray operation (600).

At this time, the control unit 500 operates the spray operation unit 600 to output an electrical control signal to supply water to the spray nozzle 50 side.

Subsequently, when the timer 650 is provided, the spray operation unit 600 sprays water through the spray nozzle 50 for a time set in the timer 650.

Accordingly, the dust particles suspended in the atmosphere in the reservoir 10 sink due to moisture ignition with water sprayed into the atmosphere, thereby suppressing dust from being scattered in the atmosphere.

FIG. 2 is a view showing another embodiment of the present invention, in which components different from those in the previous embodiment are the same, but the light emitting unit 110 of the laser is disposed on one inner wall of the reservoir 10 and the light receiving unit 210 is formed. It is arranged on the other inner wall of the reservoir 10 to receive the laser light emitted from the light exit unit 110.

This allows the light receiving unit 210 to perform a function of the reflector 300 of the embodiment, so that the intensity of the laser light emitted from the light emitting unit 110 and the light receiving unit 210 are received while the reflector 300 is omitted. It is to measure the dust concentration of the room 10 using the reduced amount of the laser light.

In addition, since the functions of the photoelectric conversion unit 400 and the control unit 500 are the same as in the previous embodiment, redundant descriptions will be omitted.

1 is a block diagram showing an embodiment of a dust ignition suppression method and apparatus therefor according to the present invention.

2 is a block diagram showing another embodiment of the present invention.

3 is a state diagram used in the present invention.

Explanation of symbols on the main parts of the drawings

10: storage 50: spray nozzle

100: laser generating unit 110: light output unit

210: light receiver 300: reflector

400: photoelectric conversion unit 500: control unit

600: spray operation unit 650: timer

C: coal

Claims (5)

An enclosed reservoir 10 in which coal (C) is loaded, Dust measuring means disposed in the reservoir 10 and irradiating laser light in the indoor atmosphere of the reservoir 10, receiving the irradiated laser light, and converting a reduction amount of the received laser light into an electrical signal; A control unit 500 for determining the indoor dust concentration on the basis of the electrical signal of the dust measuring means, and outputting a control signal corresponding to the determined indoor dust concentration; When the indoor dust concentration determined by the control unit 500 is higher than a preset value by receiving the control signal from the control unit 500, the storage unit 10 is provided through the spray nozzle 50 disposed inside the storage unit 10. Dust ignition suppression apparatus of a closed reservoir characterized in that it comprises a spray operation unit 600 for spraying water into the indoor atmosphere of the). The method according to claim 1, The dust measuring means is disposed on one side of the inside of the reservoir 10 and the light emitting unit 110 for emitting the laser light to the indoor atmosphere of the reservoir 10, A reflector 300 disposed at the other side of the reservoir 10 and reflecting the laser light emitted from the light exiting unit 110; A light receiving unit 210 for receiving laser light reflected through the reflector 300, And a photoelectric conversion unit 400 for comparing the laser light received from the light receiving unit 210 with the laser light irradiated from the light emitting unit 110 and converting the reduced amount of the laser light into an electrical signal. Dust ignition suppression apparatus in closed storage. The method according to claim 1, The dust measuring means An output unit 110 disposed at one side of the storage 10 and emitting laser light into an indoor atmosphere of the storage 10; A light receiving unit 210 disposed at the other side of the storage 10 and receiving the laser light emitted from the light exiting unit 110; And a photoelectric conversion unit 400 for comparing the laser light received from the light receiving unit 210 with the laser light irradiated from the light emitting unit 110 and converting the reduced amount of the laser light into an electrical signal. Dust ignition suppression apparatus in closed storage. The method according to any one of claims 1 to 3, The spray operation unit 600 further comprises a timer (650) for limiting the time operated by the control signal of the control unit 500, the dust ignition suppression apparatus of the sealed storage. Irradiate the laser light into the indoor atmosphere of the hermetic reservoir 10 in which coal (C) is loaded therein, and measure the concentration of indoor dust in the reservoir 10 based on the amount of laser light that is changed when the laser light is emitted and received. To do that, Comparing the measured indoor dust concentration with a predetermined set value and outputting a control signal when the indoor dust concentration is higher than the set value; The water is sprayed into the indoor atmosphere of the reservoir 10 through the spray nozzle 50 disposed inside the reservoir 10 through the spray operation unit 600 operated by receiving the output control signal. A method for suppressing dust ignition in a sealed storage, characterized in that it comprises the step of reducing the dust concentration.

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