KR20120039276A - Apparatus and method for suppressing explosion of dangerous material - Google Patents

Abstract

PURPOSE: An apparatus and a method for suppressing explosion of dangerous material are provided to maintain operation rate of a production facility handling dangerous materials because steam vapor rate of the dangerous material is detected without stopping operation of a process and a facility handling the dangerous materials in order to prevent explosion. CONSTITUTION: An apparatus for suppressing explosion of dangerous material comprises a detector(10), a noncombustible injector(20), and a receive controller(30). The detector is arranged inside a dangerous material storage facility to detect steam vapor of dangerous materials. The noncombustible gas injector receives signal from the detector to be injected into the dangerous material storage facility. The receive controller comprises a measuring unit(32) and a gas rate computation unit(34). The measuring unit measures steam vapor rate of the dangerous material detected from the detector. The gas rate computation unit computes noncombustible gas rate to be injected according to the steam vapor rate measured in the measuring part.

Description

Hazardous material explosion suppression device and suppression method {APPARATUS AND METHOD FOR SUPPRESSING EXPLOSION OF DANGEROUS MATERIAL}

The present invention relates to a dangerous goods explosion suppression apparatus and a suppression method, and more particularly, to a dangerous goods explosion suppression apparatus and a suppression method for introducing a non-combustible gas into the dangerous goods storage facility in order to suppress the explosion of dangerous goods stored in the dangerous goods storage facility.

Flammable and combustibles such as oils, paints, rubbers, urethane foams and other petrochemicals have flash points below room temperature, so these materials generate volatile organic compounds in the form of flammable gases. Explosion occurs when an ignition source such as spark or static electricity is generated while the gas is properly mixed with air (oxygen in the air).

Dangerous substances, such as those with a high risk of fire, are called dangerous goods.In Korea, dangerous goods have been designated by the Dangerous Goods Safety Management Act, and the matters related to storage, handling and transportation of dangerous goods, and safety management accordingly are specified. To prevent public safety by ensuring public safety. There are strict limits on the types and target sizes of dangerous goods for facilities that store or store dangerous goods.

If the dangerous goods reach a certain concentration after the leakage of the vapor of the dangerous goods and for a certain period of time, an explosion may occur due to the generation of an ignition source such as spark or static electricity. The explosive range that defines the concentration that can explode according to each dangerous goods is called the explosive range.

division Water quality Explosion range (vol%)





volatility
Organic compounds Methane (CH ₄ ) 5.0 to 15.0 Ethane (C ₂ H ₆ ) 3.0 to 12.5 Propane (C ₃ H ₈ ) 2.4 to 9.5 Butane (C ₄ H ₁₀ ) 1.9 to 8.5 Pentane (C ₅ H ₁₂ ) 1.5 to 7.8 Acetylene (C ₂ H ₂ ) 2.5 to 81.0 Benzene (C ₆ H ₆ ) 1.3 to 7.1 Toluene (C ₆ H ₅ (CH ₃ )) 1.1 to 7.1 Hydrogen Cyanide (HCN) 6.0-41.0 Chlorobenzene (C ₅ H ₅ N) 1.8 to 12.4 Aniline (C ₆ H ₅ NH ₂ ) 1.3 to 11.0 Hydrogen (H ₂ ) 4.0 to 74.5

<Gas explosion range of volatile organic compounds>

The explosion range is expressed as the volume (volume) of the combustible gas in the mixture of air and combustible gas, and is defined as the maximum concentration (upper limit) and the lowest concentration (lower limit) that can combust. If the lower limit is low, even a small leak of gas can easily cause combustion or explosion. If the lower limit is high, a large amount of gas must be leaked to indicate combustion or explosion. For example, in Table 1, the lower limit of methane (CH ₄ ) is 5.0 and propane (C ₃ H ₈ ) is 2.4, so that propane may explode more easily than methane.

As such, if the dangerous vapor falls within the explosion range, the device may be easily exploded by the ignition source, and thus, a device is required to prevent the dangerous vapor from entering the explosion range.

The present invention provides a dangerous goods explosion suppression apparatus for detecting the amount of dangerous goods vapor in the dangerous goods storage facility so that the dangerous goods do not reach the explosive range.

In another aspect, the present invention provides a dangerous goods explosion suppression apparatus that can prevent the explosion accident by the dangerous goods and can perform a safe operation.

Dangerous goods explosion suppression apparatus according to the present invention is disposed inside the dangerous goods storage facility at least one detector for detecting the vapor of the dangerous goods; It includes; a non-combustible gas injector for receiving a signal from the detector to inject a non-combustible gas into the dangerous goods storage facility.

In the dangerous goods explosion suppression apparatus according to the present invention, Measuring unit for measuring the amount of vapor of the dangerous goods detected from the detector; It is preferable to have a receiving controller including; a gas amount calculation unit for calculating the amount of non-combustible gas to be input according to the amount of steam measured by the measuring unit and transmitting to the non-combustible gas injector.

In the dangerous goods explosion suppression apparatus according to the present invention, the non-combustible gas injector is disposed inside the dangerous goods storage facility at least one injection head for injecting non-combustible gas; And a gas supply pipe configured to transfer the non-combustible gas to the injection head, wherein the non-combustible gas supply pipe is supplied with the non-combustible gas from the non-combustible gas storage unit connected to the supply pipe, or from the external non-combustible gas supply equipment.

The reception controller preferably further includes a signal transmission unit for notifying an operator of an abnormal signal.

The non-combustible gas injector preferably further includes a pressure adjusting unit for adjusting the pressure of the incombustible gas introduced.

Dangerous goods explosion suppression method according to the invention comprises the steps of detecting the vapor of the dangerous goods in the dangerous goods storage facility; And injecting a non-combustible gas into the dangerous goods storage facility when the detected vapor amount of the dangerous goods exceeds a preset range.

In the dangerous goods explosion suppression method according to the present invention, after detecting the vapor of the dangerous goods, measuring the amount of the detected dangerous goods; Comprising a step of calculating the required amount of incombustible gas in accordance with the measured amount of the dangerous goods, and the step of injecting the non-combustible gas, it is preferable to add the amount of the non-combustible gas calculated in the step of calculating the amount of the non-combustible gas.

In the dangerous goods explosion suppression method according to the present invention, after detecting the dangerous goods, the step of sounding an alarm to notify the operator; preferably further comprises.

In the dangerous goods explosion suppression method according to the present invention, the non-combustible gas is preferably nitrogen gas.

According to embodiments of the present invention it is possible to detect the amount of dangerous goods vapor in the dangerous goods storage facility so that the dangerous goods do not reach the explosion range.

It is possible to maintain the operation rate of the production equipment handling dangerous goods by detecting the vapor volume of the dangerous goods and preventing the explosion without stopping the operation of the dangerous goods process and the equipment.

It is possible to prevent explosions caused by dangerous goods and to work safely, thereby preventing the loss of lives and property damage caused by explosions.

1 is a conceptual diagram of a dangerous goods explosion suppression apparatus according to a preferred embodiment of the present invention.
2 is a flowchart of a method for suppressing explosion of dangerous goods according to a preferred embodiment of the present invention.

Hereinafter, a dangerous goods explosion suppression apparatus and a suppression method according to the present invention with reference to the drawings will be described in detail. It will be apparent to those skilled in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know. Like numbers refer to like elements in the figures.

1 is a conceptual diagram of a dangerous goods explosion suppression apparatus according to a preferred embodiment of the present invention.

Referring to FIG. 1, the dangerous goods explosion suppressing device according to the present invention includes at least one detector 10 disposed above the dangerous goods storage facility 6 to detect vapors of dangerous goods; It is configured to include; a non-combustible gas injector 20 for receiving a signal from the detector to inject a non-combustible gas into the dangerous goods storage facility.

Dangerous material (5) refers to a liquid or solid material having a high risk of fire as having the properties of flammability, ignition, and the like. For example, a flammable solid that is ignitable or flammable by a flame as a solid, a flammable liquid, solid or liquid at 1 atm and 20 degrees Celsius that is flammable and may be explosive or pyrolytic. Self-reactive substances. The dangerous goods storage facility (6) is a facility that stores, stores, or handles dangerous goods, and is installed after passing basic, ground, appendage, hydraulic, and weld inspections in accordance with the relevant laws such as the Dangerous Goods Safety Management Act and Fire Law. .

The detector 10 is a device for detecting vapors of dangerous goods and is disposed inside the dangerous goods storage facility 6. The dangerous goods 5 continue to evaporate in the dangerous goods storage facility 6 because of the low boiling point and high volatility, and since the vapor of the dangerous goods 5 moves above the dangerous goods storage facility 6, the detector 10 is dangerous goods. It is preferably arranged above the storage facility 6. The detector 10 sends a signal to the non-combustible gas injector 20 when the amount of the dangerous goods vapor more than a preset value is detected according to the type of the dangerous goods 5 stored in the dangerous goods storage facility 6, and the non-combustible gas input 20 is incombustible. Incombustible gas is introduced into the dangerous goods storage facility (6). For example, in the case of methane (CH ₄ ) having an explosive range of 5.0 to 15.0 vol%, if the amount of steam that is detected by the detector 10 is set to 4.9 vol%, the detector may be a non-combustible gas when the amount of vapor detected exceeds this value. Send signal to input 20. At least one detector is preferably provided for the accuracy of the measurement.

The non-combustible gas injector 20 is a device for injecting non-combustible gas into the dangerous goods storage facility 6. When a certain amount of dangerous vapor is detected in the dangerous goods storage facility 6 and receives an input signal from the detector 20, the non-combustible gas is accordingly received. Into the dangerous goods storage facility (6).

Non-combustible gas is a generic term for a gas that does not burn, and refers to a relatively chemically stable gas that does not burn on its own and does not burn other materials. For example, inert gases such as helium, neon, arcon, krypton, and the like, nitrogen gas, carbon dioxide, and the like belong to non-combustible gases.

The incombustible gas injector 20 may further include an injection head 22 and a gas supply pipe 24. The injection head 22 is a device for injecting non-combustible gas into the dangerous goods storage facility 6 and is disposed inside the dangerous goods storage facility 6. The dangerous goods storage facility 6 is a liquid or solid dangerous goods 5 are stored in the lower part therein, and the dangerous goods to be evaporated are located at the upper part, so that the injection head 22 has a dangerous goods storage facility 6 as shown in FIG. It is preferable to be disposed above the inside. A plurality of injection heads 22 may be arranged for efficient injection.

The incombustible gas supply pipe 24 is connected to the injection head 22 to transport the incombustible gas, and receives the incombustible gas from the incombustible gas storage unit 26 connected to the incombustible gas supply pipe 24, or supplies an external incombustible gas supply. Incombustible gas is supplied from the installation 7. A gas control valve (not shown) is attached to the non-combustible gas storage unit 26 to adjust the amount of gas introduced thereto, and when a non-combustible gas is supplied from an external non-combustible gas supply facility 7, a supply valve 29 is used. The amount of gas injected can be adjusted. A non-combustible gas injector 20, preferably a pressure adjusting unit for adjusting the pressure of the non-combustible gas to be injected into the non-combustible gas supply pipe 24, can be adjusted to an appropriate pressure to inject the non-combustible gas.

Dangerous goods explosion suppression apparatus according to the present invention includes a measuring unit 32 for measuring the amount of vapor of the dangerous goods detected from the detector 10; The reception controller 30 may further include a gas amount calculation unit 34 that calculates an amount of incombustible gas to be input according to the amount of steam measured by the measuring unit 32 and transmits the amount of incombustible gas to the incombustible gas injector 20.

When the detector 10 detects the vapor amount of the dangerous goods in the dangerous goods storage facility 6 and sends air inside the dangerous goods storage facility 6 including the dangerous goods 5 vapor through the gas detection tube, the detector 10 is provided in the reception controller 30. The meter 32 measures the amount of vapor of the dangerous goods 5 contained in the internal air. The gas amount calculation unit 34 calculates the required amount of incombustible gas according to the amount of steam using the amount of steam of the dangerous substance 5 measured by the measuring unit 32, and transmits the calculated amount of incombustible gas to the gas injector 20. Do it. When the gas injector 20 receives the calculated amount of incombustible gas, the gas injector 20 enters the dangerous goods storage facility 6 by the amount of the calculated incombustible gas.

An exhaust port (not shown) is provided inside the dangerous goods storage facility 6, and when incombustible gas is input, some of the internal air is exhausted to the outside of the dangerous goods storage facility 6, that is, the internal air containing oxygen is converted into a non-combustible gas. By substituting, the explosive range (concentration) of the dangerous vapor can be lowered.

The reception controller 30 is further provided with a signal transmission unit (not shown). When the vapor of the dangerous goods exceeding a predetermined range is detected by the detector 10, the signal is sent to the signal transmission unit of the reception controller 30 and the signal is received. The transmission unit again transmits an abnormal signal, that is, detection of dangerous goods exceeding a predetermined range, to an operator such as a manned cab or a worker's mobile phone.

Hereinafter, a dangerous goods explosion suppression apparatus and a suppression method according to a preferred embodiment of the present invention with reference to the drawings will be described in detail.

2 is a flowchart of a method for suppressing explosion of dangerous goods according to a preferred embodiment of the present invention.

The dangerous goods 5 stored in the dangerous goods storage facility 6 continue to evaporate, so that the vapor of the dangerous goods 5 moves to the upper part of the dangerous goods storage facility 6, and the steam of the dangerous goods is preliminarily depending on the type of the dangerous goods 5. When the concentration (explosion range) set in the detector exceeds, the detector 10 disposed above the inside of the dangerous goods storage facility (6) detects this (S 10).

When the reception controller 30 is provided, the detected dangerous goods vapor is sent to the measurement unit 32 of the reception controller 30, and the amount of the dangerous goods vapor detected by the detector is measured using the measurement unit 32 (S 20). .

When the measured amount of steam is sent to the gas amount calculating unit 34, the gas amount calculating unit 34 calculates the amount of incombustible gas in accordance with the measured amount of steam in consideration of the type of dangerous goods, the explosive range, and the like (S30). The required amount of non-combustible gas means the amount of non-combustible gas that dilutes the concentration of the vapor of the dangerous goods so that the dangerous goods are lower than the lower limit of the explosive range so that the dangerous goods can be handled stably.

When the required amount of incombustible gas is calculated, the non-combustible gas is introduced into the dangerous goods storage facility 6 by the required amount (S40). The incombustible gas injector 20 receives the incombustible gas from the incombustible gas storage unit 26 or the incombustible gas supply facility 7, and injects the incombustible gas into the dangerous goods storage facility 6 through the injection head 22. The required amount of incombustible gas may be adjusted through a gas control valve when supplied through the incombustible gas storage unit 26 and through a supply valve 29 when supplied through the incombustible gas supply facility 7. And the pressure of the gas supply pipe 24 can be appropriately adjusted through the pressure adjusting unit provided in the gas supply pipe (24). The explosive range (concentration) of the dangerous goods vapor can be reduced by exhausting some of the internal air to the outside of the dangerous goods storage facility 6 through the exhaust port provided inside the dangerous goods storage facility 6 and replacing the internal air with a non-combustible gas. .

The embodiments and drawings attached to this specification are merely to clearly show some of the technical ideas included in the present invention, and those skilled in the art can easily infer within the scope of the technical ideas included in the specification and drawings of the present invention. Modifications that can be made and specific embodiments will be apparent that both are included in the scope of the invention.

5: dangerous goods 6: dangerous goods storage facilities
7: non-combustible gas supply equipment 10: detector
20: incombustible gas injector 22: injection head
24: non-combustible gas supply pipe 26: non-combustible gas storage unit
28: pressure regulator 29: supply valve
30: reception controller 32: measuring unit
34: gas amount calculation

Claims (9)

At least one detector disposed inside the dangerous goods storage facility and configured to detect vapors of the dangerous goods;
A non-combustible gas injector which receives a signal from the detector and injects a non-combustible gas into a dangerous goods storage facility;
Dangerous goods explosion suppression apparatus comprising a.
The method according to claim 1,
A measuring unit measuring an amount of vapor of the dangerous substance detected by the detector;
And a gas amount calculation unit for calculating an amount of non-combustible gas to be input according to the amount of steam measured by the measuring unit and transmitting the amount of non-combustible gas to the non-combustible gas injector.
The method according to claim 1 or 2,
The non-combustible gas injector
At least one spray head disposed inside the dangerous goods storage facility and spraying non-combustible gas; And
And a gas supply pipe configured to transfer a non-combustible gas to the injection head.
The non-combustible gas supply pipe is a hazardous material explosion suppression device receives a non-combustible gas from a non-combustible gas storage connected to the supply pipe, or a non-combustible gas from an external non-combustible gas supply facility.
The method according to claim 2,
The reception controller further comprises a signal transmission unit for notifying a worker of the abnormal signal explosion suppression device.
The method according to claim 3,
The non-flammable gas injector further includes a pressure adjusting unit for adjusting the pressure of the non-combustible gas is injected.
Detecting vapors of the dangerous goods in the dangerous goods storage facility;
Injecting a nonflammable gas into the dangerous goods storage facility when the detected vapor amount of the dangerous goods exceeds a preset range;
Dangerous goods explosion suppression method comprising a.
The method of claim 6,
After detecting the vapor of the dangerous substance, measuring the amount of the dangerous substance detected;
Calculating a required amount of incombustible gas according to the measured amount of the dangerous goods;
The step of injecting the incombustible gas is a dangerous material explosion suppression method of injecting the amount of the incombustible gas calculated in the step of calculating the amount of incombustible gas.
The method of claim 6,
After detecting the dangerous goods, to alert the worker by sounding an alarm; dangerous goods explosion suppression method further comprising.
The method according to any one of claims 6 to 8,
Nonflammable gas is nitrogen gas.

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