KR101123042B1 - Collective protection system and method thereof for the chemical, biological and radiological warfare agent - Google Patents

Abstract

PURPOSE: A nuclear-biological-chemical population protection system and a control method thereof are provided to protect labor and equipment from exterior pollution. CONSTITUTION: A nuclear-biological-chemical population protection system comprises a protection chamber(10), a nuclear-biological-chemical filter(20), a constant-rate valve(40), and a controller(50). The protection chamber protects persons and equipment from external contaminated air. The nuclear-biological-chemical filter is installed outside the protection chamber and is connected to air conditioning equipment(30). The constant-rate valve is opened or shut according to the pressure. In the controller, a sensor measuring pressure and temperature of the protection chamber is connected.

Description

CBR collective protection system and its control method {COLLECTIVE PROTECTION SYSTEM AND METHOD THEREOF FOR THE CHEMICAL, BIOLOGICAL AND RADIOLOGICAL WARFARE AGENT}

One embodiment of the present invention relates to a NBC collective protection device that protects the personnel and equipment inside the protected space (chamber) from external pollution by using under the CBR situation.

As a way to protect the collective personnel and equipment inside the space to be protected under the CBR, firstly, there is a closed method to completely prevent the outside polluted air from entering the protected space by completely enclosing the inside of the space. Over time, there is a disadvantage in that it is impossible to stay for a long time due to the increase in the concentration of carbon dioxide emitted by internal personnel and the like and the temperature rise.

Second, it is a method proposed to allow long-term stay inside the protected space by supplementing the disadvantages of the closed group protection method, and it is attached with a CNS filter that can continuously supply the respirable air into the protected space by purifying the polluted air from the outside. One ventilation group protection method is widely used.

However, the conventional technology is operated in such a way that the CFC filter that supplies purified fresh air, the pressure regulator that regulates the positive pressure inside the air, and the air conditioner that adjusts the temperature, etc. operate in order to reach the optimum operating conditions. Since it is necessary to set operating conditions through trial and error, significant difficulties may arise in maintaining optimal operating conditions in case of emergency.

Therefore, it may be considered to build a more efficient system by improving this.

An object of the present invention is to provide a system that can safely protect the personnel and equipment inside the protected space (chamber) by using the environment under the CBR discharge, unlike the existing by automatically reaching the optimum operating conditions from external pollution will be.

Another object of the present invention is to provide a system having a more improved structure and capable of maintaining an optimal operating state in the event of an emergency.

In order to achieve the above object of the present invention, the CBR protection system according to an embodiment of the present invention, the protection is formed to be sealed from the outside, to maintain a positive pressure higher than atmospheric pressure by receiving a constant temperature of air from the air conditioner A chamber, connected to a CBR filter and a temperature sensor and a pressure sensor for purifying contaminated external air and supplying the air conditioner to the air conditioner, disposed in the protection chamber, and maintaining a constant pressure and temperature in the protection chamber. And a controller for controlling an air conditioner or the CBR filter, wherein the controller is configured to control whether direct air flows directly into the HVAC and whether the CBR filter operates according to whether a CBC condition occurs.

And a constant flow valve formed through the inside and the outside of the protection chamber to open when the pressure in the protection chamber is higher than or equal to a predetermined pressure to maintain the pressure in the protection chamber.

According to an example related to the present invention, the CBR filter further includes a filter body including an inlet and an exhaust duct, and a dust separator, a particle filter, and a gas filter disposed to be connected to each other to purify the air introduced into the filter body. It may include.

According to an example related to the present invention, the CBR filter may include a first blower for introducing external air into the inlet duct and a second blower for discharging the air filtered from the filter body to the air conditioner.

According to an example related to the present invention, the filter body may include a plasma reactor for generating a plasma, a catalytic reactor mixed with or separated from the plasma reactor, and a catalyst reactor and an toxic substance filled with an adsorbent or a catalyst and decomposed by plasma. It may include an absorption reactor for absorbing decomposition products generated by decomposition by the catalytic reaction.

According to an example related to the present invention, the air conditioner may be formed to operate separately from the evaporator and the condenser.

In addition, another embodiment of the present invention to open and close the valve is formed so as to directly enter the air conditioner from the outside, according to whether the CB situation occurs, and determining the operation of the CFC filter connected to the air conditioner, Supplying air to maintain a constant positive pressure inside the protection chamber by controlling the air conditioner, adjusting an air supply amount of the air conditioner or the CBR filter based on signals output from a temperature sensor and a pressure sensor; and When the air in the protection chamber is above a certain pressure, a method of controlling the NBC protection system comprising opening the constant flow valve and releasing the air in the protection chamber to the outside.

The CBR protection system according to at least one embodiment of the present invention configured as described above can automatically adjust the air supply amount and the heating and cooling load in real time by using a CFC filter, an air conditioner, and a controller connected thereto in comparison with a conventional apparatus.

In addition, it is possible to compensate for the disadvantages of the conventional system, which may cause a considerable difficulty in setting the operating conditions through several trials and errors and maintaining the optimum operating state in case of emergency in order to reach the optimum operating condition.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the configuration of a comprehensive CBR protection system of the present invention.

EMBODIMENT OF THE INVENTION Hereinafter, the NBC group protection system which concerns on this invention, and its control method are demonstrated in detail with reference to drawings. The suffix "module" and " part "for the components used in the following description are given or mixed in consideration of ease of specification, and do not have their own meaning or role. In the present specification, different embodiments are given the same or similar reference numerals for the same or similar configurations, and the description is replaced with the first description. As used herein, the singular forms "a", "an" and "the" include plural forms unless the context clearly indicates otherwise.

In order to achieve the object of the above object, the present invention is connected to the CBR filter, air conditioner, constant flow valve and temperature and pressure sensor attached to / connected to the protection chamber (protection space) under the CFC, so that the temperature and the positive pressure inside the chamber can be properly adjusted. To provide a technology for a comprehensive CBR protection system and method consisting of a CBR filter and a controller for automatically adjusting the heating and cooling system to maintain.

Detailed description of the preferred embodiment will be made with reference to FIG. 1.

Comprehensive CBR protection system according to the present invention includes a protective chamber (10) for protecting the capacities and equipment from external CFC contamination air; CBR filter 20 installed outside the protection chamber 10 and connected to the air conditioner 30; Like the CBC, the air conditioner 30 is installed outside the protection chamber 10 and the discharge port is connected to the protection chamber 10; A fixed flow rate valve 40 attached to the protection chamber so that the air of a certain flow rate is discharged to the outside of the protective space by a certain pressure at a pressure higher than a predetermined pressure so as to maintain a constant positive pressure therein; Sensors for measuring pressure (60) and temperature (70) inside the protection chamber are connected and also connected to NBC filter and air conditioner so that the temperature / pressure inside the protection space can maintain the preset temperature / pressure value. A controller 50 capable of automatically adjusting the air supply amount and the cooling / heating load of the NBC filter and the air conditioner; It includes.

The NBC protection chamber 10 is a closed chamber capable of protecting the internal capacity and equipment of the internal combustion air pollutant from the outside or the vehicle, aircraft, containers, rooms, buildings that need to protect the personnel or equipment therein It may be made including a sealable structure such as the inside.

The NBC protection chamber 10 is sealed from the outside and is formed to maintain a positive pressure higher than atmospheric pressure by receiving air of a predetermined temperature from the air conditioner.

The NBC pollutant air contains organophosphorus compounds, sulfur or nitrogen-containing compounds, cyanide-based compounds, chlorine or fluorine-containing compounds, pathogenic bacteria, viruses and toxins that can be used as biological weapons. Radioactive fallout or pollutants.

The CBR 20 is formed to purify the contaminated external air during CBR and supply it to the air conditioner.

The CBR 20 consists of a dust separator, a particle filter, a gas filter, a blower, a filter body assembly, an inlet and an exhaust duct, etc., and cleans contaminated air outside the protection chamber in the event of a CBR. Serves as a feeder. The air outlet of the NBC is configured to be connected to the air inlet of the air conditioning unit 30 so that the purified air passes through the air conditioning unit.

To this end, the NBC filter may include a first blower for introducing external air into the inlet duct and a second blower for discharging the air filtered from the filter body to the air conditioner.

And the filter body may be formed to purify the air by the plasma reaction. In this case, the filter body is generated by a plasma reactor for generating a plasma, a catalytic reactor mixed with or separated from the plasma reactor, and a catalyst reactor and an toxic substance filled with an adsorbent or catalyst are decomposed by a plasma decomposition reaction and a catalytic reaction. It may be formed by including an absorption reactor to absorb the decomposition products.

As the plasma reactor, various kinds of plasma reactors may be used, but a reactor by 'Dielectric Barrier Discharge (DBD)' may be used.

Plasma discharge using a dielectric barrier occurs between two metal electrodes and at least one of the two metal electrodes (or both electrodes) is coated with a dielectric material so that no direct discharge current flows between the two metal electrodes. It is preferable to make plasma discharge temperature into the range of room temperature-450 degreeC.

In the present invention, the adsorbent or catalyst supported on the catalytic reactor is preferably in the form of beads or pellets, as well as in the form of granular catalyst aggregates or honeycomb. As the material to be used, metal oxides such as alumina, noble metals such as Pt, Pd, and Rh, transition metal oxides such as CrO _x and CuO _X, and molecular sieves such as Zeolite 13X can also be applied. In addition, semiconductor materials such as titanium dioxide (TiO ₂ ), zirconia (ZrO ₂ ), and SnO ₂ that can be used as photocatalysts may also be used.

In particular, when the semiconductor materials are filled, the effect as a photocatalyst may also be expected by ultraviolet rays generated during plasma discharge.

Meanwhile, the absorption reactor is a dry absorption cleaning device mainly absorbing and removing acidic harmful gases, which are discharged as decomposition products as toxic substances are decomposed in the plasma / catalyst reactor, and are disposed at the rear of the plasma / catalyst reactor. As absorbents, basic oxides such as CaCO ₃ , CaO, ZnO, MgO, etc. are used, or impregnated or doped materials are used to increase the absorption of acidic gases in activated carbon. monolith) is advantageous to use. In addition, residual ozone discharged to the rear of the plasma / catalyst reactor may be removed by reaction with activated carbon and may also be removed using a MnO ₂ / CuO mixture.

The air conditioner (30) controls the temperature of air supplied from the CBR and the air circulated from the protection chamber (10) to serve to reach a predetermined temperature inside the chamber, the evaporator as necessary And condensation unit can be manufactured or operated separately or in one piece.

In addition, the air inlet duct is included so that external air can be directly introduced when the CFC filter is not normally operated, and a valve 80 is installed to block or open the flow path of the duct.

That is, when the CBR filter is operated, the valve 80 is blocked to prevent inflow of outside air, and the valve 80 is normally opened so that the outside air is supplied to the air conditioner through the valve.

The constant flow valve 40 is formed through the inside and outside of the protection chamber to open when the pressure in the protection chamber is above a predetermined pressure to maintain the pressure in the protection chamber.

The constant flow valve 40 is closed when the positive pressure inside the protective chamber does not reach the preset value, thereby preventing external contaminated air from penetrating into the chamber. It plays a role to keep the internal pressure optimal.

In one embodiment, the constant flow valve 40 is operated (opened) when the pressure inside the protective chamber is higher than a predetermined pressure (for example, 0.5 mbar) to start the discharge of the internal air, and gradually discharges as the pressure rises. This increased flow rate linearly controlled valve or simply a positive pressure valve that opens when the pressure inside the chamber is above the appropriate positive pressure level (eg 2.5 mbar) can be used for attachment.

The controller 50 is connected to a temperature sensor and a pressure sensor and is disposed in the protection chamber, and controls the air conditioner or the CBR filter to maintain a constant pressure and temperature in the protection chamber.

And, according to whether the CBR situation occurs, it controls whether or not the direct air flows into the air conditioner and the operation of the CBR filter.

The controller 50 is connected to the pressure measuring sensor 60 and the temperature measuring sensor 70, and these are configured to measure the pressure and temperature inside the chamber in real time and to be supplied to the controller.

In addition, the controller is also connected to the CBR 20 and the air conditioner 30 to adjust the operation of these equipment, that is configured to automatically control the air supply and heating and heating load to achieve the optimum positive pressure and temperature. In addition, in the case of the controller, the automatic control function and the manual mode function can be simultaneously provided to adjust the CBR and air conditioner manually if necessary.

In some embodiments, it is desirable for the pressure inside the protective chamber to be controlled within 1.5 to 4.5 mbar and the optimum pressure to be 2.5 mbar.

The control method of the NBC protection system includes opening and closing a valve formed to directly enter an air conditioner from the outside according to whether a CBC condition occurs, and determining an operation of a CBC filter connected to an air conditioner, and controlling the air conditioner to control the inside of the protection chamber. Supplying air so as to maintain a constant positive pressure, adjusting an air supply amount of the air conditioner or the CBR filter based on signals output from the temperature sensor and the pressure sensor, and the air in the protection chamber is equal to or greater than a certain pressure. When the constant flow valve is opened, the air in the protection chamber may be discharged to the outside.

If the NBC situation is not necessary, the NBC filter does not need to be operated, and thus the power supply to the NBC filter is cut off. The control unit opens the valve 80 connected to the air conditioner from the outside to introduce the outside air, and to cool or heat through the air conditioner to supply to the protection chamber.

On the other hand, in the NBC situation, the valve is closed and the NBC filter is operated. The control unit closes the valve 80 connected to the air conditioner from the outside, operates the CBR filter to purify the outside air and supplies it to the air conditioner. Then, after cooling or heating through the air conditioner and supply to the protection chamber.

The control unit senses the temperature and pressure in the protection chamber, and adjusts the inflow of air through the air conditioner and the NBC filter or controls the temperature of the inflow air based on the detected result. In addition, the control unit is configured to simultaneously control whether the valve is open or closed and whether the NBC filter operates.

The controller controls the inside of the protection chamber to a predetermined positive pressure above atmospheric pressure. When the positive pressure is above a predetermined positive pressure, the constant flow valve may be opened and air in the protection chamber may be discharged to the outside.

The CBR group protection system and its control method described above are not limited to the configuration and method of the above-described embodiments, but the embodiments may be modified in whole or in part to enable various modifications. It may alternatively be configured in combination.

Claims (7)

A protection chamber sealed from the outside and configured to maintain a positive pressure higher than atmospheric pressure by receiving air of a predetermined temperature from the air conditioner;
CBR filter to purify the polluted external air during the CBR and supply it to the air conditioner; And
A controller connected to a temperature sensor and a pressure sensor and disposed in the protection chamber, the controller controlling the air conditioner or the CBR filter to maintain a constant pressure and temperature in the protection chamber,
The controller,
Depending on whether the CBR situation occurs, it controls whether direct air flows into the air conditioner and whether the CBR filter operates.
The CBR filter,
A filter body comprising an inlet and an exhaust duct; And
And a dust separator, a particle filter, and a gas filter disposed to be connected to each other to purify the air introduced into the filter body. The method of claim 1,
And a constant flow valve formed through the inside and the outside of the protection chamber to open when the pressure in the protection chamber is higher than or equal to a predetermined pressure to maintain the pressure in the protection chamber. delete The method of claim 1,
The CBR filter,
A first blower for introducing external air into the inlet duct; And
And a second blower for discharging the filtered air from the filter body to the air conditioner. The method of claim 1,
The filter body,
A plasma reactor for generating a plasma;
A catalytic reactor mixed with or separated from the plasma reactor and filled with an adsorbent or a catalyst; And
NBC protection system characterized in that it comprises an absorption reactor for absorbing decomposition products generated by decomposition of the toxic substances by the decomposition reaction and the catalytic reaction by plasma. The method of claim 2,
The air conditioning unit is characterized in that the evaporation unit and the condensation unit is formed to operate separately. delete

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