RU2756258C1 - Gas separation device for creating a breathable fire-suppressing hypoxic atmosphere - Google Patents

Abstract

FIELD: fire protection.

SUBSTANCE: invention relates to fire-fighting equipment, namely to methods and devices for the prevention and exclusion of fire, fire containment with a limited supply of extinguishing agent in the form of a life-supporting hypoxic atmosphere controlled by signals from the danger zone. The gas separation device for creating a breathable fire-suppressing hypoxic atmosphere contains a working cabinet in which a gas distribution module is located, connected to a compressed air supply compressor with a pressure of 3-11 bar, equipped with a compressed air dryer and fine filters, while the gas separation module is made with the possibility of separating compressed air according to the degree of oxygen saturation into permeate-oxygen-enriched composition of the atmosphere and retentate-hypoxic composition, depleted in oxygen, with the possibility of its separation into a gas mixture, including: oxygen from 10% to 16%; inert gases; water vapor; carbon dioxide in quantities suitable for breathing with constant use as a fire-preventing atmosphere, or a gas mixture with an oxygen content of 9% to 12% for occasional use as a fire extinguishing agent. The gas separation device contains a gas separation module, including a hollow housing, in which a block of hollow-fiber tubular membranes is placed, consisting of a bundle of porous polymer fiber with a 10-100 nm thick gas separation layer applied to the outer surface, with the possibility of supplying a separated fraction: permeate of the separated gas into the inter-tube space and a hypoxic fraction: retentate in the form of oxygen-depleted air-into the outlet cavity of the gas distribution module. The block of hollow fiber membranes is hermetically fixed with the ends by means of epoxy collectors in the specified housing. The gas separation module is designed to operate in three modes of separation of the input air. The gas separation device is equipped with throttling means in the form of a system of pressure adjustment valves and oxygen content settings, and connected to a control panel equipped with oxygen sensors installed in protected rooms, it is equipped with a sensor and a temperature and humidity controller.

EFFECT: increase in the fire protection of premises while maintaining the life support of the atmosphere.

6 cl, 2 dwg

Description

The invention relates to fire fighting equipment, and in particular to methods and devices for preventing and preventing fire, fire containment with a limited supply of a fire extinguishing agent in the form of a life-supporting hypoxic atmosphere by controlled signals from a hazardous area.

The most progressive technology for producing a fire suppressing hypoxic atmosphere is based on the use of gas separation devices using membrane technology.

The method of separating gaseous media by means of membrane oxygen plants consists in the difference in the rates of penetration of various components of the gas mixture through the membrane filler. The separation procedure is determined by the difference in partial pressures of different sides of the membrane.

For membrane separation of gases, gas separation membranes are used, hollow fiber membranes, consisting of a porous polymer fiber, applied to the outer surface of a gas separation layer. The hollow fiber membrane is manufactured as a cylindrical cartridge. The use of porous fibers ensures the separation of gases at a high pressure level, up to 6.5 MPa, taking into account the fact that the thickness of the gas separation layer of the membrane does not exceed 0.1 μm, and thereby provides a high level of gas permeability through the polymer membrane.

The existing level of technology development ensures the production of polymeric materials with high selectivity in the separation of various gases with a sufficiently high purity of the separated gaseous products. Moreover, the packing density of the fibers in the cartridge is from 500 to 700 m ^{2 of} polymer fiber per 1 m ^{3 of the} cartridge, which ensures the minimization of the dimensions of innovative oxygen plants.

A gas separation device is known for creating a breathable fire-suppressing hypoxic atmosphere containing a working cabinet in which a gas distribution module is located, communicated with a compressed air supply compressor with a pressure of 3-11 bar, equipped with a compressed air dryer and fine filters, while the gas separation module is configured separation of compressed air according to the degree of oxygen saturation into permeate - oxygen-enriched composition of the atmosphere and retentate - hypoxic composition, oxygen-depleted, with the possibility of its separation into a gas mixture, including: oxygen 10% <О _2> 16%; inert gases; water vapor; carbon dioxide in quantities suitable for breathing with constant use as a fire-preventing atmosphere or a gas mixture with an oxygen content of 8% <О ₂ > 12% for occasional use as a fire extinguishing agent (patent RU No. 2301095 dated 11.26.2019, IPC A62C 3 / 00 (2006.01), A62D 1/06 (2006.01), published: 20.06.2007. Bulletin No. 17).

This technical solution has a set of features that is closest to the set of essential features of the invention, it has a purpose that coincides with the purpose of the technical solution, and is the closest in terms of the achieved result, therefore it is taken as a prototype.

The disadvantages of the prototype are the limited fire protection of the premises and the life support of the internal atmosphere.

The technical result from the use of the claimed technical solution is to increase the fire safety of the premises while maintaining the life support of the atmosphere.

Below are disclosed all the general and particular essential features of the invention, characterizing their causal relationship with the specified technical result, sufficient for the implementation of a specialist in this field of technology.

The gas separation device for creating a breathable fire-suppressing hypoxic atmosphere contains a working cabinet in which a gas separation module is located, which is connected to a compressed air supply compressor with a pressure of 3-11 bar. The device is equipped with a compressed air dryer and fine filters. The gas separation module is made with the possibility of separating compressed air according to the degree of oxygen saturation into permeate - an oxygen-enriched composition of the atmosphere and a retentate - a hypoxic composition, depleted in oxygen, with the possibility of separating it into a gas mixture, including: oxygen 10% <О _2> 16 %; inert gases; water vapor; carbon dioxide in quantities suitable for breathing when used continuously as a fire-prevention atmosphere or a gas mixture with an oxygen content of 10% <O _2> 16% for occasional use as a fire extinguishing agent. The gas separation device contains at least one gas separation module, including a hollow body, in which a block of hollow fiber tubular membranes is placed, consisting of a bundle of porous polymer fiber with a gas separation layer 10-100 nm thick applied to the outer surface, with the possibility of supplying the gas to be separated into the annular space - permeate and hypoxic fraction - retentate in the form of oxygen-depleted air. The block of hollow fiber membranes is sealed at its ends by means of epoxy collectors in the said housing, with the possibility of forming an inlet cavity equipped with an inlet fitting. The inlet cavity is connected to the specified compressor and communicates with the open ends of the fibers. The other end of the block is fixed hermetically in the housing with the possibility of forming an outlet cavity with open ends of the fibers extended into it, equipped with an outlet fitting connected to the pipeline for supplying air to the controlled premises. An annular space in the form of chambers is formed between the said sealed collectors for fastening the membrane unit. One of the chambers is located in the zone 1/3 of the body length from its end on the side of the inlet cavity and is equipped with a fitting connected to the exhaust pipe with a silencer for discharging permeate into the external atmosphere. The gas separation module is designed to operate in three modes of separation of the inlet air: the first mode is a composition with an oxygen content of 10% to 16% and a nitrogen content below 90%, suitable for short breathing with a function to prevent the occurrence of ignition; the second mode - a composition containing oxygen 12% <О ₂ > 16%, suitable for constant breathing with the implementation of functions to prevent ignition; the third mode is a composition in the form of a breathable fire-extinguishing mixture containing oxygen 9% <О ₂ > 12%, and nitrogen below 91% for short-term critical use as a fire extinguishing agent. The extinguishing agent is located in an emergency receiver under a pressure of 11-300 bar, connected to a pipeline connecting all controlled rooms with a circular piping to those mounted on pipe branches, to each of the controlled rooms with solenoid-type exhaust valves. The gas separation device is equipped with throttling means in the form of a system of pressure control valves and settings for the oxygen content in the hypoxic fraction and connected to a control panel equipped with oxygen sensors installed in the protected rooms. It is equipped with a temperature and humidity sensor and regulator at the inlet to the gas distribution modules. Between the inlet fitting and the specified pipeline, a bypass is provided with the possibility of removing the hypoxic atmosphere from the controlled premises by blowing compressed air in front of people entering them. The device can be equipped with an additional container for collecting and storing hypoxic air at a pressure of 2-10 bar with the possibility of batch release of extinguishing agent into the internal environment of the protected room. The device is equipped with a solenoid valve for the release of the extinguishing agent into the protected room through the exhaust nozzle with a silencer installed after it. The outlet of the oxygen extraction device can be additionally communicated with a high-pressure container for supplying a fire-extinguishing agent, which is released into the internal environment when a fire is extinguished. Two or more gas separation modules can be connected in series adjoining identical ones. Two or more gas distribution modules can be connected in parallel in sections by common pipeline headers for air supply and permeate removal, while pipeline headers connecting the retentate outlet openings are spaced relative to the combined sections.

The invention is illustrated in the drawings, where: FIG. 1 - General view of the gas separation device; in fig. 2 - dividing module with a partial longitudinal section.

The gas separation device 1 for creating a breathable fire-suppressing hypoxic atmosphere contains a working cabinet 2, in which a gas separation module 3 is located, communicated with a compressor 4 for supplying compressed air with a pressure of 3-11 bar.

The device is equipped with a compressed air dryer 5 and fine filters 6.

Gas separation module 3 is configured to separate compressed air according to the degree of oxygen saturation into permeate - oxygen-enriched composition of the atmosphere and retentate - hypoxic composition, oxygen-depleted, with the possibility of separating it into a gas mixture including; oxygen 10% <О _2> 16%; inert gases; water vapor; carbon dioxide in quantities suitable for limited breathing when used continuously as a fire-preventing atmosphere or a gas mixture with an oxygen content of 9% <O ₂ > 12% for occasional use as a fire extinguishing agent.

Gas separation device 1 contains at least one gas separation module 3, including a hollow body 7, in which a block 8 of hollow fiber tubular membranes is placed, consisting of a bundle of porous polymer fiber 9 with a gas separation layer deposited on the outer surface with a thickness of 10-100 nm, with the possibility of supplying the separated gas to the annular space 10.

Compressed air is divided into an oxygen-rich fraction - permeate and a hypoxic fraction - retentate in the form of oxygen-depleted air. The block 8 of hollow fiber membranes is hermetically fixed with epoxy collectors 11 at its ends in said housing 7, with the possibility of forming an inlet cavity N, equipped with an inlet fitting 12.

The inlet cavity N is connected to the specified compressor 4 and communicates with the open ends of the fibers 9.

The other end of the block 8 is fixed hermetically in the housing 7 with the possibility of forming an outlet cavity L with open ends of the fibers 8 extended into it, equipped with an outlet fitting 13 connected to the pipeline 14 for supplying air to the controlled premises 15.

Between these sealed manifolds for fastening the membrane unit, an annular space S in the form of chambers 16 is formed.

At least one of the chambers 16 is located in the area 1/3 of the length of the body 7 from its end on the side of the inlet cavity N and is equipped with a fitting 17 communicated with the outlet pipe 18 with a muffler 19 for discharging permeate into the external atmosphere.

Gas separation module 3 is configured to operate in three modes of separation of inlet air: the first mode is a composition with an oxygen content of 10% to 16% and a nitrogen content below 90%, suitable for short breathing with a function to prevent the occurrence of ignition; the second mode - a composition containing oxygen 12% <О ₂ > 16%, suitable for constant breathing with the implementation of functions to prevent ignition; the third mode is a composition in the form of a breathable fire-extinguishing mixture containing oxygen 9% <О ₂ > 12%, and nitrogen below 91%, and nitrogen below 91% for short-term critical use as a fire extinguishing agent.

The extinguishing agent is located in the emergency receiver 20 at a pressure of 11-300 bar, connected to the pipeline 14, connecting all controlled rooms 15 with circular piping mounted on pipe branches, to each of the controlled rooms 15 with solenoid-type exhaust valves 21.

The gas separation device 1 is equipped with throttling means (not shown) in the form of a system of pressure control valves and settings for the oxygen content in the hypoxic fraction and associated with a control panel equipped with oxygen sensors 33 installed in the protected rooms 15.

It is equipped with a 22 sensor and a 23 temperature and 24 humidity regulator at the inlet to the gas distribution modules 3.

Between the inlet fitting 12 and the specified pipeline 14, a bypass 25 is provided with the possibility of removing the hypoxic atmosphere from the controlled premises 15 by blowing them with compressed air before people enter them.

The gas separation device 1 is equipped with an additional capacity 26 for collecting and storing hypoxic air at a pressure of 2-10 bar with the possibility of portionwise release of the extinguishing agent into the inner environment of the protected room 15.

The device is equipped with a solenoid valve 27 for the release of the extinguishing agent into the protected room 15 through the outlet nozzle 28 installed after it with a silencer 29.

The outlet of the oxygen extraction device 1 can be additionally communicated with a high-pressure container for supplying a fire-extinguishing agent, which is released into the internal environment during extinguishing a fire (not shown).

Two or more gas separation modules 3 can be connected in series by adjacent identical cavities or connected by common pipelines of the same name 30.

Two or more gas distribution modules can be connected in parallel in sections by common pipeline headers for air supply and permeate removal, while pipeline headers connecting the retentate outlet openings are spaced relative to the combined sections.

Comparison of the claimed technical solution with the prior art known from the scientific, technical and patent documentation as of the priority date, in the main and adjacent headings, did not reveal a tool that has features identical to all the features contained in the claims proposed by the applicant, including the characteristics of the purpose.

Consequently, the set of essential features of the claimed solution was not previously known and is not identical to any known technical solutions, therefore, it meets the "novelty" condition of patentability.

This technical solution is industrially applicable, since its purpose is indicated in the description of the application and the title of the invention, it can be manufactured industrially and used to ensure the fire protection of the object while maintaining the viability of the atmosphere of the protected premises.

The technical solution is efficient, feasible and reproducible, and the distinctive features of the device make it possible to obtain a given technical result, i.e. are essential.

The invention in the form as it is described in the claims can be carried out using the means and methods described in the prototype - patent RU No. 2301095, which became generally available before the priority date of the invention.

Therefore, the claimed technical solution meets the condition of patentability "industrial applicability".

An analysis of known technical solutions in this field of technology showed that the proposed technical solution does not follow explicitly from the prior art for a specialist, since no solutions have been identified that have features that coincide with its distinctive features, and in the identified such solutions, the knowledge of the influence of distinctive features on the technical result specified in the application materials.

Those. the claimed solution has features that are absent in the known technical solutions, and the use of these features in the claimed set of essential features makes it possible to obtain a new technical result - an increase in the fire protection of premises while maintaining the life support of the atmosphere.

Consequently, the proposed technical solution can only be obtained by a creative approach and is not obvious to the average specialist in this field, i.e. has an inventive step in comparison with the state of the art.

The implementation of the claimed invention is achieved by the implementation of the specified purpose.

The device is installed in a well ventilated engine room and operates as follows. Compressor 4 draws in atmospheric air and compresses it to 6 - 13 atm, after which the compressed air is subjected to drying 5 and filtration in fine filters 6 and processing in an adsorption column 32 to remove oil and ether vapors that can destroy the membrane block.

Then, clean compressed air enters the block 8 of hollow fiber tubular membranes, in which it is divided into an oxygen-enriched fraction - permeate, which is removed into the external atmosphere through the exhaust pipe 18 with a silencer 19 into the external atmosphere and a hypoxic fraction (9% -15% oxygen) - retentate entering the pipeline 14 and controlled premises 15.

In this case, the hypoxic fraction is sent to the protected room 15 to create there a breathable fireproof atmosphere in the range from 10% to 16% in oxygen.

The device operates in an intermittent mode, receiving a command from the control panel 31, which, in turn, receives information from sensors 22, 23, 24 and oxygen sensors 33 installed in rooms 15.

The control panel 31, together with the automation 34 and the control sensor 35, maintains the specified operating mode of the device 1.

More specifically, when hypoxic air is supplied with 10% oxygen and the room protection range is selected from 14% to 15%, the unit is deactivated when the level reaches 14% and is turned on again only when the oxygen level in room 15 rises to 15% due to infiltration of fresh air.

In this case, the protected room 15 is filled with hypoxic air, suitable for breathing for a long time, because the volume of oxygen for breathing at 15% is the same as at an altitude of 2.8 km above sea level, which is safe and even recommended for people with various diseases

When the oxygen level in the room is 15 from 10% to 16%, ignition is practically impossible, which reliably protects against the risk of fire. This is especially important for the protection of premises 15 with especially valuable items in museums, galleries and archives, flammable materials and liquids, and computer data processing centers.

The proposed device allows you to save energy due to automatic deactivation of the system during the period when the lower level of the protection range is reached. it can take many hours until the upper level is reached by infiltration of fresh air and the system is activated.

Due to the supply of hypoxic air, a slightly increased pressure is created in the protected rooms 15, which prevents the penetration of dust and harmful impurities and gases from the outside. This has a positive effect on the condition of the stored items, the operation of computers, etc.

The gas separation device 1 can be in sleep mode until it is activated in the event of a fire and the release of the extinguishing agent from the pressure vessel.

In this case, the device will produce extinguishing agent until the solenoid valve is closed after eliminating the risk of fire and the supply of extinguishing agent in the pressure vessel is fully restored.

The gas separation device 1 can also be in sleep mode until activation and in the event of a pressure drop in the high pressure receiver.

In this case, the device will produce a fire extinguishing agent until its supply in the high-pressure receiver is fully restored. After that, the device turns off automatically,

This solution also significantly reduces energy costs as it does not consume energy in sleep mode.

The gas separation device 1 can be mounted on a truck, floating vehicle, or other mobile platform and delivered to the place of operation.

The implementation of the invention makes it possible to increase the fire safety of the premises while maintaining the life support of the atmosphere, which ensures the achievement of the claimed technical result.

Claims (6)

1. A gas separation device for creating a breathable fire-suppressing hypoxic atmosphere, containing a working cabinet in which a gas distribution module is located, communicated with a compressed air supply compressor with a pressure of 3-11 bar, equipped with a compressed air dryer and fine filters, while the gas separation module is made with the possibility of separating compressed air according to the degree of oxygen saturation into permeate - an oxygen-enriched composition of the atmosphere and a retentate - a hypoxic composition depleted in oxygen, with the possibility of separating it into a gas mixture, including: oxygen from 10% to 16%; inert gases; water vapor; carbon dioxide in quantities suitable for breathing with constant use as a fire-preventing atmosphere, or a gas mixture with an oxygen content of 9% to 12% for occasional use as a fire extinguishing agent, characterized in that the gas separation device contains at least one gas separation module, including a hollow body, in which a block of hollow fiber tubular membranes is placed, consisting of a bundle of porous polymer fiber with a 10-100 nm thick gas separation layer applied to the outer surface, with the possibility of supplying the separated fraction - the separated gas permeate into the annular space and hypoxic fractions - retentate in the form of oxygen-depleted air - into the outlet cavity of the gas distribution module, while the block of hollow fiber membranes is hermetically fixed by the ends by means of epoxy collectors in the specified housing, with the possibility of forming an inlet cavity equipped with an inlet fitting, connected with the specified compressor, and communicated with the open ends of the fibers, while the other end of the block is fixed hermetically in the housing with the possibility of forming an outlet cavity with open ends of the fibers released into it, equipped with an outlet fitting connected to the air supply pipeline to the controlled premises, while Between the said sealed manifolds for fixing the membrane unit, an annular space is formed in the form of chambers, at least one of them is located in the zone 1/3 of the body length from its end on the side of the inlet cavity and is equipped with a fitting communicated with the exhaust pipeline with a silencer for discharging permeate into the outside atmosphere, while the gas separation module is configured to operate in three modes of separation of the inlet air: the first mode is a composition with an oxygen content of 10% to 16% and a nitrogen content below 90%, suitable for short breathing with a function to prevent the occurrence of fire; the second mode - a composition containing oxygen from 12% to 16%, suitable for constant breathing with the implementation of functions to prevent ignition; the third mode is a composition in the form of a breathable fire-extinguishing mixture with an oxygen content of 9% to 12%, and nitrogen content below 91% for short-term critical use as a fire-extinguishing agent, located in an emergency receiver at a pressure of 11-300 bar, communicated with a pipeline connecting all controlled rooms with a circular piping to those mounted on pipe branches, to each of the controlled rooms with solenoid-type exhaust valves, while the gas separation device is equipped with throttling means in the form of a system of pressure control valves and settings for the oxygen content in the hypoxic fraction, and connected to the control panel equipped with oxygen sensors installed in the protected areas, it is equipped with a sensor and a temperature and humidity regulator at the inlet to the gas distribution modules, while between the inlet fitting and the specified pipeline there is a bypass with the possibility of removal from controlled rooms of a hypoxic atmosphere by blowing with compressed air in front of people entering them. 2. Gas separation device according to claim 1, characterized in that it is equipped with an additional container for collecting and storing hypoxic air at a pressure of 2-10 bar with the possibility of portionwise release of the extinguishing agent into the interior environment of the protected room. 3. Gas separation device according to claim 2, characterized in that it is equipped with a solenoid valve for discharging the extinguishing agent into the protected room through an outlet nozzle with a silencer installed after it. 4. Gas separation device according to claim 1, characterized in that the outlet of the oxygen extraction device is additionally communicated with a high-pressure container for supplying a fire-extinguishing agent discharged into the internal environment during fire extinguishing. 5. Gas separation device according to claim 1, characterized in that two or more gas distribution modules are connected in series by adjacent identical cavities. 6. Gas separation device according to claim 1, characterized in that two or more gas distribution modules are connected in parallel in sections by common pipeline manifolds for air supply and permeate removal, while pipeline manifolds connecting retentate outlet openings are spaced relative to the combined sections.

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