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Hyperbaric hypoxic fire escape and suppression systems for multilevel buildings, transportation tunnels and other human-occupied environments

a technology of human-occupied environments and fire escape systems, applied in the direction of heating types, container discharging methods, separation processes, etc., can solve the problems of ineffective fire escape suppression systems in buildings, inability and inability to provide the modem building design itself to provide reliable escape routes and safety areas for trapped peopl

Inactive Publication Date: 2003-04-24
FIREPASS CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0016] A method of extinguishing an ongoing fire in a building or tunnel by releasing such pressurized fire-extinguishing hypoxic atmosphere or composition from said escape compartment into an environment affected by fire. This allows to replacing rapidly the contaminated normoxic atmosphere in such environment with the human-breathable hypoxic fire-extinguishing atmosphere and suppressing any fire at once.
[0018] The provision of the hypoxic hyperbaric fire extinguishing composition having an oxygen content ranging from 7% to 14% under increased barometric pressure up to 1 atmosphere above standard, which makes it absolutely safe for human breathing.

Problems solved by technology

Current fire suppression systems in buildings are ineffective in saving human life, especially in a catastrophic fire and destructive to property and valuables.
Moreover, modem building design itself does not provide reliable escape routes and safety areas for trapped people.
Staircases and elevator shafts may easy become lethal traps for fire escapees who may die from smoke inhalation or fire.
Other human-occupied facilities like transportation tunnels have virtually no fire safety systems at all.
Still, the minor Chunnel fire in 1998 claimed over a billion (US) dollars from damages and business loss.
In addition, ventilation shafts and equipment (which are present in virtually all multilevel buildings and tunnels) can dramatically accelerate a fire's propagation and significantly increase the risk of toxic inhalation.
Positive pressure systems are used in military vehicles and vessels for that purpose, however recent terrorist threats call for introduction of similar systems also in civil building construction.

Method used

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  • Hyperbaric hypoxic fire escape and suppression systems for multilevel buildings, transportation tunnels and other human-occupied environments
  • Hyperbaric hypoxic fire escape and suppression systems for multilevel buildings, transportation tunnels and other human-occupied environments
  • Hyperbaric hypoxic fire escape and suppression systems for multilevel buildings, transportation tunnels and other human-occupied environments

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embodiment 10

[0040] FIG. 1 presents a schematic view of the first preferred embodiment 10 of the Hypoxic Hyperbaric Fire Escape and Suppression System (HHFESS) that is most suitable for various types of multilevel buildings and underground facilities.

[0041] A building 11 having a pressurized staircase shaft 12 is equipped with hypoxic generation station 13 communicating with the shaft 12 and maintaining in this shaft a hyperbaric atmosphere of hypoxic gas mixture. The hermetic staircase shaft 12 can be build as a monolith steel-reinforced concrete structure having an airlock or pressure-equalizing chamber 31 with two pressurized doors (32 and 33 on FIG. 3) at every floor. In order to access the staircase 12, a user must first open an external door and enter the airlock. After the external door is closed, the internal door opens slowly allowing the barometric pressure inside the chamber to equalize with the hyperbaric pressure inside the staircase shaft. The pressure equalization may be achieved ...

embodiment 90

[0077] FIG. 9 shows an alternative HHFESS embodiment 90 having external hyperbaric compartment 92, similar to 72, and communicating with building 91 through a pressurized piping circuit 94 having a vertical gas distribution pipe with gas release nozzles 96. Nozzles 96 are equipped with gas release valves, similar to 82, and can be actuated by a signal from a fire detection system, in which case the hyperbaric hypoxic composition contained in compartment 92 under pressure of 5 or more atmospheres is released into the floor or room affected by fire. A significant benefit of the use of hyperbaric composition is that upon release it becomes very cold due to depressurization, which will help to suppress fire by additional thermal absorption. As soon as the pressure in the system 92-94 drops, automatic valves 97 and 98 close and hypoxic generator 93 starts pumping hypoxic air with 14% O2 through the vertical part of pipe 94 and open nozzle 96 into the same floor maintaining breathable fir...

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Abstract

Hyperbaric Hypoxic Fire Escape and Suppression System is provided for multilevel buildings, transportation tunnels and other human-occupied environments. The system produces and maintains a hypoxic hyperbaric environment in a separate part of a building (staircase shaft) or a tunnel (service tunnel) in order to provide an entirely secure escape area in case of a fire emergency and instantly extinguish an ongoing fire in a building or a tunnel by releasing a breathable hyperbaric hypoxic fire-extinguishing composition into location affected by fire. Additionally, the system provides continuing adequate protection against biological and chemical warfare and contaminants by filtering ambient air before processing it by the system and by establishing breathable fire-suppressive atmosphere at a positive atmospheric pressure inside a building or tunnel.

Description

[0001] This application is a continuation in part of:[0002] U.S. Ser. No. 09 / 750,801 "Hypoxic Fire Prevention and Fire Suppression Systems and Breathable Fire Extinguishing Compositions for Human Occupied Environments" filed Dec. 28, 2000,[0003] U.S. Ser. No. 09 / 854,108 "Hypoxic Fire Prevention and Fire Suppression Systems with Breathable Fire Extinguishing Compositions for Human Occupied Environments" filed May 11, 2001 and[0004] U.S. Ser. No. 09 / 975,215 "Mobile Firefighting Systems with Breathable Hypoxic Fire Extinguishing Compositions for Human Occupied Environments" filed Oct. 10, 2001.[0005] The present invention introduces the method, equipment, and composition of a fire escape and suppression system that produces and maintains a hypoxic hyperbaric environment in a separate part of a building (preferably staircase shaft) or a transportation tunnel in order to provide an entirely secure escape in case of a fire emergency and instantly extinguish an ongoing fire on any floor or...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A62B7/14A62C3/07A62C99/00B01D53/22B01F23/10F17C7/04
CPCA62B7/14A62C3/0221A62C3/07A62C99/0018F17C7/04B01D2257/102B01D2257/104B01F3/022B01F13/0035B01D53/22B01F23/12B01F33/502
Inventor KOTLIAR, IGOR K.
Owner FIREPASS CORP
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