Method and system for extinguishing fire in an enclosed space
First Claim
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1. A system for suppressing a fire in an enclosed space, comprising:
- at least one nitrogen supply device selected from the group consisting of compressed nitrogen gas storage tanks and nitrogen gas generators, adapted to supply a first flow of nitrogen gas;
a nitrogen preparation unit adapted to supply a second flow of nitrogen gas, at a lower maximum flow rate and for a longer maximum duration than said first flow of nitrogen gas supplied by said at least one nitrogen supply device;
at least one nozzle that is arranged in the enclosed space and that is adapted to emit nitrogen gas from said nozzle into the enclosed space;
a pipe arrangement connecting said at least one nitrogen supply device and said nitrogen preparation unit to said at least one nozzle;
a flow rate limiting device interposed in said pipe arrangement with said at least one nozzle located on an outlet side of said flow rate limiting device and with said at least one nitrogen supply device and said nitrogen preparation unit located on an inlet side of said flow rate limiting device; and
a pressure reservoir interposed in said pipe arrangement and connected to said flow rate limiting device upstream on said inlet side thereof.
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Abstract
A system for suppressing fire in an enclosed space, e.g. an aircraft cabin or freight compartment, includes nitrogen tanks and/or generators to rapidly supply a limited quantity of nitrogen with-a high flow rate, and a membrane system to supply an essentially unlimited quantity of nitrogen at a lower supply rate for a long duration. The membrane system includes a selectively permeable membrane that separates nitrogen gas from ambient environmental air that is supplied into the membrane system. Once a fire is detected, nitrogen is supplied from the nitrogen gas tanks and/or generators at a high rate to rapidly increase the nitrogen concentration and establish a reduced oxygen concentration (e.g. 12 vol. %) in the enclosed space. Then, nitrogen is supplied from the membrane system at a reduced rate for a long duration to maintain the reduced oxygen concentration in the enclosed space until the fire is extinguished by oxygen starvation.
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Citations
25 Claims
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1. A system for suppressing a fire in an enclosed space, comprising:
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at least one nitrogen supply device selected from the group consisting of compressed nitrogen gas storage tanks and nitrogen gas generators, adapted to supply a first flow of nitrogen gas;
a nitrogen preparation unit adapted to supply a second flow of nitrogen gas, at a lower maximum flow rate and for a longer maximum duration than said first flow of nitrogen gas supplied by said at least one nitrogen supply device;
at least one nozzle that is arranged in the enclosed space and that is adapted to emit nitrogen gas from said nozzle into the enclosed space;
a pipe arrangement connecting said at least one nitrogen supply device and said nitrogen preparation unit to said at least one nozzle;
a flow rate limiting device interposed in said pipe arrangement with said at least one nozzle located on an outlet side of said flow rate limiting device and with said at least one nitrogen supply device and said nitrogen preparation unit located on an inlet side of said flow rate limiting device; and
a pressure reservoir interposed in said pipe arrangement and connected to said flow rate limiting device upstream on said inlet side thereof. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
a controller connected for control signal transmission to said flow rate limiting device, a fire detector arranged in the enclosed space and connected by a detector signal transmission link to said controller, and a gas sensor arranged in the enclosed space and connected by a sensor signal transmission link to said controller. -
3. The system according to claim 2, wherein said gas sensor comprises an oxygen gas concentration sensor.
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4. The system according to claim 2, wherein said gas sensor comprises a nitrogen gas concentration sensor.
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5. The system according to claim 1, wherein said at least one nitrogen supply device is adapted to supply said first flow of nitrogen gas through said pipe arrangement and said at least one nozzle into the enclosed space so as to reduce an ambient oxygen concentration to establish a reduced oxygen concentration in the enclosed space, and said nitrogen preparation unit is adapted to supply said second flow of nitrogen gas through said pipe arrangement and said at least one nozzle into the enclosed space so as to maintain said reduced oxygen concentration in the enclosed space.
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6. The system according to claim 5, wherein said reduced oxygen concentration is a maximally effective fire suppressing concentration of oxygen.
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7. The system according to claim 1, comprising a plurality of said nitrogen supply devices that can all be activated simultaneously to cumulatively together supply said first flow of nitrogen gas to initially build up an initial concentration of nitrogen gas in the enclosed space.
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8. The system according to claim 1, excluding halon, carbon dioxide, and water as fire suppressing agents.
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9. The system according to claim 1, including and using only nitrogen gas as a fire suppressing agent.
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10. The system according to claim 1, wherein said nitrogen preparation unit comprises a membrane system that selectively separates nitrogen gas from air, and wherein said membrane system has an air inlet and has a nitrogen outlet connected to said pipe arrangement.
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11. The system according to claim 1, further comprising a pressure compensating device connected to the enclosed space.
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12. A system for suppressing a fire in an enclosed space, comprising:
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at least one nitrogen supply device selected from the group consisting of compressed nitrogen gas storage tanks and nitrogen gas generators, adapted to supply a first flow of nitrogen gas;
a nitrogen preparation unit adapted to supply a second flow of nitrogen gas, at a lower maximum flow rate and for a longer maximum duration than said first flow of nitrogen gas supplied by said at least one nitrogen supply device, wherein said nitrogen preparation unit comprises a membrane system that selectively separates nitrogen gas from air, and wherein said membrane system has an air inlet and has a nitrogen outlet;
at least one nozzle that is arranged in the enclosed space and that is adapted to emit nitrogen gas from said nozzle into the enclosed space;
a pipe arrangement connecting said at least one nitrogen supply device and said nitrogen outlet of said nitrogen preparation unit to said at least one nozzle; and
an exhaust air outlet channel and a valve interconnected between said exhaust air outlet channel and said air inlet of said membrane system to provide air to said air inlet. - View Dependent Claims (13, 14)
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15. A method of suppressing a fire in an enclosed space, comprising the steps:
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a) detecting a fire in an enclosed space;
b) after said step a) and in response thereto, supplying a first flow of nitrogen gas at a first flow rate from at least one nitrogen supply device selected from the group consisting of a nitrogen gas storage tank and a nitrogen gas generator, into said enclosed space so as to reduce a prior oxygen concentration to a reduced oxygen concentration in said enclosed space;
c) after said step b), supplying a second flow of nitrogen gas at a second flow rate from a nitrogen preparation unit including a membrane that is selectively permeable with respect to nitrogen, into said enclosed space so as to maintain said reduced oxygen concentration in said enclosed space, wherein said first flow rate is greater than said second flow rate; and
d) extinguishing said fire because said reduced oxygen concentration is insufficient to sustain said fire. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
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Specification
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Current AssigneeAirbus Operations GmbH (Airbus SE)
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Original AssigneeAirbus Deutschland GmbH (Airbus SE)
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InventorsGrabow, Thomas, Kallergis, Konstantin
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Primary Examiner(s)Mar, Michael
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Assistant Examiner(s)Gorman, Darren
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Application NumberUS09/956,536Publication NumberTime in Patent Office686 DaysField of Search169/5, 169/9, 169/11, 169/16, 169/54, 169/56, 169/60, 169/61, 169/43, 169/46, 239/208, 239/209US Class Current169/16CPC Class CodesA62C 3/08 in aircraft A62C3/0207 take...A62C 99/0018 using gases or vapours that...
