Closed gas generator and micro power unit including the same
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0089441
(2011-04-19)
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등록번호 |
US-8636247
(2014-01-28)
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발명자
/ 주소 |
- Danforth, Jeremy C.
- Loehr, Richard D.
- Murphy, Kevin P.
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출원인 / 주소 |
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대리인 / 주소 |
Schwegman, Lundberg & Woessner, P.A.
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인용정보 |
피인용 횟수 :
0 인용 특허 :
8 |
초록
▼
A gas generator assembly includes a propellant chamber housing an amine based propellant. A reaction chamber is coupled with the propellant chamber. The reaction chamber includes a reaction chamber housing, and a porous reaction matrix within the reaction chamber housing. The reaction matrix include
A gas generator assembly includes a propellant chamber housing an amine based propellant. A reaction chamber is coupled with the propellant chamber. The reaction chamber includes a reaction chamber housing, and a porous reaction matrix within the reaction chamber housing. The reaction matrix includes a catalyzing agent, and the catalyzing agent is configured to non-combustibly catalyze the amine based propellant into one or more pressurized gases. An injector is in communication with the propellant chamber. The injector is configured to deliver the amine based propellant to the porous reaction matrix. A discharge nozzle is coupled with the reaction chamber and is configured to accelerate and discharge the one or more pressurized gases. In one example, the gas generator is coupled with one or more of an impulse turbine assembly and an electric generator to form a micro power unit.
대표청구항
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1. A gas generator assembly comprising: a pressure generator;a propellant chamber coupled with the pressure generator, the propellant chamber houses a fluid amine based mono-propellant;a reaction chamber coupled with the propellant chamber, the reaction chamber includes: a reaction chamber housing,a
1. A gas generator assembly comprising: a pressure generator;a propellant chamber coupled with the pressure generator, the propellant chamber houses a fluid amine based mono-propellant;a reaction chamber coupled with the propellant chamber, the reaction chamber includes: a reaction chamber housing,a porous reaction matrix including a plurality of linear matrix passages within the reaction chamber housing, the reaction matrix includes a catalyzing agent coupled along the plurality of linear matrix passages, and the catalyzing agent is configured to non-combustibly catalyze the amine based mono-propellant into one or more pressurized gases as the amine based mono-propellant passes through the plurality of linear matrix passages,an injector in communication with the propellant chamber, the injector is configured to deliver the amine based mono-propellant to the porous reaction matrix, anda preheating substrate coupled with the porous reaction matrix, the preheating substrate including a hypergolic substance configured to react with the amine based mono-propellant to preheat the porous reaction matrix; anda discharge nozzle coupled with the reaction chamber, the discharge nozzle is configured to accelerate and discharge the one or more pressurized gases. 2. The gas generator assembly of claim 1, wherein the amine based mono-propellant has a specific gravity greater than or equal to around 1.6. 3. The gas generator assembly of claim 1, wherein the discharge nozzle is a rocket discharge nozzle, and the rocket discharge nozzle is configured to accelerate the one or more pressurized gases to supersonic velocity of around 5000 to 7000 feet per second. 4. The gas generator assembly of claim 1, wherein the propellant chamber and the reaction chamber are a closed system, and the porous reaction matrix and the amine based mono-propellant are isolated from ambient air while the porous reaction matrix non-combustibly catalyzes the amine based mono-propellant. 5. The gas generator assembly of claim 1, wherein the porous reaction matrix includes aluminum oxide and the catalyzing agent includes platinum particles within the porous reaction matrix. 6. The gas generator assembly of claim 1, wherein the non-combusting amine based mono-propellant includes hydroxyl ammonium nitrate. 7. The gas generator assembly of claim 1 comprising: a propellant throttle coupled between the propellant chamber and the reaction chamber; anda temperature sensor coupled with the porous reaction matrix, wherein propellant throttle is configured to meter a flow of the amine based mono-propellant to the porous reaction matrix according to measurements of the temperature sensor. 8. The gas generator assembly of claim 1, wherein the preheating substrate includes a preheating substrate pillow with the hypergolic substance therein, and the preheating substrate pillow is coupled along the porous reaction matrix and blankets openings of the plurality of linear matrix passages. 9. A method for using a gas generator comprising: delivering an amine based mono-propellant to a reaction chamber;directing the amine based mono-propellant through a plurality of linear matrix passages of a porous reaction matrix, the porous reaction matrix includes a catalyzing agent coupled along the plurality of linear matrix passages of the of the porous reaction matrix;preheating the porous reaction matrix with a preheating substrate pillow including a hypergolic substance, the preheating substrate pillow coupled along a face of the porous reaction matrix, the hypergolic substance configured to react with the amine based mono-propellant to preheat the porous reaction matrix;non-combustibly catalyzing the amine based mono-propellant into one or more pressurized gases with the porous reaction matrix; andaccelerating and discharging the one or more pressurized gases through a discharge nozzle. 10. The method of claim 9, wherein accelerating and discharging the one or more pressurized gases includes accelerating the one or more pressurized gases to supersonic velocity. 11. The method of claim 9, wherein non-combustibly catalyzing the amine based mono-propellant includes non-combustible catalyzing in a closed system, wherein the porous reaction matrix and the amine based mono-propellant are isolated from ambient air. 12. The method of claim 9, wherein preheating includes: delivering a preheating pulse of the amine based mono-propellant to the preheating substrate pillow including a hypergolic substance, andreacting the amine based mono-propellant with the hypergolic substance to produce heat. 13. The method of claim 9 comprising: measuring the temperature of the porous reaction matrix against a temperature threshold; anddelivering a catalyzing stream of the amine based mono-propellant to the porous reaction matrix if the temperature meets or exceeds the temperature threshold. 14. The method of claim 9, wherein accelerating and discharging the one or more pressurized gases includes discharging the one or more pressurized gases including oxygen generated through non-combustibly catalyzing through a rocket motor, and the rocket motor includes a solid fuel configured for combustion with the oxygen. 15. The method of claim 9, wherein accelerating and discharging the one or more pressurized gases includes discharging the one or more pressurized gases against an impulse turbine. 16. The method of claim 15 comprising throttling power generated from the impulse turbine through throttling delivery of the amine based mono-propellant to the reaction chamber.
이 특허에 인용된 특허 (8)
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Twardy Harald (Mden/DEX) Lo Roger E. (Mckmhl-zuttlingen DEX), Device for the thermal decomposition of liquid fuels.
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Tilston, John Ronald, Micro-power unit.
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Roberts Thomas G. (Huntsville AL), Porous catalytic metal plate degeneration bed in a gas generator.
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