IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0405469
(2012-02-27)
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등록번호 |
US-8590404
(2013-11-26)
|
발명자
/ 주소 |
- Brantley, Christina L.
- Edwards, Eugene
- Ruffin, Paul B.
- Luo, Fang
|
출원인 / 주소 |
- The United States of America as represented by the Secretary of the Army
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
1 인용 특허 :
8 |
초록
▼
The present disclosure relates to a gas sensor, including: a gas collecting chamber including: (a) a nanoporous wall including alumina, on a portion of the gas collecting chamber in the near vicinity of the solid propellant fuel; a micro pump attached to the gas collecting chamber; and a gas analysi
The present disclosure relates to a gas sensor, including: a gas collecting chamber including: (a) a nanoporous wall including alumina, on a portion of the gas collecting chamber in the near vicinity of the solid propellant fuel; a micro pump attached to the gas collecting chamber; and a gas analysis device connected to the gas collecting chamber. The gas analysis device measures both type and concentration of gases collected in the gas collecting chamber via the nanoporous wall, the gases measured being selected from the group consisting of CO, CO2, NO, N2O, NO2 and combinations thereof. The present disclosure also relates to a method of sensing propellant degradation in solid fuel and a method of using a gas collecting chamber to sense such degradation.
대표청구항
▼
1. A gas sensor, comprising: a gas collecting chamber including: a nanoporous wall including alumina, on a portion of the gas collecting chamber in a near vicinity of the solid propellant fuel;a micro pump attached to the gas collecting chamber between the nanoporous wall and a gas analysis device,
1. A gas sensor, comprising: a gas collecting chamber including: a nanoporous wall including alumina, on a portion of the gas collecting chamber in a near vicinity of the solid propellant fuel;a micro pump attached to the gas collecting chamber between the nanoporous wall and a gas analysis device, the micro pump being both for sucking ambient air out of the gas collecting chamber thereby forcibly bringing gas out of the gas collecting chamber through the pores in the nanoporous wall and also for blowing inert gas selected from the group consisting of argon, helium, neon, krypton, xenon, radon, sulfur hexafluoride, nitrogen and combinations thereof into the gas collecting chamber and out through the nanoporous wall thereby to rid the nanoporous wall of accumulated particles;a baffle located in the gas collecting chamber near an area of the gas collecting chamber where the micro pump is connected, the baffle being for channeling the gas sucked by the micro pump from the solid propellant fuel to the gas analysis device; andthe gas analysis device connected to the gas collecting chamber, the gas analysis device measuring both type and concentration of gases collected in the gas collecting chamber via the nanoporous wall, the gases measured being selected from the group consisting of CO, CO2, NO, N2O, NO2 and combinations thereof. 2. The gas sensor according to claim 1, wherein there are pores in nanoporous material in the nanoporous wall, the pores having an average diameter of from 0.2×10−9 m to 5.0×10−4 m. 3. The gas sensor according to claim 2, wherein there are pores in nanoporous material in the nanoporous wall, the pores having an average diameter in a range from 200 nm to 300 nm. 4. The gas sensor according to claim 1, wherein the gas collecting chamber has an internal pressure varying from 0 to 5,000,000 pounds per square inch. 5. The gas sensor according to claim 4, further comprising a control valve to at least partially regulate the pressure in the gas collecting chamber, the control valve either opening or closing the gas collecting chamber to incoming outside gas. 6. The gas sensor according to claim 1, wherein the gas analysis device is selected from the group consisting of a ultraviolet absorption measuring device, a visible absorption measuring device, an infrared absorption measuring device, a Raman effect measuring device, a chemical reductions measuring device, an electrochemical effects measuring device, and combinations thereof. 7. The gas sensor according to claim 1, wherein the nanoporous wall further comprises nanoporous material selected from the group consisting of ceramics, polymers, glasses, crystals and combinations thereof. 8. The gas sensor according to claim 1, wherein the gas collecting chamber is from 100 nm to 1,000 mm in internal diameter.
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