IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0172665
(2005-06-30)
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등록번호 |
US-7540143
(2009-07-01)
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발명자
/ 주소 |
|
출원인 / 주소 |
- The United States of America as represented by the Administrator of the National Aeronautics and Space Administration
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
7 인용 특허 :
12 |
초록
▼
The proposed technology is a rocket engine cycle utilizing as the propulsive fluid a low molecular weight, cryogenic fluid, typically liquid hydrogen, pressure driven, heated, and expelled through a nozzle to generate high velocity and high specific impulse discharge gas. The proposed technology fee
The proposed technology is a rocket engine cycle utilizing as the propulsive fluid a low molecular weight, cryogenic fluid, typically liquid hydrogen, pressure driven, heated, and expelled through a nozzle to generate high velocity and high specific impulse discharge gas. The proposed technology feeds the propellant through the engine cycle without the use of a separate pressurization fluid and without the use of turbomachinery. Advantages of the proposed technology are found in those elements of state-of-the-art systems that it avoids. It does not require a separate pressurization fluid or a thick-walled primary propellant tank as is typically required for a classical pressure-fed system. Further, it does not require the acceptance of intrinsic reliability risks associated with the use of turbomachinery.
대표청구항
▼
I claim: 1. An apparatus for a thermal rocket engine cycle, comprising: a propellant tank; a plurality of pressure balls for receiving fluid propellant discharged from the propellant tank, each of said plurality of pressure balls in fluid communication with said propellant tank; means for heating a
I claim: 1. An apparatus for a thermal rocket engine cycle, comprising: a propellant tank; a plurality of pressure balls for receiving fluid propellant discharged from the propellant tank, each of said plurality of pressure balls in fluid communication with said propellant tank; means for heating and thereby pressurizing the propellant prior to discharging the propellant from the respective pressure ball, connected to said plurality of pressure balls; a pressurization line for recycling to the propellant tank a heated portion of the propellant to maintain pressure in said propellant tank; means for heating the propellant discharged from the pressure balls; and an exhaust nozzle for discharging propellant from said means for heating the propellant discharged from the pressure balls, to create thrust; wherein each of said plurality of pressure balls is provided with an inlet valve for passing therethrough propellant before entering the respective pressure ball and an outlet valve for passing therethrough propellant after discharging from the respective pressure ball, such that operation of the inlet valve and outlet valve, combined with the heating of the propellants in the pressure balls achieves a pumping action of propellant fluid. 2. The apparatus for a thermal rocket engine cycle of claim 1, further comprising a boiler, positioned between said propellant tank and said pressure balls and each of said plurality of pressure balls is provided with a pressurization valve along a respective conduit connecting the boiler to the respective pressure ball for directing the propellant heated in the boiler from the boiler to the respective of pressure ball, whereby manipulation of pressure ball inlet, outlet, and pressurization valves creates pumping action. 3. The apparatus for a thermal rocket engine cycle of claim 2, further comprising: a fill valve for filling said boiler from said propellant tank; and a drain valve for draining said boiler. 4. The apparatus of claim 1, wherein the pressurization line comprises a modulator, positioned to maintain a desired pressure in the propellant tank. 5. The apparatus of claim 1, wherein the apparatus has a lack of a separate pressurization fluid for feeding the propellant through the engine cycle and a lack of turbomachinery for feeding the propellant through the engine cycle. 6. A method for cycling a thermal rocket engine comprising: discharging a fluid propellant from a propellant tank; passing the propellant discharged from the propellant tank to a plurality of pressure balls in fluid communication with the propellant tank; discharging the propellant from the pressure balls; heating and thereby pressurizing the propellant prior to discharging the propellant from the respective pressure ball; recycling to the propellant tank through a pressurization line a heated portion of the propellant to maintain pressure in the propellant tank; heating the propellant discharged from the pressure balls; and discharging from an exhaust nozzle the propellant, heated after discharge from the pressure balls, to create thrust; each of said plurality of pressure balls having an inlet valve through which propellant passes before entering the respective pressure ball and an outlet valve through which propellant passes after discharging from the respective pressure ball, operating the inlet valve and outlet valve, combined with the heating of the propellants in the pressure balls, to achieve a pumping action of the propellant. 7. The apparatus of claim 1, wherein the plurality of pressure balls comprises three pressure balls, each of said pressure balls in fluid communication with said propellant tank. 8. The method of claim 6 wherein the plurality of pressure balls comprises three pressure balls, each of said pressure balls in fluid communication with said propellant tank. 9. The apparatus of claim 1, comprising a fission reactor for supplying heat to the means for heating the propellant, discharged from the propellant tank, prior to discharging the propellant from the respective pressure ball. 10. The apparatus of claim 1, comprising a solar thermal system for supplying heat to the means for heating the propellant, discharged from the propellant tank, prior to discharging the propellant from the respective pressure ball. 11. The method of claim 6, comprising a fission reactor for supplying heat to the means for heating the propellant discharged from the pressure balls. 12. The method of claim 6, comprising a solar thermal system for supplying heat to the means for heating the propellant discharged from the pressure balls. 13. The method of claim 6, wherein one said pressure ball is discharging propellant to a heat source and then through the nozzle; while a second said pressure ball is being filled with propellant from the propellant tank; while heating propellant in a third said pressure ball to pressurize the propellant in the third pressure ball, prior to discharging the propellant from the third pressure ball.
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