Hafnium turbine engine and method of operation
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-001/00
F01D-015/02
F01K-027/00
F02C-006/20
F02C-001/05
출원번호
US-0466125
(2012-05-08)
등록번호
US-10119414
(2018-11-06)
발명자
/ 주소
Podrog, David J.
출원인 / 주소
Podrog, David J.
대리인 / 주소
Brown, Jonathan
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
A method of heating a gas by directing X-rays at a mass of hafnium 178 to induce gamma rays. The gamma rays are directed at a heat exchanging apparatus, resulting in a stream of heated gas. This process powers a Hafnium gas turbine engine capable of providing shaft power or thrust to mechanical devi
A method of heating a gas by directing X-rays at a mass of hafnium 178 to induce gamma rays. The gamma rays are directed at a heat exchanging apparatus, resulting in a stream of heated gas. This process powers a Hafnium gas turbine engine capable of providing shaft power or thrust to mechanical devices.
대표청구항▼
1. A hafnium gas turbine engine comprising: an X-ray machine,a mass of hafnium,a heat exchange apparatus,and a gas turbinewherein the X-ray machine is configured such that X-rays from the X-ray machine will strike the hafnium when the X-ray machine is activated,and wherein the mass of hafnium is con
1. A hafnium gas turbine engine comprising: an X-ray machine,a mass of hafnium,a heat exchange apparatus,and a gas turbinewherein the X-ray machine is configured such that X-rays from the X-ray machine will strike the hafnium when the X-ray machine is activated,and wherein the mass of hafnium is configured such that gamma rays from the hafnium are capable of heating a gas within the heat exchange apparatus,and wherein the heat exchange apparatus is configured to direct the heated gas towards the turbine to drive the turbine. 2. The hafnium turbine engine of claim 1, further comprising an AC or DC power source, solar cell, battery or generator attached to the X-ray machine to power the X-ray machine. 3. The hafnium turbine engine of claim 1, further comprising a generator attached to the turbine, wherein the generator is configured to continuously power the X-ray machine after the turbine is driven. 4. The hafnium turbine engine of claim 1, wherein the heated gas is air. 5. The hafnium turbine engine of claim 1, wherein the heated gas is nitrogen, oxygen, hydrogen, or any combination thereof. 6. The hafnium turbine engine of claim 1, further comprising an intercooler configured to cool the gas and deliver the cooled gas to a compressor. 7. The hafnium turbine engine of claim 1, further comprising an exhaust apparatus configured to receive at least a portion of gas from the turbine, and an intercooler configured to receive at least a portion of gas from the exhaust apparatus, capable of cooling the gaswherein the engine is configured to deliver the cooled gas from the intercooler to a compressor. 8. The hafnium turbine engine of claim 1, further comprised of combustion apparatus capable of heating and expanding the gas, and wherein the engine is configured so that heated air can be directed to the turbine from the heat exchange apparatus, the combustion apparatus, or both, and a controller capable of engaging or disengaging either the heat exchange apparatus or the combustion apparatus. 9. The hafnium turbine engine of claim 1, further comprised of a combustion apparatus capable of heating and expanding the gas, wherein the engine is configured so that the gas is directed through both the heat exchange apparatus and the combustion apparatusand wherein the combustion apparatus is also configured to direct the heated gas towards the turbine to drive the turbine,and a controller capable of activating the heat exchange apparatus, the combustion apparatus or both. 10. A method for driving a gas turbine engine comprising the steps of: providing an X-ray machine,providing a mass of hafnium,configuring the X-ray machine so that X-rays from the X-ray machine will strike the mass of hafnium when the X-ray machine is activated, resulting in the emission of gamma rays from the hafnium,providing a heat exchange apparatus,configuring the mass of hafnium and heat exchange apparatus so that gamma rays emitted from the hafnium are capable of heating a gas within the heat exchange apparatus,providing a gas turbine,and configuring the heat exchange apparatus to direct the heated gas towards the turbine to drive the turbine. 11. The method for driving a gas turbine engine of claim 10, further comprising the steps of providing an AC or DC power source, solar cell, battery or generator, andattaching the AC or DC power source, solar cell, battery or generator to the X-ray machine to power the X-ray machine, either initially or continuously. 12. The method for driving a gas turbine engine of claim 10, further comprising the steps of attaching a generator to the turbine, andconfiguring the generator to continuously power the X-ray machine after the turbine is driven. 13. The method for driving a gas turbine engine of claim 10, wherein the heated gas is air. 14. The method for driving a gas turbine engine of claim 10, wherein the heated gas is nitrogen, oxygen, hydrogen, or any combination thereof. 15. The method for driving a gas turbine engine of claim 10, further comprising the steps of: providing an intercooler,providing a compressor,and configuring the intercooler to cool gas and deliver the cooled gas to the compressor. 16. The method for driving a gas turbine engine of claim 10, further comprising the steps of: providing exhaust apparatus and configuring the exhaust apparatus to receive at least a portion of the heated gas from the turbine,providing an intercooler and configuring the intercooler to receive at least a portion of the gas from the exhaust apparatus, and configuring the intercooler or other cooling apparatus to deliver the cooled gas to a compressor. 17. The method for driving a gas turbine engine of claim 10, further comprising the steps of: providing combustion apparatus capable of heating and expanding a gas, andconfiguring the engine so that heated gas can be directed to the turbine from the heat exchange apparatus, the combustion apparatus, or both,and providing a controller unit connected to the heat exchanger and combustion apparatus that is capable of disengaging either. 18. The method for driving a gas turbine engine of claim 10, further comprising the steps of: providing combustion apparatus capable of heating and expanding a gas,configuring the engine so that the heated gas can be directed through both the heat exchange apparatus and the combustion apparatus, andproviding a controller unit connected to the heat exchanger and combustion apparatus that is capable of disengaging either.
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