Method and apparatus for generating compressed air from liquefied air, for supplying compressed air to an engine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02B-043/00
F02B-041/00
F02G-003/02
출원번호
UP-0561077
(2004-06-15)
등록번호
US-7654072
(2010-03-31)
우선권정보
EP-03425392(2003-06-16); EP-03425780(2003-12-04)
국제출원번호
PCT/EP2004/006435
(2004-06-15)
§371/§102 date
20070131
(20070131)
국제공개번호
WO04/111527
(2004-12-23)
발명자
/ 주소
Russo, Vitaliano
출원인 / 주소
Sincron S.r.l.
대리인 / 주소
Akerman Senterfitt
인용정보
피인용 횟수 :
2인용 특허 :
2
초록▼
An engine unit, particularly for urban transport, comprising an engine (3) supplied with a compressed gas and having a expansion chamber (9), a liquid gas tank (28) in communication with the engine (3), and means (M, M′) for gasifying the liquid gas, which are interposed between the liquid ga
An engine unit, particularly for urban transport, comprising an engine (3) supplied with a compressed gas and having a expansion chamber (9), a liquid gas tank (28) in communication with the engine (3), and means (M, M′) for gasifying the liquid gas, which are interposed between the liquid gas tank (28) and the engine (3) for obtaining compressed gas. The gasifying means (M) comprise a gasification chamber (22) in communication with the liquid gas tank (28) and a liquid fuel tank (39) which is connected to the gasification chamber (22). The gasification chamber (22) is in fluid communication with both the liquid fuel tank (39) for the combustion of the liquid fuel with the oxygen of the liquid gas (22), and the expansion chamber (9) so that the compressed liquid gas and gaseous products of combustion process are used to do useful work.
대표청구항▼
The invention claimed is: 1. An engine unit, particularly for urban transport, comprising: an engine supplied with a compressed gas and having an expansion chamber provided with a cylinder and piston arranged for completing cyclically a power and an exhaust stroke at each double stroke; a liquid ga
The invention claimed is: 1. An engine unit, particularly for urban transport, comprising: an engine supplied with a compressed gas and having an expansion chamber provided with a cylinder and piston arranged for completing cyclically a power and an exhaust stroke at each double stroke; a liquid gas tank in communication with the engine; a liquid fuel tank; means for gasifying the liquid gas, which are interposed between the liquid gas tank and the engine for obtaining compressed gas, the gasifying means comprising a heat exchanger for a starting gasification of the liquid gas in communication with the liquid gas tank; a close housing wherein a gasification chamber is formed, the gasification chamber being in fluid communication with both the liquid fuel tank and the heat exchanger for the combustion of the liquid fuel with the oxygen of the compressed gas, the gasification chamber being further in fluid communication with the expansion chamber through a port so that the entire gas mixture comprising compressed liquid gas, gaseous products and by-products of combustion process passes into the expansion chamber to do useful works; an intake manifold and an intake duct placed between the port of the gasification chamber and the expansion chamber, wherein the intake duct puts the expansion chamber in communication with the intake manifold through a respective intake valve; and controlling means provided for opening said intake valve for a first duration in such a way that the piston of the engine is pushed by a constant pressure of the gas from the gasification chamber, and for closing said intake valve for a second duration in such a way the piston of the engine is pushed by gas expansion, wherein the gasification chamber is split into a first gasification chamber and a second gasification chamber for combustion of the liquid fuel with the oxygen under conditions of saturated steam and overheated steam respectively, each of said first and second gasification chambers comprising a respective pilot igniter. 2. An engine unit according to claim 1, wherein the first duration for opening the intake valve is selected so that the gas mixture, at the end of the piston power stroke, has substantially attained ambient pressure and temperature. 3. An engine unit according to claim 1, wherein said expansion chamber is provided with an exhaust valve and wherein controlling means are provided for opening said exhaust valve in such a way that the cylinder is emptied of the spent gas, which is discharged in the ambient atmosphere, and for closing said exhaust valve so as a pressure increase occurs within the cylinder until a pressure value is reached, being equal to that of the gasification chamber. 4. An engine unit according to claim 1, wherein the liquid gas is of liquid air or of air depleted of oxygen. 5. An engine unit according to claim 1, wherein the liquid gas is liquid nitrogen. 6. An engine unit according to claim 5, wherein the gasifying means comprise an oxygen tank in communication with the gasification chamber for combustion of the liquid fuel. 7. An engine unit according to claim 1, wherein the liquid fuel is liquid hydrogen. 8. An engine unit according to claim 1, wherein the gasifying means comprise a pump between the liquid gas tank and the gasification chamber. 9. An engine unit according to claim 1, further comprising a pump between the liquid fuel tank and the gasification chamber. 10. An engine unit according to claim 6, further comprising a pump between the oxygen tank and the gasification chamber. 11. An engine unit according to claim 8, wherein the pump is a variable delivery pump used for controlling the engine speed. 12. An engine unit according to claim 1, further comprising a heat exchanger between the liquid fuel tank and the gasification chamber for a starting gasification of the liquid fuel. 13. An engine unit according to claim 1, wherein the first gasification chamber is in fluid communication with an oxygen tank and with the fuel tank, and wherein the second gasification chamber is in fluid communication with the liquid gas tank, the first gasification chamber and the second gasification chamber being under thermal exchange condition for exchanging the combustion heat produced between the oxygen and the fuel. 14. An engine unit according to claim 13, wherein the first gasification chamber and the second gasification chamber arc in fluid communication through a thermal exchange chamber. 15. An engine unit according to claim 13, wherein the second gasification chamber is directly inserted inside the first gasification chamber. 16. A method for supplying with a compressed gas an engine particularly for urban traction and having an expansion chamber provided with a cylinder and a piston arranged for completing cyclically a power and an exhaust at each double stroke, the method comprising the following steps of gasifying a liquid gas thus obtaining compressed gas; extracting heat from the ambient atmosphere with a heat exchanger to achieve a starting gasification of the liquid gas; combusting, in a close housing in which a gasification chamber is formed, a predetermined limited amount of a liquid fuel and oxygen contained in the liquid gas, to achieve a further gasification, wherein combustion is performed in the same close area where the further gasification of the liquid gas takes place, the combustion heat being conveyed into the gasification area, the combustion taking place in the presence of a pilot igniter; and supplying the engine with the entire gaseous mixture comprising the compressed gas and with gaseous products of combustion process, wherein the compressed gas and gaseous products of combustion process pass through an intake manifold through a port of the gasification chamber and, from here, through-an intake valve into the expansion chamber, and wherein a working stroke of the piston is achieved by opening the intake valve for a first duration and pushing the piston at a constant pressure, and by closing the intake valve for a second duration and pushing the piston by gas expansion. 17. A method according to claim 16, wherein the liquid gas is of proper liquid air or liquid air depleted of oxygen, and wherein the combustion is performed with oxygen of the liquid air. 18. A method according to claim 16, wherein the liquid gas is of nitrogen and wherein the combustion is performed with oxygen autonomously supplied with respect to the liquid gas. 19. A method according to claim 16, wherein the liquid fuel is liquid hydrogen. 20. A method according to claim 16, wherein the predetermined limited amount of the liquid fuel is selected to obtain compressed gas at a predetermined pressure comprised between 10 and 30 atmospheres. 21. A method according to claim 16, wherein an exhaust stroke of the piston is achieved by opening an exhaust valve until the cylinder is emptied of the spent gas, which is discharged in the ambient atmosphere and by closing the exhaust valve until a pressure value is reached, being equal to that of the gasification chamber. 22. A method according to claim 20, wherein the predetermined pressure of the compressed gas is 20 atmospheres.
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이 특허에 인용된 특허 (2)
Latter Albert L. (Marina del Rey CA) Dooley James L. (Santa Monica CA) Hammond R. Philip (Santa Monica CA), Engine system using liquid air and combustible fuel.
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