An ammonia burning internal combustion engine can feed ammonia and a highly combustible substance burning easier than ammonia to a combustion chamber. When the amount of ammonia fed into the combustion chamber is increased or when the ratio of the amount of the ammonia to the total amount of the amm
An ammonia burning internal combustion engine can feed ammonia and a highly combustible substance burning easier than ammonia to a combustion chamber. When the amount of ammonia fed into the combustion chamber is increased or when the ratio of the amount of the ammonia to the total amount of the ammonia and the highly combustible substance fed into the combustion chamber is increased, the operating parameters of the internal combustion engine are controlled so the air-fuel mixture fed into the combustion chamber is made easier to burn. As a result, an ammonia burning internal combustion engine designed to suppress a drop in combustibility of auxiliary fuel due to ammonia, can be provided.
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1. An ammonia burning internal combustion engine able to feed ammonia and a highly combustible substance burning easier than ammonia to a combustion chamber, wherein when the amount of ammonia fed into the combustion chamber is increased or when the ratio of the amount of the ammonia to the total am
1. An ammonia burning internal combustion engine able to feed ammonia and a highly combustible substance burning easier than ammonia to a combustion chamber, wherein when the amount of ammonia fed into the combustion chamber is increased or when the ratio of the amount of the ammonia to the total amount of the ammonia and the highly combustible substance fed into the combustion chamber is increased, operating parameters of the internal combustion engine are controlled so that the temperature of the intake gas in the combustion chamber when a piston is at compression top dead center becomes higher. 2. An ammonia burning internal combustion engine as set forth in claim 1, wherein when the amount of ammonia fed into the combustion chamber is increased or when the ratio of the amount of the ammonia to the total amount of the ammonia and the highly combustible substance fed into the combustion chamber is increased, the operating parameters of the internal combustion engine are controlled so that the temperature of the intake gas sucked into the combustion chamber rises. 3. An ammonia burning internal combustion engine as set forth in claim 2, further comprising: an EGR mechanism feeding part of the exhaust gas as EGR gas to the combustion chamber again,wherein when the amount of ammonia fed into the combustion chamber is increased or when the ratio of the amount of the ammonia to the total amount of the ammonia and the highly combustible substance fed into the combustion chamber is increased, the EGR mechanism is controlled so that the amount of heat given to the intake gas sucked into the combustion chamber by the EGR gas is increased. 4. An ammonia burning internal combustion engine as set forth in claim 1, further comprising: an actual compression ratio changing mechanism controlling an actual compression ratio of a volume of the combustion chamber at the time when the piston is at compression top dead center with respect to the volume of the combustion chamber at the time of closing the intake valve,wherein when the amount of ammonia fed into the combustion chamber is increased or when the ratio of the amount of the ammonia to the total amount of the ammonia and the highly combustible substance fed into the combustion chamber is increased, the actual compression ratio changing mechanism is controlled so that the actual compression ratio becomes higher. 5. An ammonia burning internal combustion engine as set forth in claim 1, wherein when the amount of ammonia fed into the combustion chamber is increased or when the ratio of the amount of the ammonia to the total amount of the ammonia and the highly combustible substance fed into the combustion chamber is increased, the operating parameters of the internal combustion engine are controlled so that at the time of closing the intake valve, the amount of intake gas charged into the combustion chamber is made larger. 6. An ammonia burning internal combustion engine as set forth in claim 5, wherein when the amount of ammonia fed into the combustion chamber is increased or when the ratio of the amount of the ammonia to the total amount of the ammonia and the highly combustible substance fed into the combustion chamber is increased, the operating parameters of the internal combustion engine are controlled so that at the time of closing the intake valve, the amount of air charged into the combustion chamber is made larger. 7. An ammonia burning internal combustion engine as set forth in claim 5, further comprising: an EGR mechanism feeding part of the exhaust gas as EGR gas to the combustion chamber again,wherein when the amount of ammonia fed into the combustion chamber is increased or when the ratio of the amount of the ammonia to the total amount of the ammonia and the highly combustible substance fed into the combustion chamber is increased, the operating parameters of the internal combustion engine are controlled so that at the time of closing the intake valve, the amount of EGR gas charged into the combustion chamber is made larger. 8. An ammonia burning internal combustion engine as set forth in claim 1, further comprising: an impulse valve provided in an intake tube or intake port, said impulse valve being made to open after an intake valve is opened so as to generate negative pressure at an intake port at a downstream side of the impulse valve,wherein when the amount of ammonia fed into the combustion chamber is increased or when the ratio of the amount of the ammonia feed to the total amount of the ammonia and the highly combustible substance fed into the combustion chamber is increased, the opening timing of the impulse valve is made to be retarded. 9. An ammonia burning internal combustion engine able to feed ammonia and a highly combustible substance burning easier than ammonia to a combustion chamber, comprising: an EGR mechanism feeding part of the exhaust gas as EGR gas to the combustion chamber again,wherein when the amount of ammonia fed into the combustion chamber is increased or when the ratio of the amount of the ammonia to the total amount of the ammonia and the highly combustible substance fed into the combustion chamber is increased, the EGR mechanism is controlled so that the ratio of the EGR gas in the intake gas fed into the combustion chamber is decreased. 10. An ammonia burning internal combustion engine able to feed ammonia and a highly combustible substance burning easier than ammonia to a combustion chamber, comprising: an air flow control system controlling turbulence of the air flow in the combustion chamber,wherein when the amount of ammonia fed into the combustion chamber is increased or when the ratio of the amount of the ammonia to the total amount of the ammonia and the highly combustible substance fed into the combustion chamber is increased, the air flow control system is controlled so that the turbulence of the air flow occurring in the air-fuel mixture in the combustion chamber is made greater. 11. An ammonia burning internal combustion engine able to feed ammonia and a highly combustible substance burning easier than ammonia to a combustion chamber, comprising: a highly combustible substance injector injecting the highly combustible substance directly into the combustion chamber,wherein when the amount of ammonia fed into the combustion chamber is increased or when the ratio of the amount of the ammonia to the total amount of the ammonia and the highly combustible substance fed into the combustion chamber is increased, the injection pressure of the highly combustible substance from the highly combustible substance injector is made higher. 12. An ammonia burning internal combustion engine able to feed ammonia and a highly combustible substance burning easier than ammonia to a combustion chamber, wherein at the time of normal operation of the engine, the air-fuel ratio of the air-fuel mixture fed into the combustion chamber is made lean and, when the amount of ammonia fed into the combustion chamber is increased or when the ratio of the amount of the ammonia to the total amount of the ammonia and the highly combustible substance fed into the combustion chamber is increased, the air amount fed into the combustion chamber is controlled so that the air-fuel ratio of the air-fuel mixture fed into the combustion chamber is made to approach the stoichiometric air-fuel ratio. 13. A compression ignition type ammonia burning internal combustion engine able to feed ammonia and a highly combustible substance burning easier than ammonia, to a combustion chamber, comprising: an ammonia injector directly injecting ammonia into the combustion chamber and a highly combustible substance injector directly injecting the highly combustible substance into the combustion chamber,wherein the highly combustible substance is injected before the ammonia, and the ammonia is injected after the highly combustible substance self ignites.
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이 특허에 인용된 특허 (5)
Dincer, Ibrahim; Zamfirescu, Calin, Apparatus for using ammonia as a sustainable fuel, refrigerant and NOx reduction agent.
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