An operating gas circulation type internal combustion engine that uses argon as the operating gas, for example, and includes a hydrogen and oxygen supply portion, an argon supply amount regulating portion, and an electric control unit. The electric control unit determines the amount of hydrogen and
An operating gas circulation type internal combustion engine that uses argon as the operating gas, for example, and includes a hydrogen and oxygen supply portion, an argon supply amount regulating portion, and an electric control unit. The electric control unit determines the amount of hydrogen and oxygen to be supplied to a combustion chamber based on a required torque, which is the torque required of the internal combustion engine, and supplies the determined amounts of hydrogen and oxygen to the combustion chamber using the hydrogen supply portion and the oxygen supply portion. Further, the electric control unit determines an amount of operating gas to be supplied to the combustion chamber according to the required torque, and controls the argon supply amount regulating portion such that the determined amount of operating gas is supplied to the combustion chamber.
대표청구항▼
The invention claimed is: 1. An internal combustion engine comprising: a combustion chamber for generating power by combusting hydrogen and expanding an operating gas that is an inert gas having a larger specific heat ratio than oxygen using heat generated by the combustion; an apparatus that suppl
The invention claimed is: 1. An internal combustion engine comprising: a combustion chamber for generating power by combusting hydrogen and expanding an operating gas that is an inert gas having a larger specific heat ratio than oxygen using heat generated by the combustion; an apparatus that supplies the operating gas in post-combustion gas discharged form the combustion chamber to the combustion chamber again; a hydrogen and oxygen supply apparatus that determines an amount of hydrogen and an amount of oxygen to be supplied to the combustion chamber such that the internal combustion engine generates torque of a magnitude corresponding to a required torque, which is the torque required of the internal combustion engine, and supplies the determined amount of hydrogen and the determined amount of oxygen to the combustion chamber; and an operating gas amount regulating apparatus that determines an amount of operating gas to be supplied to the combustion chamber according to the required torque, and regulates the amount of operating gas supplied to the combustion chamber such that the determined amount of operating gas is supplied to the combustion chamber. 2. The internal combustion engine according to claim 1, further comprising: combustion state index value obtaining means for obtaining a combustion state index value that is a value indicative of a combustion state of the internal combustion engine, wherein the operating gas amount regulating means regulates the amount of operating gas supplied to the combustion chamber based on the obtained combustion state index value. 3. An internal combustion engine comprising: a combustion chamber for generating power by combusting hydrogen and expanding an operating gas that is an inert gas having a larger specific heat ratio than oxygen using heat generated by the combustion; an operating gas supply apparatus that supplies the operating gas in post-combustion gas discharged form the combustion chamber to the combustion chamber again; a hydrogen supply apparatus that determines an amount of hydrogen to be supplied to the combustion chamber based on a required torque, which is the torque required of the internal combustion engine, and supplies the determined amount of hydrogen to the combustion chamber; an oxygen supply apparatus that determines an amount of oxygen to be supplied to the combustion chamber based on the determined amount of hydrogen, and supplies the determined amount of oxygen to the combustion chamber; and an operating gas amount regulating apparatus that determines an amount of operating gas to be supplied to the combustion chamber according to the required torque, and regulates the amount of operating gas supplied to the combustion chamber such that the determined amount of operating gas is supplied to the combustion chamber. 4. The internal combustion engine according to claim 3, further comprising: combustion state index value obtaining means for obtaining a combustion state index value that is a value indicative of a combustion state of the internal combustion engine, wherein the operating gas amount regulating means regulates the amount of operating gas supplied to the combustion chamber based on the obtained combustion state index value. 5. An internal combustion engine comprising: a combustion chamber into which hydrogen, oxygen, and an operating gas that is an inert gas having a larger specific heat ratio than oxygen is supplied, and that generates power by expanding the operating gas using heat generated by the combustion; an operating gas supply apparatus that supplies the operating gas in post-combustion gas discharged from the combustion chamber to the combustion chamber again; a combustion state index value obtaining apparatus that obtains a combustion state index value which is a value indicative of a combustion state of the internal combustion engine; and an operating gas amount regulating apparatus that regulates the amount of operating gas supplied to the combustion chamber based on the obtained combustion state index value. 6. The internal combustion engine according to claim 5, further comprising: hydrogen supplying means for determining an amount of hydrogen to be supplied to the combustion chamber based on a required torque, which is the torque required of the internal combustion engine, and supplying the determined amount of hydrogen to the combustion chamber; and oxygen supplying means for determining an amount of oxygen to be supplied to the combustion chamber based on the determined amount of hydrogen, and supplying the determined amount of oxygen to the combustion chamber. 7. The internal combustion engine according to claim 5, wherein the combustion state index value obtaining means obtains, as the combustion state index value, a value that uniformly increases or uniformly decreases as the combustion state of the internal combustion engine deteriorates; and the operating gas amount regulating means regulates the operating gas amount such that the operating gas amount supplied to the combustion chamber becomes the maximum amount within a range in which the obtained combustion state index value becomes a value indicative of a better operating state than an allowable predetermined limit combustion state. 8. The internal combustion engine according to claim 5, wherein the combustion state index value obtaining means obtains, as the combustion state index value, a value that uniformly increases or uniformly decreases as the combustion state of the internal combustion engine deteriorates; and the operating gas amount regulating means regulates the operating gas amount supplied to the combustion chamber such that the obtained combustion state index value falls within a predetermined range. 9. The internal combustion engine according to claim 5, wherein the combustion state index value is the quotient of the sum of accumulated absolute values of the difference between an average value of an indicated mean effective pressure and each indicated mean effective pressure, divided by the average value of the indicated mean effective pressure. 10. The internal combustion engine according to claim 5, wherein the combustion state index value is the quotient of an average value of an indicated mean effective pressure divided by the sum of accumulated absolute values of the difference between the average value of the indicated mean effective pressure and each indicated mean effective pressure. 11. The internal combustion engine according to claim 5, wherein the combustion state index value is the quotient of the sum of accumulated absolute values of the difference between an average value of an engine speed during a predetermined period and an instantaneous value of the engine speed with respect to a predetermined crank angle amount during the predetermined period, divided by the average value of the engine speed. 12. The internal combustion engine according to claim 5, wherein the combustion state index value is the quotient of an average value of an engine speed divided by the sum of accumulated absolute values of the difference between the average value of the engine speed during a predetermined period and an instantaneous value of the engine speed with respect to a predetermined crank angle amount during the predetermined period. 13. A control method for an operating gas circulation type internal combustion engine that generates power by combusting hydrogen in a combustion chamber of the internal combustion engine and expanding an operating gas, which is an inert gas having a larger specific heat ratio than oxygen, using heat generated by the combustion, and supplies operating gas in post-combustion gas discharged from the combustion chamber to the combustion chamber again, comprising: determining a required torque, which is the torque required of the internal combustion engine; determining an amount of hydrogen and an amount of oxygen to be supplied to the combustion chamber based on the required torque; supplying the determined amount of hydrogen and the determined amount of oxygen to the combustion chamber; determining an amount of operating gas to be supplied to the combustion chamber according to the required torque; and regulating the amount of operating gas supplied to the combustion chamber such that the determined amount of operating gas is supplied to the combustion chamber. 14. A control method for an operating gas circulation type internal combustion engine that generates power by combusting hydrogen in a combustion chamber of the internal combustion engine and expanding an operating gas, which is an inert gas having a larger specific heat ratio than oxygen, using heat generated by the combustion, and supplies operating gas in post-combustion gas discharged from the combustion chamber to the combustion chamber again, comprising: determining a required torque, which is the torque required of the internal combustion engine; determining an amount of hydrogen to be supplied to the combustion chamber based on the required torque; supplying the determined amount of hydrogen to the combustion chamber; determining an amount of oxygen to be supplied to the combustion chamber based on the determined amount of hydrogen; supplying the determined amount of oxygen to the combustion chamber; determining an amount of operating gas to be supplied to the combustion chamber based on the required torque; and regulating the amount of operating gas supplied to the combustion chamber such that the determined amount of operating gas is supplied to the combustion chamber. 15. A control method for an operating gas circulation type internal combustion engine that generates power by supplying hydrogen, oxygen, and an operating gas, which is an inert gas having a larger specific heat ratio than oxygen, to a combustion chamber of the internal combustion engine and expanding the operating gas using heat generated by the combustion, and supplies operating gas in post-combustion gas discharged from the combustion chamber to the combustion chamber again, comprising: obtaining a combustion state index value, which is a value indicative of a combustion state of the internal combustion engine; and regulating an amount of operating gas supplied to the combustion chamber based on the obtained combustion state index value.
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