초록 ▼

The internal combustion engine includes a reformer, and a heating unit composed of a power source connected to a reforming catalyst composed by carrying a catalyst on a metal foil, a positive electrode, and a negative electrode of the reforming catalyst. The reformer includes the reforming catalyst,

The internal combustion engine includes a reformer, and a heating unit composed of a power source connected to a reforming catalyst composed by carrying a catalyst on a metal foil, a positive electrode, and a negative electrode of the reforming catalyst. The reformer includes the reforming catalyst, and reforms a reforming mixture of reforming fuel and reforming air by the reforming catalyst to generate reformed gas containing hydrogen. This reformed gas is supplied to a combustion chamber of the internal combustion engine. Before the reforming mixture is supplied to the reforming catalyst, a temperature of the reforming catalyst is raised to a predetermined preheating temperature higher than an adiabatic reaction temperature in partial oxidation reaction, and then the internal combustion engine is started.

대표청구항 ▼

The invention claimed is: 1. An internal combustion engine, which is an internal combustion engine driven by igniting a mixture of air and fuel with a spark unit to thereby combust the fuel in a combustion chamber, the internal combustion engine comprising: a reforming unit that reforms a reforming

The invention claimed is: 1. An internal combustion engine, which is an internal combustion engine driven by igniting a mixture of air and fuel with a spark unit to thereby combust the fuel in a combustion chamber, the internal combustion engine comprising: a reforming unit that reforms a reforming mixture of reforming fuel and reforming air by a reforming catalyst to generate reformed gas containing hydrogen and supply this reformed gas to the combustion chamber; a reforming catalyst heating unit that raises a temperature of the reforming catalyst to a predetermined preheating temperature higher than an adiabatic reaction temperature in partial oxidation reaction of the reforming fuel, before the reforming mixture is supplied to the reforming catalyst; and a starting unit that starts the internal combustion engine, wherein the engine is started after the reforming by the reforming catalyst starts. 2. The internal combustion engine according to claim 1, wherein the preheating temperature is higher than a sum of the adiabatic reaction temperature in the partial oxidation reaction and a temperature of the reforming catalyst that drops from the supply of the reforming mixture to the reforming catalyst till the start of the partial oxidation reaction. 3. The internal combustion engine according to claim 2, wherein after the reforming mixture is supplied to the reforming catalyst, the temperature of the reforming catalyst becomes lower than a difference between the preheating temperature and the temperature of the reforming catalyst that drops until the partial oxidation reaction starts, and then the starting unit starts the internal combustion engine. 4. The internal combustion engine according to claim 2, wherein before the starting of the internal combustion engine, the heating by the reforming catalyst heating unit is stopped. 5. The internal combustion engine according to claim 4, wherein at the point of time when the reforming mixture is supplied to the reforming catalyst or later, the heating by the reforming catalyst heating unit is stopped. 6. The internal combustion engine according to claim 4, wherein the heating of the reforming catalyst by the reforming catalyst heating unit is stopped, and then the reforming mixture is supplied to the reforming catalyst. 7. The internal combustion engine according to claim 1, wherein the preheating temperature is changed in accordance with at least one of properties of the reforming air and properties of the reforming fuel. 8. An internal combustion engine, which is an internal combustion engine driven by igniting a mixture of air and fuel with a spark unit to thereby combust the fuel in a combustion chamber, the internal combustion engine comprising: a reforming unit that reforms a reforming mixture of reforming fuel and reforming air by a reforming catalyst to generate reformed gas containing hydrogen and supply this reformed gas to the combustion chamber; a reforming catalyst heating unit in which the reforming air is first supplied to the reforming catalyst, and then the reforming fuel is supplied to the reforming catalyst, and before the reforming air is supplied to the reforming unit, a temperature of the reforming catalyst is raised to a predetermined preheating temperature higher than an adiabatic reaction temperature in partial oxidation reaction of the reforming fuel; and a starting unit that starts the internal combustion engine after the reforming by the reforming catalyst starts, wherein the engine is started after the reforming by the reforming catalyst starts. 9. The internal combustion engine according to claim 8, wherein the preheating temperature is higher than a sum of the adiabatic reaction temperature in the partial oxidation reaction and a temperature of the reforming catalyst that drops by the supply of the reforming air to the reforming catalyst. 10. The internal combustion engine according to claim 8, wherein before the starting of the internal combustion engine, the heating of the reforming catalyst by the reforming catalyst heating unit is stopped. 11. The internal combustion engine according to claim 10, wherein a predetermined standby time elapses after the reforming fuel is supplied to the reforming catalyst, and then the starting unit starts the internal combustion engine. 12. The internal combustion engine according to claim 10, wherein at the point of time when the reforming air is supplied to the reforming catalyst or later, the heating of the reforming catalyst by the reforming catalyst heating unit is stopped. 13. The internal combustion engine according to claim 10, wherein before the reforming air is supplied to the reforming catalyst, the heating of the reforming catalyst by the reforming catalyst heating unit is stopped. 14. The internal combustion engine according to claim 10, wherein at the point of time when the reforming fuel is supplied to the reforming catalyst or later, the heating of the reforming catalyst by the reforming catalyst heating unit is stopped. 15. The internal combustion engine according to claim 10, wherein the heating of the reforming catalyst by the reforming catalyst heating unit is stopped, and then the reforming fuel is supplied to the reforming catalyst. 16. The internal combustion engine according to claim 8, wherein the preheating temperature is changed in accordance with at least one of properties of the reforming air and properties of the reforming fuel. 17. A starting control device of an internal combustion engine, which controls an internal combustion engine driven by igniting a mixture of air and fuel with a spark unit to thereby combust the fuel in a combustion chamber, and comprising a reforming unit that reforms a reforming mixture of reforming fuel and reforming air by a reforming catalyst to generate reformed gas containing hydrogen and supply this reformed gas to the combustion chamber, and a reforming catalyst heating unit that raises a temperature of the reforming catalyst, the starting control device comprising: a heating control unit that raises the temperature of the reforming catalyst to a predetermined preheating temperature higher than an adiabatic reaction temperature in partial oxidation reaction of the reforming fuel by the reforming catalyst heating unit, before the reforming mixture is supplied to the reforming catalyst; a reforming control unit that supplies the reforming mixture to the reforming catalyst after the temperature of the reforming catalyst becomes higher than the preheating temperature; and a starting control unit that starts the internal combustion engine after the reforming by the reforming catalyst starts. 18. A starting control device of an internal combustion engine, which controls an internal combustion engine driven by igniting a mixture of air and fuel with a spark unit to thereby combust the fuel in a combustion chamber, and comprising a reforming unit that reforms a reforming mixture of reforming fuel and reforming air by a reforming catalyst to generate reformed gas containing hydrogen and supply this reformed gas to the combustion chamber, and a reforming catalyst heating unit that raises a temperature of the reforming catalyst, the starting control device comprising: a heating control unit that raises the temperature of the reforming catalyst to a predetermined preheating temperature higher than an adiabatic reaction temperature in partial oxidation reaction of the reforming fuel by the reforming catalyst heating unit, before the reforming air is supplied to the reforming catalyst; a reforming control unit that supplies the reforming air to the reforming catalyst after the temperature of the reforming catalyst becomes higher than the preheating temperature, and then the reforming fuel is supplied to the reforming catalyst; and a starting control unit that starts the internal combustion engine after the reforming by the reforming catalyst starts.