According to the invention, noise of an internal combustion engine is reduced by dynamically correcting the moment of injection when the engine is in the transient mode.
대표청구항▼
What is claimed is: 1. A method of operating an internal combustion engine with homogeneous fuel combustion, wherein a condition variable in a cylinder is determined as a function of a crank angle and a signal about a cylinder condition is obtained therefrom, wherein at least two characteristic cyc
What is claimed is: 1. A method of operating an internal combustion engine with homogeneous fuel combustion, wherein a condition variable in a cylinder is determined as a function of a crank angle and a signal about a cylinder condition is obtained therefrom, wherein at least two characteristic cycle values from a group comprising mass fraction of injected fuel burned, maximum pressure increase in the cylinder, combustion noise, start of combustion or duration of combustion are determined from the cylinder condition signal, the determined characteristic cycle values are compared with desired values for the characteristic cycle values entered in a characteristic diagram and a given difference between the two values is computed and the difference is supplied to a regulation algorithm and a time of fuel ignition of at least one injection event or an inert gas fraction in the cylinder is adjusted as a correcting variable in order to stabilize combustion and to minimize noise and exhaust emission, wherein the condition variable is selected from pressure and temperature. 2. The method according to claim 1, wherein the characteristic cycle values are determined either from an output signal of a sensor making use of an acoustic, optical, electrical, thermodynamic or mechanical principle of measurement, through a mathematical model or by combining a sensor-based and a model-based approach. 3. The method according to claim 1, wherein a 50% mass fraction of an injected fuel burned and a maximum in-cylinder pressure increase are determined as the characteristic cycle values. 4. The method according to claim 1, wherein supply and variation of an inert gas mass within the cylinder is carried out through external exhaust gas recirculation or through in-cylinder exhaust gas recirculation or by combining internal and external exhaust gas recirculation. 5. The method according to claim 1, wherein control variables of fuel injection timing of at least one injection event and inert gas fraction within the cylinder are adjusted simultaneously by means of the regulation algorithm. 6. The method according to claim 1, wherein a precontrol value that is dependent on an operating condition of the engine and has been entered in a respective characteristic diagram is added to a respective one of the values calculated for the control variables through the regulation algorithm. 7. A method of operating an internal combustion engine, wherein a condition variable in a cylinder is determined as a function of a crank angle and a signal about a cylinder condition is obtained therefrom, wherein at least two characteristic cycle values from a group comprising mass fraction of injected fuel burned, maximum pressure increase in the cylinder, combustion noise, start of combustion or duration of combustion are determined from the cylinder condition signal, the determined characteristic cycle values are compared with desired values for the characteristic cycle values entered in a characteristic diagram and a given difference between the two values is computed and the difference is supplied to a regulation algorithm and a time of fuel ignition of at least one injection event or an inert gas fraction in the cylinder is adjusted as a correcting variable in order to stabilize combustion and to minimize noise and exhaust emission, and wherein a 50% mass fraction of an injected fuel burned and a maximum in-cylinder pressure increase are determined as the characteristic cycle values. 8. The method according to claim 7, wherein the condition variable is selected from a group comprising pressure, temperature, ion flow and output signal of an optical principle of measurement. 9. The method according to claim 7, wherein the characteristic cycle values are determined either from an output signal of a sensor making use of an acoustic, optical, electrical, thermodynamic or mechanical principle of measurement, through a mathematical model, or by combining a sensor-based and a model-based approach. 10. The method according to claim 7, wherein supply and variation of an inert gas mass within the cylinder is carried out through external exhaust gas recirculation or through in-cylinder exhaust gas recirculation or by combining internal and external exhaust gas recirculation. 11. The method according, to claim 7, wherein control variables of fuel injection timing of at least one injection event and inert gas fraction within the cylinder are adjusted simultaneously by means of the regulation algorithm. 12. The method according to claim 7, wherein a precontrol value that is dependent on an operating condition of the engine and has been entered in a respective characteristic diagram is added to a respective one of the values calculated for the control variables through the regulation algorithm. 13. A method of operating an internal combustion engine, wherein a condition variable in a cylinder is determined as a function of a crank angle and a signal about a cylinder condition is obtained therefrom, wherein at least two characteristic cycle values from a group comprising mass fraction of injected fuel burned, maximum pressure increase in the cylinder, combustion noise, start of combustion or duration of combustion are determined from the cylinder condition signal, the determined characteristic cycle values are compared with desired values for the characteristic cycle values entered in a characteristic diagram and a given difference between the two values is computed and the difference is supplied to a regulation algorithm and a time of fuel ignition of at least one injection event or an inert gas fraction in the cylinder is adjusted as a correcting variable in order to stabilize combustion and to minimize noise and exhaust emission, and wherein control variables of fuel injection timing of at least one injection event and inert gas fraction within the cylinder are adjusted simultaneously by means of the regulation algorithm. 14. The method according to claim 13, wherein the condition variable is selected from pressure, temperature, ion flow and output signal of an optical principle of measurement. 15. The method according to claim 13, wherein the characteristic cycle values are determined either from an output signal of a sensor making use of an acoustic, optical, electrical, thermodynamic or mechanical principle of measurement, through a mathematical model or by combining a sensor-based and a model-based approach. 16. The method according to claim 13, wherein a 50% mass fraction of an injected fuel burned and a maximum in-cylinder pressure increase are determined as the characteristic cycle values. 17. The method according to claim 13, wherein supply and variation of an inert gas mass within the cylinder is carried out through external exhaust gas recirculation or through in-cylinder exhaust gas recirculation or by combining internal and external exhaust gas recirculation. 18. The method according to claim 13, wherein a precontrol value that is dependent on an operating condition of the engine and has been entered in a respective characteristic diagram is added to a respective one of the values calculated for the control variables through the regulation algorithm. 19. A method of operating an internal combustion engine, wherein a condition variable in a cylinder is determined as a function of a crank angle and a signal about a cylinder condition is obtained therefrom, wherein at least two characteristic cycle values from a group comprising mass fraction of injected fuel burned, maximum pressure increase in the cylinder, combustion noise, start of combustion or duration of combustion are determined from the cylinder condition signal, the determined characteristic cycle values are compared with desired values for the characteristic cycle values entered in a characteristic diagram and a given difference between the two values is computed and the difference is supplied to a regulation algorithm and a time of fuel ignition of at least one injection event or an inert gas fraction in the cylinder is adjusted as a correcting variable in order to stabilize combustion and to minimize noise and exhaust emission, and wherein a precontrol value that is dependent on an operating condition of the engine and has been entered in a respective characteristic diagram is added to a respective one of the values calculated for the control variables through the regulation algorithm. 20. The method according to claim 19, wherein the condition variable is selected from pressure, temperature, ion flow and output signal of an optical principle of measurement. 21. The method according to claim 19, wherein the characteristic cycle values are determined either from an output signal of a sensor making use of an acoustic, optical, electrical, thermodynamic or mechanical principle of measurement, through a mathematical model or by combining a sensor-based and a model-based approach. 22. The method according to claim 19, wherein a 50% mass fraction of an injected fuel burned and a maximum in-cylinder pressure increase are determined as the, characteristic cycle values. 23. The method according to claim 19, wherein supply and variation of an inert gas mass within the cylinder is carried out through external exhaust gas recirculation or through in-cylinder exhaust gas recirculation or by combining internal and external exhaust gas recirculation. 24. The method according to claim 19, wherein control variables of fuel injection timing of at least one injection event and inert gas fraction within the cylinder are adjusted simultaneously by means of the regulation algorithm.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (8)
Dickey Daniel W., Apparatus and method for controlling homogeneous charge compression ignition combustion in diesel engines.
Bullis Robert H. (Avon CT) DiDomenico Robert A. (Ludlow MA) Kimberley John A. (East Granby CT) McHugh Thomas M. (Manchester CT) Parent Christopher A. (West Springfield MA) Voss James R. (Wilbraham MA, Method and apparatus for controlling fuel injection timing in a compression ignition engine.
Flynn Patrick F. ; Hunter Gary L. ; zur Loye Axel O. ; Akinyemi Omowoleoia C. ; Durrett Russ P. ; Moore Greg A. ; Mudd Jackie M. ; Muntean George G. ; Wagner Julie A. ; Wright John F., Premixed charge compression ignition engine with optimal combustion control.
Flynn Patrick F. ; Hunter Gary L. ; zur Loye Axel O. ; Akinyemi Omowoleola C. ; Durrett Russ P. ; Moore Greg A. ; Muntean George G. ; Peters Lester L. ; Pierz Patrick M. ; Wagner Julie A. ; Wright Jo, Premixed charge compression ignition engine with optimal combustion control.
Kokal, Helmut; Mayrhofer, Josef; Denger, Dirk; Schmidt, Martin; del Re, Luigi, Method and control arrangement for controlling a controlled system with a repeating working cycle.
Loeffler, Axel; Fischer, Wolfgang; Karrelmeyer, Roland; Graf, Gerald, Method for operating a self-igniting internal combustion engine and corresponding control device.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.