Modelling and analysis of spring return electromagnetic valve actuator for SI engine
In internal combustion engines, variable valve timing is one of the most important parameters that affects engine performance, fuel consumption and exhaust emission. In all engine speed values, electromechanical valve actuators (EVA) are needed for variable valve timing. EVAs allow the intake and th...
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| Veröffentlicht in: | International journal of vehicle design 2019-01, Vol.81 (1-2), p.1-18 |
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| container_title | International journal of vehicle design |
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| creator | Aygül, Volkan Ayaz, Murat Özsezen, Ahmet Necati |
| description | In internal combustion engines, variable valve timing is one of the most important parameters that affects engine performance, fuel consumption and exhaust emission. In all engine speed values, electromechanical valve actuators (EVA) are needed for variable valve timing. EVAs allow the intake and the exhaust valves to be opened and closed at the right time by the camshaft. The valves can be opened and closed by the magnet circuits and the opening and closing time can be controlled without depending on the camshaft present in all engines. The most critical part for EVA design is the solenoid in terms of the limited space on the cylinder head, the magnetic force required to open and close the valve, the coil temperature and the valve speed. This study proposes a comprehensive design of piston-type EVA and an analysis of its performance. The simulation results of the analysis with finite element method have been verified with the experimental test results. In addition, the conventional valve profile has been compared with the EVA valve profile. |
| doi_str_mv | 10.1504/IJVD.2019.110696 |
| format | Article |
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In all engine speed values, electromechanical valve actuators (EVA) are needed for variable valve timing. EVAs allow the intake and the exhaust valves to be opened and closed at the right time by the camshaft. The valves can be opened and closed by the magnet circuits and the opening and closing time can be controlled without depending on the camshaft present in all engines. The most critical part for EVA design is the solenoid in terms of the limited space on the cylinder head, the magnetic force required to open and close the valve, the coil temperature and the valve speed. This study proposes a comprehensive design of piston-type EVA and an analysis of its performance. The simulation results of the analysis with finite element method have been verified with the experimental test results. 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In all engine speed values, electromechanical valve actuators (EVA) are needed for variable valve timing. EVAs allow the intake and the exhaust valves to be opened and closed at the right time by the camshaft. The valves can be opened and closed by the magnet circuits and the opening and closing time can be controlled without depending on the camshaft present in all engines. The most critical part for EVA design is the solenoid in terms of the limited space on the cylinder head, the magnetic force required to open and close the valve, the coil temperature and the valve speed. This study proposes a comprehensive design of piston-type EVA and an analysis of its performance. The simulation results of the analysis with finite element method have been verified with the experimental test results. 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| ispartof | International journal of vehicle design, 2019-01, Vol.81 (1-2), p.1-18 |
| issn | 0143-3369 0413-3369 1741-5314 |
| language | eng |
| recordid | cdi_inderscience_journals_10_1504_IJVD_2019_110696 |
| source | Inderscience Journals |
| subjects | Actuators Camshafts Coils Cylinder heads Engine valves Equipment and supplies Exhaust emission Finite element method Headspace Internal combustion engines Magnetic fields Solenoids Spark ignition Temperature requirements Valves |
| title | Modelling and analysis of spring return electromagnetic valve actuator for SI engine |
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