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ELEKTROMEKANİK SUPAP MEKANİZMALARINDA TASARIM PARAMETRELERİNİN İNCELENMESİ

The Investigation of the Design Parameters of Electromagnetic Valve Actuation Systems

Journal Name:

  • Uludağ Üniversitesi Mühendislik-Mimarlık Fakültesi Dergisi

Publication Year:

  • 2004

Key Words:

Keywords (Original Language):

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
Electromagnetic valve actuation system is a new technology for the improvement of fuel economy and the reduction of emissions in internal combustion engines. It can be easily adapted to existing engine systems and provides more flexible valve timing than the other variable valve train systems. Electromagnetic valve actuation system must open and close fast enough to catch the motor speed and in the meantime it must provide reliable valve performance. In this study, two different models of electromagnetic valve actuation system are considered and their design parameters are investigated. Dynamic characteristics of the systems are obtained with a MATLAB/Simulink program.
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Abstract (Original Language): 
Elektromekanik supap mekanizmaları, içten yanmalı motorlarda yakıt tüketimini ve çevreye atılan kirletici oranlarını azaltan yeni bir teknolojidir. Bu sistemin mevcut motor tasarımlarına uyumu kolaydır ve diğer değişken zamanlamalı supap mekanizmalarına göre daha esnek supap zamanlaması sağlar. Elektromekanik supap mekanizmaları supabı çok kısa sürede açıp kapatmalı ve güvenilir bir supap performansı sağlamalıdır. Bu çalışmada elektromekanik supap mekanizmaları için iki farklı model ele alınmış ve bu iki model üzerinde tasarım parametreleri incelenmiştir. Sistemin dinamik karakteristikleri MATLAB/Simulink programında hazırlanan bir model ile elde edilmiştir.
FULL TEXT (PDF): 
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  • 2
45-58
  • Turkish

REFERENCES

References: 

1. Giglio, V. Iorio, B., Police, G., Gaeta, A. di., (2001), Preliminary Experiences in the design of an
Electromechanical Valve Actuator, Internal Combustion Engine 2001 Congress.
2. Giglio, V. Iorio, B., Police, G., Gaeta, A. di., (2001), Analysis of Advantages and of Problems of
Electromechanical Valve Actuators, Variable Valve Actuation 2002, SAE 2002-01-1105.
3. Kamış, Z., Yüksel, İ., Topçu, E. E., (2002), Bir Elektromekanik Supap Mekanizması Tasarımı, OTEKON'02,
300-307.
4. Kamış, Z., Yüksel, İ. (2003), Elektromekanik Supap Mekanizması Tasarımı ve Tasarıma Etki Eden Parametrelerin
Araştırılması, Mühendis ve Makine, ISSN 1300-3402, Sayı 523, 14-27.
5. Park, S. H., Lee, J., Yoo, J., Kim, D., Park, K., Cho, Y., (2001), A Developing Process of Newly Developed
Electromagnetic Valve Actuator - Effect of Design and Operating Parameters, SAE. 02FFL-93.
6. Park, S. H., Lee, J., Yoo, J., Kim, D., Park, K., (2003), Effects of Design and Operating Parameters on the Static
and Dynamic Performance of an Electromagnetic Valve Actuator, Journal of Automobile Engineering, Vol.217,
193-201.
7. Park, S. H., Lee, J., Yoo, J., Kim, D. (2003), A study on the Design of Electromagnetic Valve Actuator for VVT
Engine, KSME International Journal, Vol. 17, 357-369.
8. Pischinger, M. Salber, W., Staay, F. V. D., Baumgarten, H., Kemper, H., (2000), Benefits of the
Electromechanical Valve Train in Vehicle Operation, Variable Valve Actuation 2000, SAE. 2000-01-1223, 43-
53.
9. Roters, H. C., (1941), Electromagnetic Devices, John Wiley & Sons. Inc., 7th Edition, New York.
10. Straky, H., Isermann, R., Ortmann, R., Schöner, H. P., Wagner, B., (2001), Modellgestützter Entwurf einer
robusten Aktoregelung für einen vollvariablen elektromechanischen Ventiltrieb, 3. Symposium
Steuerungssysteme für den Antriebsstrang von Kraftfahrzeugen, Berlin.
11. Stubbs, A., (2000), Modeling and Controller Design of an Electromagnetic Engine Valve, M.Sc. Thesis,
University of Illinois at Urbana-Champaign.
12. Şefkat, G., (2002), Bir Elektromekanik Aygıtın Statik ve Dinamik Karakteristiğinin Araştırılması, Pamukkale
Üniversitesi, Mühendislik Bilimleri Dergisi, ISSN 1300-7009, Cilt 8, Sayı 3, 273-282.
13. Tai, C., Stubbs, A., Tsao, T. C., (2001), Modeling and Controller Design of an Electromagnetic Engine Valve,
Proceedings of the American Control Conference, Arlington, 2890-2894.
14. Wang, Y., Stefanopoulou, A., Haghgooie, M., Kolmanovsky, I., Hammoud, M., (2000), Modeling of an
Electromechanical Valve Actuator for a Camless Engine, Proceedings AVEC 2000, 5 th Int. Symposium on
Advanced Vehicle Control, No 93.
15. Wang, Y., Megli, T., Haghgooie, M., (2002), Modeling and Control of Electromechanical Valve Actuator,
Variable Valve Actuation 2002, SAE. 2002-01-1106.

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