Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The apparently simple structure of a four-stroke internal combustion cylinder belies the complicated problem of optimizing valve operation in response to a change in crankshaft rotation speed. The objective of this study was to determine the cylinder pressure for valve event angles in order to determine the optimal strategy for the timing of valve events when independently-actuated valves are available. In this work, an artificial neural network is applied to create a prediction matrix to anticipate the best variable valve timing approach according to rotation speed.
Wydawca
Rocznik
Tom
Strony
114--121
Opis fizyczny
Bibliogr. 21 poz., fig.
Twórcy
autor
- Faculty of Mechanical Engineering, Istanbul Technical University, Istanbul, Turkey
autor
- Department of Mechanical Engineering, South Tehran Branch, Islamic Azad University, Tehran, Iran
autor
- Department of Mechanical Engineering, South Tehran Branch, Islamic Azad University, Tehran, Iran
Bibliografia
- 1. Benson, R.S., Annand, J. D. and Baruah, P.C., A simulation Model Including Intake and Exhaust Systems for a Single Cylinder Four-Stroke Cycle Spark Ignition Engine, Int. J. Mech. Sci, Pergamon Press, 17, 1975, 97-124.
- 2. Bin Wu, Using artificial neural networks for representing the air flow rate through a 2.4 liter VVT en-gine. SAE Technical Papers. Powertrain and Fluid Systems Conference and Exhibition, Tampa, FL, United States, 25-28 October.
- 3. Bjørn F. Magnussen, The Eddy Dissipation Concept A Bridge Between Science And Technology ECCOMAS Thematic Conference on Computational Combustion, Lisbon, June 21-24, 2005.
- 4. Cao L., Zhao H., Jiang X. and Kalian N., Understanding the Influence of Valve Timings on Controlled Auto-Ignition Combustion in a Four-Stroke Port Fuel Injection Engine. Journal of Automobile Engineering, 6 (219), 2005, 807-823.
- 5. Carrie M. Hall, Combustion Phasing Model for Control of a Gasoline-Ethanol Fueled SI Engine with Variable Valve Timing, American Control Conference Fairmont Queen Elizabeth, Montréal, Canada June 27-June 29, 2012.
- 6. Caufield S, Rubenstein B, Martin JK, et al. A comparison between CFD predictions and measurements at inlet port discharge coefficient and flow characteristics. In: SAE Paper No. 1999-01-3339 in the small engine technology conference and exposition; 1999.
- 7. Chedthawut Poompipatpong, Effects Of Intake Valve Timing And Injection Timing In A Natural Gas Dedicated Diesel Engine. Msc Final Thesis, King Mongkut’s Institute Of Technology North Bangkok Academic Year 2007.
- 8. Fiorenza R, Pirelli M, Torella E, et al. Variable swirl and internal EGR by VVT application on small displacement 2 valve SI engines: an intelligent technology combination. In: FISITA 2004 world automotive congress. May 23–27.
- 9. Fontana G., Galloni E., Variable valve timing for fuel economy improvement in a small spark-ignition engine. Elsevier Journal of Applied Energy 86, 2009, 96–105.
- 10. Gölcü M., Artificial neural-network based modeling of variable valve-timing in a spark-ignition engine. Elsevier Journal of Applied Energy, 2 (81), 2005, 187–197.
- 11. Hara S, Nakajima Y, Nagumo S., Effects of intake valve closing timing on SI engine combustion, In: SAE Technical Paper Series 850074; 2015.
- 12. Joonsup Han, Jaehyeon Lee, Hyungmin Kim, Kihyung Lee, A Study on the Effect of Valve Timing on the Combustion and Emission Characteristics for a 4-cylinder PCCI Diesel Engine. World Academy of Science, Engineering and Technology International Journal of Mechanical, Aerospace, Industrial, Mechatronic and Manufacturing Engineering, 10 (4), 2010.
- 13. Kang, J.Mo. and Grizzle, J.W. Dynamic control of a SI engine with variable intake valve timing. International Journal of Robust and Nonlinear Control, 5 (13), 2003, 399-420.
- 14. Khaldoun K. Tahboub, An ANN-GA Framework for Optimal Engine Modeling. Mathematical Prob-lems in Engineering, vol. 2016, Article ID 6180758, 8 pages, 2016. doi:10.1155/2016/6180758.
- 15. Luria D., Taitel Y., And Stotter, A., The Otto–Atkinson Engine anew Concept in Automotive Economy. SAE paper 820352, 2002.
- 16. Osama H. M. Ghazal, Modeling the Effect of Variable Timing of the Exhaust Valves on SI Engine Emissions for Greener Vehicles”, SCIRP journal of Energy and Power Engineering, 5, 2013, 181-189.
- 17. Paulina S. Kuo, Cylinder Pressure in a Spark-Ignition Engine: A Computational Model”, J. Undergrad. Sci. 3, 1996, 141-145.
- 18. Rabia S. M., Effect Of Valve Timing And Exhaust Back Pressure On The Performance Of Gasoline Engine, Journal of Engineering Sciences, Assiut University, 3 (38), 2010, 685-696.
- 19. Saunders, R.J., And Rabia, S.M., Part Load Efficiency in Gasoline Engines, paper presented at Institution of Mechanical Engineers, Combustion Engines Group, 1986.
- 20. Tuttle JH, Controlling engine load by means of late intake-valve closing, In: SAE paper No. 800794 in the automotive engineering congress and exposition; 2008.
- 21. Wu C., Puzinauskas P.V., Tsai JS. Performances analysis and optimization of a supercharged Miller cycle Otto engine. Appl Therm Eng 23, 2013; 511–21.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6f7ba96f-f161-431a-bc45-91433a64e24a