EFFECT OF CYLINDER DEACTIVATION STRATEGIES ON ENGINE PERFORMANCES USING ONE-DIMENSIONAL SIMULATION TECHNIQUE
DOI:
https://doi.org/10.11113/jt.v78.9584Keywords:
Cylinder deactivation, gt-power, intake, fuel consumption, pumping lossAbstract
In order to meet consumer and legislation requirements, big investments on key technology strategies have been made to ensure fuel consumption is reduced. Recent technologies for gasoline engines are lean combustion technologies (including direct injection and homogenous charged compression ignition), optimizing intake and exhaust valve timing with valve lift and also cylinder deactivation system (CDA) have been practised to improve the engine efficiency. The purpose of this study is to investigate the engine behavior when running at different cylinder deactivation (CDA) strategies. One-dimensional engine model software called GT-Power is used to predict the engine performances. Five strategies were considered namely normal mode, spark plug off mode, cylinder deactivation mode, intake normal with exhaust off mode, and intake off with exhaust normal mode. Â Engine performance outputs of each strategy are predicted and compared at BMEP of 3 bars with engine speed of 2500 rpm. Also, the effect of CDA strategies on in-cylinder pressure and pumping loss are performed. The study shows that all of these cylinder deactivation strategies are capable of reducing the pumping loss (PMEP) and fuel consumption, thus increasing the thermal efficiency of the engine. The results suggest that the most beneficial strategy for activating CDA is for the case whereby both the intake and exhaust valves are kept closed. This CDA mode capable of increasing brake thermal efficiency up to 22% at entire engine speeds operation. This strategy successfully reduced the BSFC. It was found that most of these cylinder deactivation strategies improve the engine performance during part load engine conditionReferences
Kuruppu, C., Pesiridis, A. and Rajoo, S. 2014. Investigation of Cylinder Deactivation and Variable Valve Actuation on Gasoline Engine Performance. SAE Technical Paper. 2014-01-1170.
Leone, T. and Pozar, M. 2001. Fuel Economy Benefit of Cylinder Deactivation - Sensitivity to Vehicle Application and Operating Constraints. SAE Technical Paper. 2001-01-3591.
Boretti, A. and Scalco, J. 2011. Piston and Valve Deactivation for Improved Part Load Performances of Internal Combustion Engines. SAE Technical Paper. 2011-01-0368.
Fukui, T., Nakagami, T., Endo, H. and Katsumoto, T. 1983. Mitsubishi Orion-md - A New Variable Displacement Engine. SAE Technical Paper. 831007.
Shelby, M., Stein, R. and Warren, C. 2004. A New Analysis Method for Accurate Accounting of IC Engine Pumping Work and Indicated Work. SAE Technical Paper. 2004-01-1262.
Shiao, Y. and Dat, L. V. 2012. Efficiency Improvement for an Unthrottled SI Engine at Part Load. International Journal of Automotive Technology. 13(6): 885-893.
Watanabe, E. and Fukutani, I. 1982. Cylinder Cutoff of 4-stroke Cycle Engines at Part-load and Idle. SAE Technical Paper. 820156.
Flierl, R., Lauer, F., Breuer, M. and Hannibal, W. 2012. Cylinder Deactivation with Mechanically Fully Variable Valvetrain. SAE Int. J. Engines. 5(2):207-215.
Gamma, T. 2012. GT-SUITE - Flow Theory Manual. Gamma Technologies Inc.
Muhamad Said, M., Abdul Aziz, A., Abdul Latiff, Z. and Mahmoudzadeh Andwari, A. 2014. Investigation of Cylinder Deactivation (CDA) Strategies on Part Load Conditions. SAE Technical Paper. 2014-01-2549.
Zahari, I., Abas M.A., Mat Arishad N.I., Zainal Abidin S.F. and Muhamad Said M.F. 2013. Experimental Study to Identify Common Engine Part Load Conditions between Malaysian City Driving and NEDC Test. International Review of Mechanical Engineering. 7(6): 1152-1158.
Abas, M., Salim, O., Martinez-Botas, R. and Rajoo, S. 2014. Efforts to Establish Malaysian Urban Drive-cycle for Fuel Economy Analysis. SAE Technical Paper. 2014-01-1159
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