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Smooth In-Cylinder Lean-Rich Combustion Switching Control for Diesel Engine Exhaust-Treatment System Regenerations

Journal Article
2008-01-0979
ISSN: 1946-4614, e-ISSN: 1946-4622
Published April 14, 2008 by SAE International in United States
Smooth In-Cylinder Lean-Rich Combustion Switching Control for Diesel Engine Exhaust-Treatment System Regenerations
Sector:
Citation: Wang, J., "Smooth In-Cylinder Lean-Rich Combustion Switching Control for Diesel Engine Exhaust-Treatment System Regenerations," SAE Int. J. Passeng. Cars - Electron. Electr. Syst. 1(1):340-348, 2009, https://doi.org/10.4271/2008-01-0979.
Language: English

References

  1. Sarlashkar J. Sasaki S. Neely G. Wang J. Sono H. “An Airflow-Dominant Control System for Future Diesel Engines,” JSAE Paper 20077092/SAE Paper 2007-01-2070 2007
  2. Sasaki S. Sarlashkar J. Neely G. Wang J. Lu Q. Sono H. “Investigation of Alternative Combustion, Airflow Dominant Control and Aftertreatment System for Clean Diesel Vehicles” JSAE Paper 20077094/SAE Paper 2007-01-1937 2007
  3. Theis J. Gulari E. “A LNT+SCR System for Treating the NOx Emissions from a Diesel Engine,” SAE Paper 2006-01-0210 2006
  4. Sunohara D. Kohketsu S. Nakayama S. Tanabe K. Murata M. Miyamoto S. “Control of Rich Spike with Adaptive Estimation of Stored NOx in Lean NOx Trap for a Diesel Engine,” SAE Paper 2005-01-1090 2005
  5. Ito T. Matsuoka H. Fujimura T. Teraoka K. “The New Toyota 2.0L Direct Injection Diesel Engine with D-Cat Concept,” 12 th Aachen Colloquium 2003
  6. Shoji A. Kamoshita S. Watanabe T. Tanaka T. Yabe M. “Development of Simultaneous Reduction System of NOx and Particulate Matter for Light-Duty Truck,” SAE Paper 2004-01-0579 2004
  7. Neely G. Sasaki S. “Investigation of Alternative Combustion Crossing Stoichiometric Air Fuel Ratio for Clean Diesels,” JSAE Paper 20077091 2007
  8. Neely G. Sasaki S. Huang Y. Leet J. Stewart D. “New Diesel Emission Control Strategy to Meet US Tier 2 Emissions Regulations,” SAE Paper 2005-01-1091 2005
  9. Wang J. “Hybrid Robust Control for Engines Running Low Temperature Combustion and Conventional Diesel Combustion Modes,” SAE Paper 2007-01-0770 2007
  10. Ammann M. Fekete N. P. Guzella L. Glattfelder A. H. “Model-Based Control of the VGT and EGR in a Turbocharged Common-Rail Diesel Engine: Theory and Passenger Car Implementation,” SAE Paper 2003-01-0357 2003
  11. Jankovic M. Jankovid M. Kolmanovsky I. “Constructive Lyapunov Control Design for Turbocharged Diesel Engines,” IEEE Transactions on Control Systems Technology 8 2 288 299 2000
  12. Christen U. Vantine K. J. “Event Based Mean-Value Modeling of DI Diesel Engines for Controller Design,” SAE Paper 2001-01-1242
  13. Hribernik A. “The Potential of High- and Low Pressure Exhaust Gas Recirculation,” SAE Paper 2002-04-0029 2002
  14. Wang J. “Air Fraction Estimation for Multiple Combustion Mode Diesel Engines with Dual-Loop EGR Systems,” Proceedings of 46 th IEEE Conference on Decision and Control 2862 2867 2007
  15. Slotine J.-J. E. Li W. Applied Nonlinear Control Prentice-Hall, Englewood Cliffs New Jersey 1991
  16. Chevalier A. Muller M. Hendricks E. “On the Validity of Mean Value Engine Models During Transient Operation,” SAE Paper 2000-01-1261 , Journal of Engines 109 2000
  17. Kolmanovsky I. Moraal P. van Nieuwstadt M. Stefanopoulou A. “Issues in Modeling and Control of Intake Flow in Variable Geometry Turbocharged Engines,” Proceedings of 18th IFIP Conference on System Modeling and Optimization, 1997

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