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Application of Dynamic Skip Fire for NO x and CO2 Emissions Reduction of Diesel Powertrains

Journal Article
2021-01-0450
ISSN: 2641-9645, e-ISSN: 2641-9645
DOI: https://doi.org/10.4271/2021-01-0450
Published April 06, 2021 by SAE International in United States
Application of Dynamic Skip Fire for NO <sub>x</sub> and CO2 Emissions Reduction of Diesel Powertrains
Sector:
Citation: Srinivasan, V., Wolk, B., Cai, X., Henrichsen, L. et al., "Application of Dynamic Skip Fire for NOx and CO2 Emissions Reduction of Diesel Powertrains," SAE Int. J. Adv. & Curr. Prac. in Mobility 4(1):225-235, 2022, https://doi.org/10.4271/2021-01-0450.
Language: English

References

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  2. Younkins , M. , Fuerst , J. , Carlson , S. , Kirwan , J. 2017
  3. Serrano , J. , Routledge , G. , Lo , N. , Shost , M. et al. Methods of Evaluating and Mitigating NVH When Operating an Engine in Dynamic Skip Fire SAE Int. J. Engines 7 3 1489 1501 2014 10.4271/2014-01-1675
  4. Younkins , M. , Ortiz-Soto , E. , Wilcutts , M. , Fuerst , J. , and Rayl , A. 2018
  5. Scassa , M. , George , S. , Nencioni , M. , Chen , S. Dynamic Skip Fire Applied to a Diesel Engine for Improved Fuel Consumption and Emissions SAE Technical Paper 2019-01-0549 2019 https://doi.org/10.4271/2019-01-0549
  6. Ortiz-Soto , E. , Chen , K. , Younkins , M. , Scassa , M. , Nencioni , M. 2019
  7. Gosala , D. , Allen , C. , Ramesh , A. Cylinder Deactivation During Dynamic Diesel Engine Operation International Journal of Engine Research 2017 18 10 991 1004
  8. Ramesh , A. , Gosala , D. , Allen , C. , Joshi , M. Cylinder Deactivation for Increased Engine Efficiency and Aftertreatment Thermal Management in Diesel Engines SAE Technical Paper 2018-01-0384 2018 https://doi.org/10.4271/2018-01-0384
  9. Neely , G.D. , Sharp , C. , and Rao , S. CARB Low NOx Stage 3 Program - Modified Engine Calibration and Hardware Evaluations SAE Technical Paper 2020-01-0318 2020 https://doi.org/10.4271/2020-01-0318
  10. Joshi , M. , Gosala , D. , Allen , C. , Srinivasan , S. et al. Diesel Engine Cylinder Deactivation for Improved System Performance over Transient Real-World Drive Cycles SAE Technical Paper 2018-01-0880 2018 https://doi.org/10.4271/2018-01-0880
  11. Deppenkemper , K. , Ă–zyalcin , C. , Ehrly , M. , Schoenen , M. et al. 1D Engine Simulation Approach for Optimizing Engine and Exhaust Aftertreatment Thermal Management for Passenger Car Diesel Engines by Means of Variable Valve Train (VVT) Applications SAE Technical Paper 2018-01-0163 2018 https://doi.org/10.4271/2018-01-0163
  12. Archer , A. , and McCarthy , J. Jr. Quantification of Diesel Engine Vibration Using Cylinder Deactivation for Exhaust Temperature Management and Recipe for Implementation in Commercial Vehicles SAE Technical Paper 2018-01-1284 2018 https://doi.org/10.4271/2018-01-1284
  13. Neely , G. , Sharp , C. , Pieczko , M. , and McCarthy , J. Simultaneous NO x and CO2 Reduction for Meeting Future California Air Resources Board Standards Using a Heavy-Duty Diesel Cylinder Deactivation-NVH Strategy SAE Int. J. Engines 13 2 191 209 2020 10.4271/03-13-02-0014
  14. Farrell , L. , Frazier , T. , Younkins , M. , and Fuerst , J. 2020
  15. Wolk , B. , Wang , R. , Schmidt , D. , and Ates , M. 2020
  16. Younkins , M. , Fuerst , J. , Srinivasan , V. , and Yuan , J. x 2 th 2020
  17. Gosala , D.B. , Allen , C.M. , Shaver , G.M. , Farrell , L. , Koeberlein , E. , Franke , B. , Stretch , D. , and McCarthy , J. 2019 Dynamic cylinder activation in diesel engines International Journal of Engine Research 20 849 861 https://doi.org/10.1177/1468087418779937

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