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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 69, 2016 - Issue 12
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Original Articles

Three-dimensional numerical investigation on wall film formation and evaporation in port fuel injection engines

Hong LiuSchool of Energy and Power Engineering, Dalian University of Technology, Dalian, Liaoning, P.R. China
,
Yan’an YanSchool of Energy and Power Engineering, Dalian University of Technology, Dalian, Liaoning, P.R. China
,
Ming JiaSchool of Energy and Power Engineering, Dalian University of Technology, Dalian, Liaoning, P.R. ChinaCorrespondence[email protected]
,
Maozhao XieSchool of Energy and Power Engineering, Dalian University of Technology, Dalian, Liaoning, P.R. China
&
Chia-fon F. LeeDepartment of Mechanical Science and Engineering, University of Illinois at Urbana-Champaign, Illinois, USA;Center for Combustion Energy and State Key Laboratory of Automotive Safety and Energy, Tsinghua University, Beijing, P.R. China
Pages 1405-1422 | Received 25 Jul 2015, Accepted 23 Nov 2015, Published online: 02 May 2016

References

  • Y. Zeng and C. F. Lee, Computations of Air/Fuel Preparation Process in a Port-Injected Spark-Ignition Engine During Cold-Starting Phase, J. Eng. Gas Turb. Power, vol. 126, pp. 635–644, 2004.
  • Y. S. Cheng, K. Deng, and T. Li, Measurement and Simulation of Wall-Wetted Fuel Film Thickness, Int. J. Therm. Sci., vol. 49, pp. 733–739, 2010.
  • C. Bai and A. Gosman, Mathematical Modelling of Wall Films Formed by Impinging Sprays, SAE Technical Paper, 1996.
  • D. W. Stanton and C. J. Rutland, Multi-Dimensional Modeling of Thin Liquid Films and Spray-Wall Interactions Resulting from Impinging Sprays, Int. J. Heat. Mass Transfer, vol. 41, pp. 3037–3054, 1998.
  • M. Behnia and B. Milton, Fundamentals of Fuel Film Formation and Motion in Si Engine Induction Systems, Energ. Convers. Manage., vol. 42, pp. 1751–1768, 2001.
  • J. Senda, M. Ohnishi, T. Takahashi, H. Fujimoto, A. Utsunomiya, and M. Wakatabe, Measurement and Modeling on Wall Wetted Fuel Film Profile and Mixture Preparation in Intake Port of Si Engine, SAE Technical Paper, 1999.
  • H. Cho and K. Min, Measurement of Liquid Fuel Film Distribution on the Cylinder Liner of a Spark Ignition Engine Using the Laser-Induced Fluorescence Technique, Meas. Sci. Technol., vol. 14, pp. 975–982, 2003.
  • W. Mathews, C. F. Lee, and J. E. Peters, Experimental Investigations of Spray/Wall Impingement, Atomization Spray, vol. 13, pp. 20, 2003.
  • M. Alonso, P. J. Kay, P. J. Bowen, R. Gilchrist, and S. Sapsford, Quantification of Transient Fuel Films under Elevated Ambient Pressure Environments, Atomization Spray, vol. 22, pp. 79–95, 2012.
  • K. Muramatsu, K. Yamamoto, N. Jinno, K. Nakama, S. Okamoto, and T. Ishima, Measurement of Fuel Liquid Film under the Different Injection Pressure, SAE Technical Paper, 2013.
  • M. R. Wei, F. Liu, H. Wen, Y. C. Liu, and Y. S. Zhang, Numerical Simulation and Experimental Research of DME Spray Wall Impingement, Chin. Int. Combust. Engine Eng., vol. 2, pp. 10–15, 2006.
  • Y. S. Cheng, K. Deng, and T. Li, The Coupling Influence of Airflow and Temperature on the Wall-Wetted Fuel Film Distribution, Exp. Therm. Fluid Sci., vol. 34, pp. 227–233, 2010.
  • V. S. Costanzo, Effect of in-Cylinder Liquid Fuel Films on Engine-out Unburned Hydrocarbon Emissions for Si Engines, thesis, Massachusetts Institute of Technology, 2011.
  • H. Cho, M. Kim, and K. Min, The Effect of Liquid Fuel on the Cylinder Liner on Engine-out Hydrocarbon Emissions in Si Engines, SAE Technical Paper, 2001.
  • Z. Han and Z. Xu, Wall Film Dynamics Modeling for Impinging Sprays in Engines, SAE Technical Paper, 2004.
  • M. Nagaoka, K. Ohsawa, B. Crary, T. Yamada, S. Sugiura, and N. Imatake, Numerical Analysis of Fuel Behavior in a Port-Injection Gasoline Engine, SAE Technical Paper, 1997.
  • Y. Zhang, M. Jia, H. Liu, M. Xie, T. Wang, and L. Zhou, Development of a New Spray/Wall Interaction Model for Diesel Spray under PCCI-Engine Relevant Conditions, Atomization Spray, vol. 24, pp. 41–80, 2014.
  • S. Malaguti, S. Fontanesi, and E. Severi, Numerical Analysis of GDI Engine Cold-Start at Low Ambient Temperatures, SAE Technical Paper, 2010.
  • S. Sazhin, W. Abdelghaffar, P. Krutitskii, E. Sazhina, and M. Heikal, New Approaches to Numerical Modelling of Droplet Transient Heating and Evaporation, Int. J. Heat Mass Transfer, vol. 48, pp. 4215–4228, 2005.
  • P. O’rourke and A. Amsden, A Particle Numerical Model for Wall Film Dynamics in Port-Injected Engines, SAE Technical Paper, 1996.
  • A. Yarin, and D. Weiss, Impact of Drops on Solid Surfaces: Self-Similar Capillary Waves, and Splashing as a New Type of Kinematic Discontinuity, J. Fluid Mech., vol. 283, pp. 141–173, 1995.
  • C. Mundo, M. Sommerfeld, and C. Tropea, Droplet–Wall Collisions: Experimental Studies of the Deformation and Breakup Process, Int. J. Multiphase Flow, vol. 21, pp. 151–173, 1995.
  • L. Allocca, L. Andreassi, and S. Ubertini, Evaluation of Splash Models with High-Pressure Diesel Spray, SAE Technical Paper, 2006.
  • M. Costa, U. Sorge, and L. Allocca, Numerical Study of the Mixture Formation Process in a Four-Stroke GDI Engine for Two-Wheel Applications, Simul. Model. Pract. TH, vol. 19, pp. 1212–1226, 2011.
  • D. W. Stanton and C. J. Rutland, Modeling Fuel Film Formation and Wall Interaction in Diesel Engines, SAE Technical Paper, 1996.
  • S. C. Kong, Drop/Wall Interaction Criteria and Their Applications in Diesel Spray Modeling, Atomization Spray, vol. 17, 2007.
  • P. J. O’Rourke and A. Amsden, A Spray/Wall Interaction Submodel for the KIVA-3 Wall Film Model, SAE Technical Paper, 2000.
  • Y. Yan, H. Liu, M. Jia, M. Xie, and H. Yin, A One-Dimensional Unsteady Wall Film Evaporation Model, Int. J. Heat Mass Transfer, vol. 88, pp. 138–148, 2015.
  • A. Kryukov, V. Y. Levashov, and S. Sazhin, Evaporation of Diesel Fuel Droplets: Kinetic Versus Hydrodynamic Models, Int. J. Heat Mass Transfer, vol. 47, pp. 2541–2549, 2004.
  • Y. Shim, G. Choi, and D. Kim, Numerical Modeling of Hollow-Cone Fuel Atomization, Vaporization and Wall Impingement Processes under High Ambient Temperatures, Int. J. Auto. Tech-kor., vol. 9, pp. 267–275, 2008.

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