Acknowledgments

ANSYS acknowledges the following contributions.

ANSYS acknowledges researchers from Nissan Motor Co., Ltd., Dr. Noda and Mr. Kassai, for their helpful advice and technical review of the CHEMKIN Zonal SI Engine Model.

The content of this document is based, in part, on the following publications:

  • M. E. Coltrin, R. J. Kee, G. H. Evans, E. Meeks, F. M. Rupley, and J. F. Grcar, SPIN (Version 3.83): A Fortran Program for Modeling One-Dimensional Rotating-Disk/Stagnation-Flow Chemical Vapor Deposition Reactors, Sandia National Laboratories Report SAND91-8003, 1991.

  • M. E. Coltrin, R. J. Kee, F. M. Rupley, and E. Meeks, SURFACE CHEMKIN III: A Fortran Package for Analyzing Heterogeneous Chemical Kinetics at a Solid-Surface - Gas-Phase Interface, Sandia National Laboratories Report SAND96-8217, 1996.

  • M. E. Coltrin and H. K. Moffat, SURFTHERM: A Program to Analyze Thermochemical and Kinetic Data in Gas-phase and Surface Chemical Reaction Mechanisms, Sandia National Laboratories Report SAND94-0219, 1994.

  • M. E. Coltrin, H. K. Moffat, R. J. Kee, and F. M. Rupley, CRESLAF (Version 4.0): A Fortran Program for Modeling Laminar, Chemically Reacting, Boundary-Layer Flow in Cylindrical or Planar Channels, Sandia National Laboratories Report SAND93-0478, 1993.

  • R. J. Kee, G. Dixon-Lewis, J. Warnatz, M. E. Coltrin, and J. A. Miller, A Fortran Computer Code Package for the Evaluation of Gas-Phase Multicomponent Transport Properties, Sandia National Laboratories Report SAND86-8246, (1986).

  • R. J. Kee, J. F. Grcar, M. D. Smooke, and J. A. Miller, A Fortran Program for Modeling Steady Laminar One-Dimensional Premixed Flames, Sandia National Laboratories Report SAND85-8240 (1985).

  • R. J. Kee, J. A. Miller, and T. H. Jefferson, Chemkin: A General-Purpose, Problem-Independent, Transportable, Fortran Chemical Kinetics Code Package, Sandia National Laboratories Report SAND80-8003, 1980.

  • R. J. Kee, F. M. Rupley, E. Meeks, and J. A. Miller, Chemkin-III: A Fortran Chemical Kinetics Package for the Analysis of Gas-Phase Chemical and Plasma Kinetics, Sandia National Laboratories Report SAND96-8216, 1996.

  • R. J. Kee, F. M. Rupley, and J. A. Miller, Chemkin-II: A Fortran Chemical Kinetics Package for the Analysis of Gas-Phase Chemical Kinetics, Sandia National Laboratories Report SAND89-8009, 1990.

  • R. J. Kee, F. M. Rupley, and J. A. Miller, The Chemkin Thermodynamic Data Base, Sandia National Laboratories Report SAND87-8215B, 1990.

  • R. S. Larson, A Fortran Program for the Analysis of Plug Flow Reactors with Gas-Phase and Surface Chemistry, Sandia National Laboratories Report SAND96-8211, 1996.

  • A. E. Lutz, R. J. Kee, J. F. Grcar, and F. M. Rupley, OPPDIF: A Fortran Program for Computing Opposed-flow Diffusion Flames, Sandia National Laboratories Report 96-8243, 1996.

  • A. E. Lutz, R. J. Kee, and J. A. Miller, SENKIN: A Fortran Program for Predicting Homogeneous Gas Phase Chemical Kinetics with Sensitivity Analysis, Sandia National Laboratories Report 87-8248, 1988.

  • E. Meeks, H. K. Moffat, J. F. Grcar, and R. J. Kee, AURORA: A Fortran Program for Modeling Well Stirred Plasma and Thermal Reactors with Gas and Surface Reactions, Sandia National Laboratories Report SAND96-8218, 1996.

  • R. E. Mitchell and R. J. Kee, SHOCK: A General Purpose Computer Code for Predicting Chemical Kinetic Behavior Behind Incident and Reflected Shocks, Sandia National Laboratories Report 82-8205, 1982.

  • W. C. Reynolds, The Element Potential Method for Chemical Equilibrium Analysis: Implementation in the Interactive Program STANJAN, Department of Mechanical Engineering, Stanford University (1986).