diff --git a/include/cantera/transport/MixTransport.h b/include/cantera/transport/MixTransport.h index de2a4878a..51c6aec4c 100644 --- a/include/cantera/transport/MixTransport.h +++ b/include/cantera/transport/MixTransport.h @@ -17,8 +17,9 @@ namespace Cantera { //! Class MixTransport implements mixture-averaged transport properties for ideal gas mixtures. /*! - * The model is based on that described by Kee, Coltrin, and Glarborg, - * "Theoretical and Practical Aspects of Chemically Reacting Flow Modeling." + * The model is based on that described in: R. J. Kee, M. J. Coltrin, and P. + * Glarborg, "Chemically Reacting Flow: Theory & Practice", John Wiley & Sons, + * 2003. * * The viscosity is computed using the Wilke mixture rule (kg /m /s) * diff --git a/include/cantera/transport/MultiTransport.h b/include/cantera/transport/MultiTransport.h index 4c8a861d9..815215525 100644 --- a/include/cantera/transport/MultiTransport.h +++ b/include/cantera/transport/MultiTransport.h @@ -17,9 +17,9 @@ namespace Cantera //! Class MultiTransport implements multicomponent transport properties for //! ideal gas mixtures. /*! - * The implementation generally follows the procedure outlined in Kee, - * Coltrin, and Glarborg, "Theoretical and Practical Aspects of Chemically - * Reacting Flow Modeling," Wiley Interscience. + * The implementation generally follows the procedure outlined in: R. J. Kee, M. + * J. Coltrin, and P. Glarborg, "Chemically Reacting Flow: Theory & Practice", + * John Wiley & Sons, 2003. * * @ingroup tranprops */ diff --git a/samples/matlab/tut6.m b/samples/matlab/tut6.m index 4c284298d..c48f9819e 100644 --- a/samples/matlab/tut6.m +++ b/samples/matlab/tut6.m @@ -19,7 +19,7 @@ % Currently, two models are implemented. Both are based on kinetic % theory expressions, and follow the approach described in Dixon-Lewis -% (1968) and Kee, Coltrin, and Glarborg (2002). The first is a full +% (1968) and Kee, Coltrin, and Glarborg (2003). The first is a full % multicomponent formulation, and the second is a simplification that % uses expressions derived for mixtures with a small number of species % (1 to 3), using approximate mixture rules to average over