[docs] Add transport references

doc/doxygen/cantera.bib

@@ -10,3 +10,105 @@ @book{kee2017
     edition = {2nd},
     doi = {10.1002/9781119186304},
 	year = {2017}}
+@article{zhu2006,
+    author = {Huayang~Zhu and Robert~J.~Kee},
+    journal = {Journal of The Electrochemical Society},
+    number = {9},
+    pages = {A1765--A1772},
+    title = {Modeling Electrochemical Impedance Spectra in {SOFC} Button Cells with
+        Internal Methane Reforming},
+    doi = {10.1149/1.2220065},
+    volume = {153},
+    year = {2006}}
+@article{zhu2005,
+    author = {Huayang~Zhu and Robert~J.~Kee and Vinod~M.~Janardhanan and
+        Olaf~Deutschmann and David~G.~Goodwin},
+    journal = {Journal of The Electrochemical Society},
+    number = {12},
+    pages = {A2427--A2439},
+    title = {Modeling Elementary Heterogeneous Chemistry and Electrochemistry in
+        Solid-Oxide Fuel Cells},
+    doi = {10.1149/1.2116607},
+    volume = {152},
+    year = {2005}}
+@article{mason1983,
+    author = {E.~A.~Mason and A.~P.~Malinauskas},
+    journal = {Chemical Engineering Monographs},
+    number = {17},
+    publisher = {Elsevier},
+    title = {Gas Transport in Porous Media: the Dusty-Gas Model},
+    year = {1983}}
+@article{veldsink1995,
+    author = {J.~W.~Veldsink and R.~M.~J.~van Damme and G.~F.~Versteeg and
+        W.~P.~M.~van Swaaij},
+    journal = {Chemical Engineering Journal},
+    number = {2},
+    pages = {115--125},
+    title = {The use of the dusty gas model for the description of mass transport
+        with chemical reaction in porous media},
+    doi = {10.1016/0923-0467(94)02901-9},
+    volume = {57},
+    year = {1995}}
+@article{selle1999a,
+    author = {Stefan~Selle and Uwe~Riedel},
+    journal = {Annals of the New York Academy of Sciences},
+    number = {1},
+    pages = {72--80},
+    title = {Transport properties of ionized species},
+    doi = {10.1111/j.1749-6632.1999.tb07910.x},
+    volume = {891},
+    year = {1999}}
+@conference{selle1999b,
+    author = {Stefan~Selle and Uwe~Riedel},
+    booktitle = {38th Aerospace Sciences Meeting and Exhibit},
+    organization = {American Institute of Aeronautics and Astronautics},
+    pages = {99--0081},
+    title = {Transport Coefficients of Reacting Air at High Temperatures},
+    doi = {10.2514/6.1999-81},
+    year = {1999}}
+@article{han2015,
+    author = {Jie~Han and Xinyu~Chen and Zhaoyang~Zhang and Zhenhua~Li and
+        Fei~Qi and Zhaohui~Wang and Zhiwei~Sun},
+    journal = {Combustion Theory and Modelling},
+    number = {6},
+    pages = {744--772},
+    title = {Numerical modelling of ion transport in flames},
+    doi = {10.1080/13647830.2015.1090018},
+    volume = {19},
+    year = {2015}}
+@article{chiflikian1995,
+    author = {R.~V.~Chiflikian},
+    journal = {Physics of Plasmas},
+    number = {10},
+    pages = {3902--3909},
+    title = {The analog of Blanc's law for drift velocities of electrons in gas
+        mixtures in weakly ionized plasma},
+    doi = {10.1063/1.871379},
+    volume = {2},
+    year = {1995}}
+@article{viehland1975,
+    author = {L.~A.~Viehland and J.~W.~McConkey and J.~W.~Hogan},
+    journal = {Atomic Data and Nuclear Data Tables},
+    number = {6},
+    pages = {495--514},
+    title = {Tables of transport collision integrals for (n, 6, 4) ion-neutral
+        potentials},
+    doi = {10.1016/0092-640X(75)90004-4},
+    volume = {16},
+    year = {1975}}
+@phdthesis{prager2005,
+    author = {Jens~Prager},
+    school = {Technische Universität Darmstadt},
+    title = {Modeling and simulation of charged species in lean methane-oxygen
+        flames},
+    year = {2005}}
+@article{sengers1986,
+    author = {J.~V.~Sengers and J.~T.~R.~Watson},
+    journal = {Journal of Physical and Chemical Reference Data},
+    number = {4},
+    pages = {1291--1300},
+    title = {Improved International Formulations for the Viscosity and Thermal
+        Conductivity of Water Substance},
+    doi = {10.1063/1.555805},
+    volume = {15},
+    year = {1986}}

include/cantera/transport/DustyGasTransport.h

@@ -44,19 +44,9 @@ namespace Cantera
  * The effective knudsen diffusion coefficients take into account the effects of
  * collisions of gas-phase molecules with the wall.
  *
- * References for the Dusty Gas Model
- *
- * 1. H. Zhu, R. J. Kee, "Modeling Electrochemical Impedance Spectra in SOFC
- *    Button Cells with Internal Methane Reforming," J. Electrochem. Soc.,
- *    153(9) A1765-1772 (2006).
- * 2. H. Zhu, R. J. Kee, V. M. Janardhanan, O. Deutschmann, D. G. Goodwin, J.
- *    Electrochem. Soc., 152, A2427 (2005).
- * 3. E. A. Mason, A. P. Malinauskas," Gas Transport in Porous Media: the Dusty-
- *    Gas Model", American Elsevier, New York (1983).
- * 4. J. W. Veldsink, R. M. J. van Damme, G. F. Versteeg, W. P. M. van Swaaij,
- *    "The use of the dusty gas model for the description of mass transport with
- *    chemical reaction in porous media," Chemical Engineering Journal, 57, 115
- *    - 125 (1995).
+ * For references on the Dusty Gas Model, see Zhu and Kee @cite zhu2006; Zhu, et al.
+ * @cite zhu2005; Mason and Malinauskas @cite mason1983; and Veldsink, et al.
+ * @cite veldsink1995.
  * @ingroup tranprops
  */
 class DustyGasTransport : public Transport

include/cantera/transport/IonGasTransport.h

@@ -19,30 +19,15 @@ namespace Cantera
  * polarizability is not provide for an ion, LJ model is used instead of n64 model.
  * Only neutral species are considered for thermal conductivity and viscosity.
  *
- * References for Stockmayer-(n,6,4) model:
- *
- * 1. Selle, Stefan, and Uwe Riedel. "Transport properties of ionized species."
- *    Annals of the New York Academy of Sciences 891.1 (1999): 72-80.
- * 2. Selle, Stefan, and Uwe Riedel. "Transport coefficients of reacting air at
- *    high temperatures." 38th Aerospace Sciences Meeting and Exhibit. 1999.
- * 3. Han, Jie, et al. "Numerical modelling of ion transport in flames."
- *    Combustion Theory and Modelling 19.6 (2015): 744-772.
- *    DOI: 10.1080/13647830.2015.1090018
- * 4. Chiflikian, R. V. "The analog of Blanc’s law for drift velocities
- *    of electrons in gas mixtures in weakly ionized plasma."
- *    Physics of Plasmas 2.10 (1995): 3902-3909.
- * 5. Viehland, L. A., et al. "Tables of transport collision integrals for
- *    (n, 6, 4) ion-neutral potentials." Atomic Data and Nuclear Data Tables
- *    16.6 (1975): 495-514.
+ * References for Stockmayer-(n,6,4) model: Selle and Riedel @cite selle1999,
+ * @cite selle2000; Han et al. @cite han2015; Chiflikian @cite chiflikian1995; and
+ * Viehland et al. @cite viehland1975.
  *
  * Stockmayer-(n,6,4) model is not suitable for collision between O2/O2-
  * due to resonant charge transfer. Therefore, an experimental collision
  * data is used instead.
  *
- * Data taken from:
- *
- * Prager, Jens. Modeling and simulation of charged species in
- * lean methane-oxygen flames. Diss. 2005. Page 104.
+ * Data taken from \cite prager2005.
  *
  * @ingroup tranprops
  */

include/cantera/transport/WaterTransport.h

@@ -40,10 +40,7 @@ class WaterTransport : public Transport
      * This function calculates the value of the viscosity of pure water at the
      * current T and P.
      *
-     * The formulas used are from the paper: J. V. Sengers, J. T. R. Watson,
-     * "Improved International Formulations for the Viscosity and Thermal
-     * Conductivity of Water Substance", J. Phys. Chem. Ref. Data, 15, 1291
-     * (1986).
+     * The formulas used are from Sengers and Watson \cite sengers1986.
      *
      * The formulation is accurate for all temperatures and pressures, for steam
      * and for water, even near the critical point. Pressures above 500 MPa and
@@ -61,10 +58,7 @@ class WaterTransport : public Transport
      * This function calculates the value of the thermal conductivity of water
      * at the current T and P.
      *
-     * The formulas used are from the paper: J. V. Sengers, J. T. R. Watson,
-     * "Improved International Formulations for the Viscosity and Thermal
-     * Conductivity of Water Substance", J. Phys. Chem. Ref. Data, 15, 1291
-     * (1986).
+     * The formulas used are from Sengers and Watson \cite sengers1986.
      *
      * The formulation is accurate for all temperatures and pressures, for steam
      * and for water, even near the critical point. Pressures above 500 MPa and