I. Aavatsmark, G. T. Eigestad, B. Heimsund, B. Mallison, J. Nordbotten, E. Øian, and others. A new finite-volume approach to efficient discretization on challenging grids. SPE Journal, 15(03):658–669, 2010.

M. Acosta, C. Merten, G. Eigenberger, H. Class, R. Helmig, B. Thoben, and H. Müller-Steinhagen. Modeling non-isothermal two-phase multicomponent flow in the cathode of PEM fuel cells. Journal of Power Sources, page in print, 2006.

J. J. Adams and S. Bachu. Equations of state for basin geofluids: algorithm review and intercomparison for brines. Geofluids, 2(4):257–271, 2002.

G. A. Adebiyi. Formulations for the thermodynamic properties of pure substances. In ASME 2003 International Mechanical Engineering Congress and Exposition, pages 183–188. American Society of Mechanical Engineers, 2003.

D. Ambrose and J. Walton. Vapour pressures up to their critical temperatures of normal alkanes and 1-alkanols. Pure and Applied Chemistry, 61(8):1395–1403, 1989.

P-E Angeli, M-A Puscas, G Fauchet, and A Cartalade. Fvca8 benchmark for the stokes and navier–stokes equations with the triocfd code—benchmark session. In International Conference on Finite Volumes for Complex Applications, pages 181–202. Springer, 2017.

ANSYS, Inc. ANSYS FLUENT 12.0 - User's Guide. ANSYS, Inc., 12.0 edition, 2009.

B. S. Baldwin and H. Lomax. Thin Layer Approximation and Algebraic Model for Seperated Turbulent Flows. ACM Trans Math Software, 78–257:1–9, 1978.

M. Batzle and Z. Wang. Seismic properties of pore fluids. Geophysics, 57(11):1396–1408, 1992.

Jacob Bear. Dynamics of Fluids in Porous Media. Dover Civil and Mechanical Engineering Series. Dover, 1972.

P. Binning and M. A. Celia. Practical implementation of the fractional flow approach to multi-phase flow simulation. Advances in water resources, 22:461–478, 1999.

Philip C. Carman. Fluid flow through granular beds. Transactions, Institution of Chemical Engineers, 15:150–166, 1937. reprinted in Chemical Engineering Research and Design, 75:S32–S48, 1997.

Kuei-Yuan Chien. Predictions of Channel and Boundary-Layer Flows with a Low-Reynolds-Number Turbulence Model. AIAA Journal, 20(1):33–38, 1982.

H. Class and R. Helmig. Numerical Simulation of Nonisothermal Multiphase Multicomponent Processes in Porous Media – 2. Applications for the Injection of Steam and Air. Advances in Water Resources, 25:551–564, 2002.

H. Class. Theorie und numerische Modellierung nichtisothermer Mehrphasenprozesse in NAPL-kontaminierten por"osen Medien</em>. PhD thesis, Universit&auml;t Stuttgart, 2001.</dd> <!-- Authors: Holger Class --> <dt><a name="CITEREF_A3:class:2001">[16]</a></dt><dd>Holger Class. <a href="http://dx.doi.org/10.18419/opus-223"><em>Theorie und numerische Modellierung nichtisothermer Mehrphasenprozesse in NAPL-kontaminierten porösen Medien</em></a>. PhD thesis, Technische Universität Braunschweig, 2001. doi 10.18419/opus-223. <!-- DOI: 10.18419/opus-223 --></dd> <!-- Authors: Cooper J R and Dooley R B --> <dt><a name="CITEREF_cooper2008">[17]</a></dt><dd>J.&nbsp;R. Cooper and R.&nbsp;B. Dooley. <a href="http://www.iapws.org/relguide/visc.pdf">Release of the IAPWS formulation 2008 for the viscosity of ordinary water substance</a>, 2008.</dd> <!-- Authors: Daubert T E and Danner R P --> <dt><a name="CITEREF_daubert1989">[18]</a></dt><dd>T.&nbsp;E. Daubert and R.&nbsp;P. Danner. <em>Physical and Thermodynamic Properties of Pure Chemicals: Design institute for physical property data, American institute of chemical engineers. vp</em>. Hemisphere Publishing Corporation, 1989.</dd> <!-- Authors: Delshad M and Pope G A --> <dt><a name="CITEREF_delshad1989">[19]</a></dt><dd>M.&nbsp;Delshad and G.&nbsp;A. Pope. <a href="https://dx.doi.org/10.1007/BF00134742">Comparison of the three-phase oil relative permeability models</a>. <em>Transport in Porous Media</em>, 4(1):59&ndash;83, 1989.</dd> <!-- Authors: Donea Jean and Huerta Antonio --> <dt><a name="CITEREF_Donea2003">[20]</a></dt><dd>Jean Donea and Antonio Huerta. <em>Finite element methods for flow problems</em>. John Wiley &amp; Sons, 2003.</dd> <!-- Authors: Duan Z and Sun R --> <dt><a name="CITEREF_duan2003">[21]</a></dt><dd>Z.&nbsp;Duan and R.&nbsp;Sun. <a href="https://dx.doi.org/10.1016/S0009-2541(02)00263-2">An improved model calculating CO 2 solubility in pure water and aqueous NaCl solutions from 273 to 533 K and from 0 to 2000 bar</a>. <em>Chemical geology</em>, 193(3):257&ndash;271, 2003.</dd> <!-- Authors: Ebigbo A --> <dt><a name="CITEREF_ebigbo2005">[22]</a></dt><dd>A.&nbsp;Ebigbo. Thermal effects of carbon dioxide sequestration in the subsurface. Master's thesis, Institut f&uuml;r Wasserbau, Universit&auml;t Stuttgart, 2005.</dd> <!-- Authors: Ferrell R T and Himmelblau D M --> <dt><a name="CITEREF_ferrell1967">[23]</a></dt><dd>R.&nbsp;T. Ferrell and D.&nbsp;M. Himmelblau. <a href="https://dx.doi.org/10.1021/je60032a036">Diffusion coefficients of nitrogen and oxygen in water</a>. <em>Journal of chemical and engineering data</em>, 12(1):111&ndash;115, 1967.</dd> <!-- Authors: Finsterle Stefan --> <dt><a name="CITEREF_finsterle1993">[24]</a></dt><dd>Stefan Finsterle. <a href="https://www.ethz.ch/content/dam/ethz/special-interest/baug/vaw/vaw-dam/documents/das-institut/mitteilungen/1990-1999/121.pdf"><em>Inverse Modellierung zur Bestimmung hydrogeologischer Parameter eines Zweiphasensystems</em></a>. VAW, 1993.</dd> <!-- Authors: Flekkoy EG and Oxaal U and Feder J and Jossang T --> <dt><a name="CITEREF_flekkoy1995a">[25]</a></dt><dd>Flekk&oslash;y, EG and Oxaal, U and Feder, J and J&oslash;ssang, T. <a href="https://doi.org/10.1103/PhysRevE.52.4952">Hydrodynamic dispersion at stagnation points: Simulations and experiments</a>. <em>Physical Review E</em>, 52(5):4952, 1995. <!-- DOI: 10.1103/PhysRevE.52.4952 --></dd> <!-- Authors: IAPWS The International Association for the Properties of Water and Steam --> <dt><a name="CITEREF_IAPWS1997">[26]</a></dt><dd>IAPWS (The International&nbsp;Association for the Properties&nbsp;of Water and Steam). Revised Release on the IAPWS Industrial Formulation 1997 for the Thermodynamic Properties of Water and Steam. <a href="http://www.iapws.org/IF97-Rev.pdf">http://www.iapws.org/IF97-Rev.pdf</a>, 1997.</dd> <!-- Authors: Gmehling J and Onken U and Schulte H W --> <dt><a name="CITEREF_gmehling1980">[27]</a></dt><dd>J.&nbsp;Gmehling, U.&nbsp;Onken, and H.&nbsp;W. Schulte. <a href="https://dx.doi.org/10.1021/je60084a016">Vapor-liquid equilibriums for the binary systems diethyl ether-halothane (1, 1, 1-trifluoro-2-bromo-2-chloroethane), halothane-methanol, and diethyl ether-methanol</a>. <em>Journal of Chemical and Engineering Data</em>, 25(1):29&ndash;32, 1980.</dd> <!-- Authors: Han Gang and Dusseault Maurice B --> <dt><a name="CITEREF_han2003">[28]</a></dt><dd>Gang Han and Maurice&nbsp;B Dusseault. Description of fluid flow around a wellbore with stress-dependent porosity and permeability. <em>Journal of Petroleum science and engineering</em>, 40(1-2):1&ndash;16, 2003.</dd> <!-- Authors: O T Hanna and O C Sandell and P R Mazet --> <dt><a name="CITEREF_Hanna1981a">[29]</a></dt><dd>O.&nbsp;T. Hanna, O.&nbsp;C. Sandell, and P.&nbsp;R. Mazet. <a href="http://dx.doi.org/10.1002/aic.690270424">Heat and Mass Transfer in Turbulent Flow Under Conditions of Drag Reduction</a>. <em>AIChE Journal</em>, 27(4):693&ndash;697, 1981. <!-- DOI: 10.1002/aic.690270424 --></dd> <!-- Authors: R Helmig --> <dt><a name="CITEREF_helmig1997">[30]</a></dt><dd>R.&nbsp;Helmig. <em>Multiphase Flow and Transport Processes in the Subsurface: A Contribution to the Modeling of Hydrosystems</em>. Springer, 1 edition, 1997.</dd> <!-- Authors: Hollis B R --> <dt><a name="CITEREF_hollis1996">[31]</a></dt><dd>B.&nbsp;R. Hollis. <a href="http://dl.acm.org/citation.cfm?id=886001">Real-Gas Flow Properties for NASA Langley Research Center Aerothermodynamic Facilities Complex Wind Tunnels</a>. 1996.</dd> <!-- Authors: IAPWS --> <dt><a name="CITEREF_IAPWS_ThCond">[32]</a></dt><dd>IAPWS. <a href="http://www.iapws.org/relguide/ThCond.pdf">Release on the IAPWS Formulation 2011 for the Thermal Conductivity of Ordinary Water Substance</a>. Technical Report IAPWS R15-11, The International Association for the Properties of Water and Steam, Plzeň, Czech Republic, 2011.</dd> <!-- Authors: J Gudbjerg and O Trötschler and A Färber and TO Sonnenborg and KH Jensen --> <dt><a name="CITEREF_gudbjerg2004">[33]</a></dt><dd>J. Gudbjerg and O. Trötschler and A. Färber and T.O. Sonnenborg and K.H. Jensen. <a href="http://www.sciencedirect.com/science/article/pii/S0169772204001160">On spurious water flow during numerical simulation of steam injection into water-saturated soil</a>. <em>Journal of Contaminant Hydrology</em>, 75(3–4):297 &ndash; 318, 2004. <!-- DOI: http://dx.doi.org/10.1016/j.jconhyd.2004.07.003 --></dd> <!-- Authors: Joekar Niasar V and Hassanizadeh S M and Leijnse A --> <dt><a name="CITEREF_joekar2008">[34]</a></dt><dd>V.&nbsp;Joekar-Niasar, S.&nbsp;M. Hassanizadeh, and A.&nbsp;Leijnse. <a href="https://dx.doi.org/10.1007/s11242-007-9191-7">Insights into the relationships among capillary pressure, saturation, interfacial area and relative permeability using pore-network modeling</a>. <em>Transport in Porous Media</em>, 74(2):201&ndash;219, 2008.</dd> <!-- Authors: Johansen O --> <dt><a name="CITEREF_johansen1977">[35]</a></dt><dd>O.&nbsp;Johansen. <a href="http://oai.dtic.mil/oai/oai?verb=getRecord&amp;metadataPrefix=html&amp;identifier=ADA044002">Thermal conductivity of soils</a>. Technical report, DTIC Document, 1977.</dd> <!-- Authors: W M Kays and M E Crawford and B Weigand --> <dt><a name="CITEREF_kays2005">[36]</a></dt><dd>W.&nbsp;M. Kays, M.&nbsp;E. Crawford, and B.&nbsp;Weigand. <em>Convective heat and mass transfer</em>. McGraw-Hill Higher Education, 4 edition, 2005.</dd> <!-- Authors: J E Killough and C A Kossack --> <dt><a name="CITEREF_SPE5">[37]</a></dt><dd>J.&nbsp;E. Killough and C.&nbsp;A. Kossack. <a href="https://doi.org/10.2118/16000-MS">Fifth Comparative Solution Project: Evaluation of Miscible Flood Simulators</a>. <em>Society of Petroleum Engineers</em>, SPE 16000, 1987.</dd> <!-- Authors: Kovasznay L I G --> <dt><a name="CITEREF_Kovasznay1948">[38]</a></dt><dd>L.&nbsp;I.&nbsp;G. Kovasznay. Laminar flow behind a two-dimensional grid. In <em>Mathematical Proceedings of the Cambridge Philosophical Society</em>, volume&nbsp;44, pages 58&ndash;62. Cambridge Univ Press, 1948.</dd> <!-- Authors: Lashanizadegan A and Ayatollahi Sh and Homayoni M --> <dt><a name="CITEREF_lashanizadegan2008">[39]</a></dt><dd>A&nbsp;Lashanizadegan, Sh&nbsp;Ayatollahi, and M&nbsp;Homayoni. <a href="http://dx.doi.org/10.1080/00986440701709699">Simultaneous heat and fluid flow in porous media: case study: steam injection for tertiary oil recovery</a>. <em>Chemical Engineering Communications</em>, 195(5):521&ndash;535, 2008.</dd> <!-- Authors: John Laufer --> <dt><a name="CITEREF_Laufer1954a">[40]</a></dt><dd>John Laufer. <a href="https://ntrs.nasa.gov/search.jsp?R=19930092199">The structure of turbulence in fully developed pipe flow</a>. <em>NACA Report</em>, 1174:417&ndash;434, 1954.</dd> <!-- Authors: BE Launder and BI Sharma --> <dt><a name="CITEREF_launder1974a">[41]</a></dt><dd>B.E. Launder and B.I. Sharma. <a href="http://www.sciencedirect.com/science/article/pii/0094454874901507">Application of the energy-dissipation model of turbulence to the calculation of flow near a spinning disc</a>. <em>Letters in Heat and Mass Transfer</em>, 1(2):131 &ndash; 137, 1974. <!-- DOI: https://doi.org/10.1016/0094-4548(74)90150-7 --></dd> <!-- Authors: Lemmon E W and Jacobsen R T --> <dt><a name="CITEREF_Lemmon2004a">[42]</a></dt><dd>E.&nbsp;W. Lemmon and R.&nbsp;T. Jacobsen. <a href="http://dx.doi.org/10.1023/B:IJOT.0000022327.04529.f3">Viscosity and Thermal Conductivity Equations for Nitrogen, Oxygen, Argon, and Air</a>. <em>International Journal of Thermophysics</em>, 25(1):21&ndash;69, 2004. <!-- DOI: 10.1023/B:IJOT.0000022327.04529.f3 --></dd> <!-- Authors: Lyman W J and Reehl W F and Rosenblatt D H --> <dt><a name="CITEREF_lyman1990">[43]</a></dt><dd>W.&nbsp;J. Lyman, W.&nbsp;F. Reehl, and D.&nbsp;H. Rosenblatt. <a href="https://www.osti.gov/scitech/biblio/6902382">Handbook of chemical property estimation methods: environmental behavior of organic compounds</a>. 1990.</dd> <!-- Authors: Michaelides E E --> <dt><a name="CITEREF_michaelides1981">[44]</a></dt><dd>E.&nbsp;E. Michaelides. <a href="https://www.osti.gov/scitech/biblio/6760030">Thermodynamic properties of geothermal fluids</a>. <em>Trans.-Geotherm. Resour. Counc.;(United States)</em>, 5(CONF-811015-), 1981.</dd> <!-- Authors: Millington R J and Quirk J P --> <dt><a name="CITEREF_millington1961">[45]</a></dt><dd>R.&nbsp;J. Millington and J.&nbsp;P. Quirk. <a href="http://dx.doi.org/10.1039/TF9615701200">Permeability of porous solids</a>. <em>Trans. Faraday Soc.</em>, 57:1200&ndash;1207, 1961. <!-- DOI: 10.1039/TF9615701200 --></dd> <!-- Authors: Nagel T and Shao H and Rosskopf C and Linder M and Worner A and Kolditz O --> <dt><a name="CITEREF_nagel2014">[46]</a></dt><dd>T&nbsp;Nagel, H&nbsp;Shao, C&nbsp;Ro&szlig;kopf, M&nbsp;Linder, A&nbsp;W&ouml;rner, and O&nbsp;Kolditz. The influence of gas&ndash;solid reaction kinetics in models of thermochemical heat storage under monotonic and cyclic loading. <em>Applied Energy</em>, 136:289&ndash;302, 2014.</dd> <!-- Authors: Nield D A and Bejan A --> <dt><a name="CITEREF_nield2006">[47]</a></dt><dd>D.&nbsp;A. Nield and A.&nbsp;Bejan. <a href="https://dx.doi.org/10.1007/0-387-33431-9_10">Convection with Change of Phase</a>. <em>Convection in Porous Media</em>, pages 403&ndash;452, 2006.</dd> <dt><a name="CITEREF_NIST">[48]</a></dt><dd>Thermophysical Properties of Fluid Systems: <a href="http://webbook.nist.gov/chemistry/fluid/">http://webbook.nist.gov/chemistry/fluid/</a>.</dd> <!-- Authors: Nuske K P --> <dt><a name="CITEREF_nuske2009">[49]</a></dt><dd>K.&nbsp;P. Nuske. Determination of interfacial area-capillary pressure-saturation relationships for a single fracture. Master's thesis, Universit&auml;t Stuttgart, 2009.</dd> <!-- Authors: Ochs C J and Sittner F and Ugas Carrion R and Yekehtaz M and Ensinger W --> <dt><a name="CITEREF_ochs2008">[50]</a></dt><dd>C.&nbsp;J. Ochs, F.&nbsp;Sittner, R.&nbsp;Ugas-Carri&oacute;n, M.&nbsp;Yekehtaz, and W.&nbsp;Ensinger. <a href="https://www.researchgate.net/profile/Christopher_Ochs/publication/229811805_Structural_and_electrochemical_characterization_of_zirconium_and_silicon_based_sol-gel_coatings_for_corrosion_protection/links/09e41501118fbee7b2000000.pdf">Structural and electrochemical characterization of zirconium and silicon based sol-gel coatings for corrosion protection</a>. <em>Current Topics in Electrochemistry</em>, 13:59&ndash;65, 2008.</dd> <!-- Authors: Oertel Herbert --> <dt><a name="CITEREF_Oertel2012a">[51]</a></dt><dd>Herbert Oertel. <a href="http://dx.doi.org/10.1007/978-3-8348-2315-1"><em>Prandtl - F&uuml;hrer durch die Str&ouml;mungslehre: Grundlagen und Ph&auml;nomene</em></a>. Springer Vieweg, Wiesbaden, 13 edition, 2012. <!-- DOI: 10.1007/978-3-8348-2315-1 --></dd> <!-- Authors: Oliveira L I and Demond A H --> <dt><a name="CITEREF_oliveira2003">[52]</a></dt><dd>L.&nbsp;I. Oliveira and A.&nbsp;H. Demond. <a href="https://dx.doi.org/10.1016/S0169-7722(03)00029-9">Estimation of primary drainage three-phase relative permeability for organic liquid transport in the vadose zone</a>. <em>Journal of Contaminant Hydrology</em>, 66(3):261&ndash;285, 2003.</dd> <!-- Authors: Palliser C and McKibbin R --> <dt><a name="CITEREF_palliser1998">[53]</a></dt><dd>C.&nbsp;Palliser and R.&nbsp;McKibbin. <a href="https://dx.doi.org/10.1023/A:1006549810989">A model for deep geothermal brines, III: Thermodynamic properties&ndash;enthalpy and viscosity</a>. <em>Transport in Porous Media</em>, 33(1-2):155&ndash;171, 1998.</dd> <!-- Authors: Patel V C and Rodi W and Scheuerer G --> <dt><a name="CITEREF_Patel1985a">[54]</a></dt><dd>V.&nbsp;C. Patel, W.&nbsp;Rodi, and G.&nbsp;Scheuerer. <a href="http://dx.doi.org/10.2514/3.9086">Turbulence models for near-wall and low Reynolds number flows - A review</a>. <em>AIAA Journal</em>, 23(9):1308&ndash;1319, 1985. <!-- DOI: 10.2514/3.9086 --></dd> <!-- Authors: Edzer J Pebesma and Cees G Wesseling --> <dt><a name="CITEREF_Pebesma1998a">[55]</a></dt><dd>Edzer&nbsp;J. Pebesma and Cees&nbsp;G. Wesseling. <a href="http://dx.doi.org/10.1016/S0098-3004(97)00082-4">Gstat: a program for geostatistical modelling, prediction and simulation</a>. <em>Computers &amp; Geosciences</em>, 24(1):17&ndash;31, 1998. <!-- DOI: http://dx.doi.org/10.1016/S0098-3004(97)00082-4 --></dd> <!-- Authors: Peng D Y and Robinson D B --> <dt><a name="CITEREF_peng1976">[56]</a></dt><dd>D.-Y. Peng and D.&nbsp;B. Robinson. <a href="https://dx.doi.org/10.1021/i160057a011">A new two-constant equation of state</a>. <em>Industrial &amp; Engineering Chemistry Fundamentals</em>, 15(1):59&ndash;64, 1976.</dd> <!-- Authors: Poling B E and Prausnitz J M and OConnell J P --> <dt><a name="CITEREF_poling2001">[57]</a></dt><dd>B.&nbsp;E. Poling, J.&nbsp;M. Prausnitz, and J.&nbsp;P. O'Connell. <a href="https://dx.doi.org/10.1036/0070116822"><em>The properties of gases and liquids</em></a>, volume&nbsp;5. McGraw-Hill New York, 2001.</dd> <!-- Authors: Prydz R --> <dt><a name="CITEREF_prydz1972">[58]</a></dt><dd>R.&nbsp;Prydz. <a href="https://dx.doi.org/10.1088/0026-1394/8/1/002">An Improved Oxygen Vapor Pressure Representation</a>. <em>Metrologia</em>, 8(1):1, 1972.</dd> <!-- Authors: Reid R C and Prausnitz JM and Poling B E --> <dt><a name="CITEREF_reid1987">[59]</a></dt><dd>R.&nbsp;C. Reid, J.M. Prausnitz, and B.&nbsp;E. Poling. <a href="https://www.osti.gov/scitech/biblio/6504847"><em>The Properties of Gases and Liquids</em></a>. McGraw-Hill Inc., 1987.</dd> <!-- Authors: Sander R --> <dt><a name="CITEREF_sander1999">[60]</a></dt><dd>R.&nbsp;Sander. <a href="http://enviromap.utah.gov/businesses/E/EnSolutions/depleteduranium/performassess/compliancereport/docs/2014/07Jul/supinfo/appreferences/Sander1999.pdf">Compilation of Henry's law constants for inorganic and organic species of potential importance in environmental chemistry</a>, 1999.</dd> <!-- Authors: Shao H and Nagel T and Rosskopf C and Linder M and Worner A and Kolditz O --> <dt><a name="CITEREF_shao2013">[61]</a></dt><dd>H&nbsp;Shao, T&nbsp;Nagel, C&nbsp;Ro&szlig;kopf, M&nbsp;Linder, A&nbsp;W&ouml;rner, and O&nbsp;Kolditz. Non-equilibrium thermo-chemical heat storage in porous media: Part 2&ndash;A 1D computational model for a calcium hydroxide reaction system. <em>Energy</em>, 60:271&ndash;282, 2013.</dd> <!-- Authors: Shi J X and Wang J H --> <dt><a name="CITEREF_Shi2011">[62]</a></dt><dd>J.&nbsp;X. Shi and J.&nbsp;H. Wang. <a href="https://doi.org/10.1007/s11242-010-9710-9">A numerical investigation of transpiration cooling with liquid coolant phase change</a>. <em>Transport in Porous Media</em>, 87(3):703&ndash;716, 2011. <!-- DOI: 10.1007/s11242-010-9710-9 --></dd> <!-- Authors: Somerton W H and Keese J A and Chu S L and others --> <dt><a name="CITEREF_somerton1974">[63]</a></dt><dd>W.&nbsp;H. Somerton, J.&nbsp;A. Keese, S.&nbsp;L. Chu, and others. <a href="https://dx.doi.org/10.2118/4506-PA">Thermal behavior of unconsolidated oil sands</a>. <em>Society of Petroleum Engineers Journal</em>, 14(05):513&ndash;521, 1974.</dd> <!-- Authors: Spalart P R and Allmaras S R --> <dt><a name="CITEREF_Spalart1992a">[64]</a></dt><dd>P.&nbsp;R. Spalart and S.&nbsp;R. Allmaras. <a href="http://dx.doi.org/10.2514/6.1992-439">A one-equation turbulence model for aerodynamic flows</a>. In <em>Aerospace Sciences Meetings</em>, pages&nbsp;&ndash;. American Institute of Aeronautics and Astronautics, 1992. <!-- DOI: 10.2514/6.1992-439 --></dd> <!-- Authors: Span R and Wagner W --> <dt><a name="CITEREF_span1996">[65]</a></dt><dd>R.&nbsp;Span and W.&nbsp;Wagner. <a href="https://dx.doi.org/10.1063/1.555991">A new equation of state for carbon dioxide covering the fluid region from the triple-point temperature to 1100 K at pressures up to 800 MPa</a>. <em>Journal of physical and chemical reference data</em>, 25(6):1509&ndash;1596, 1996.</dd> <!-- Authors: Span R and Lemmon E W and Jacobsen R T and Wagner W and Yokozeki A --> <dt><a name="CITEREF_span2000">[66]</a></dt><dd>R.&nbsp;Span, E.&nbsp;W. Lemmon, R.&nbsp;T. Jacobsen, W.&nbsp;Wagner, and A.&nbsp;Yokozeki. <a href="https://dx.doi.org/10.1063/1.1349047">A reference equation of state for the thermodynamic properties of nitrogen for temperatures from 63.151 to 1000 K and pressures to 2200 MPa</a>. <em>Journal of Physical and Chemical Reference Data</em>, 29(6):1361&ndash;1433, 2000.</dd> <!-- Authors: Spycher N and Pruess K --> <dt><a name="CITEREF_spycher2005">[67]</a></dt><dd>N.&nbsp;Spycher and K.&nbsp;Pruess. <a href="https://dx.doi.org/10.1016/j.gca.2005.01.015">CO 2-H 2 O mixtures in the geological sequestration of CO 2. II. Partitioning in chloride brines at 12&ndash;100 C and up to 600 bar</a>. <em>Geochimica et Cosmochimica Acta</em>, 69(13):3309&ndash;3320, 2005.</dd> <!-- Authors: Spycher N and Pruess K and Ennis King J --> <dt><a name="CITEREF_spycher2003">[68]</a></dt><dd>N.&nbsp;Spycher, K.&nbsp;Pruess, and J.&nbsp;Ennis-King. <a href="https://dx.doi.org/10.1016/S0016-7037(03)00273-4">CO_2-H_2O mixtures in the geological sequestration of CO_2. I. Assessment and calculation of mutual solubilities from 12 to 100 C and up to 600 bar</a>. <em>Geochimica et cosmochimica acta</em>, 67(16):3015&ndash;3031, 2003.</dd> <!-- Authors: Stoer Josef and Bulirsch Roland --> <dt><a name="CITEREF_stoer2005">[69]</a></dt><dd>Josef Stoer and Roland Bulirsch. <em>Numerische Mathematik 1</em>. Springer, Berlin, 9 edition, 2005.</dd> <!-- Authors: Taylor Ross and Krishna Rajamani --> <dt><a name="CITEREF_taylor1993a">[70]</a></dt><dd>Ross Taylor and Rajamani Krishna. <em>Multicomponent mass transfer</em>, volume&nbsp;2. John Wiley &amp; Sons, 1993.</dd> <!-- Authors: Tchobanoglous G and Schroeder E D --> <dt><a name="CITEREF_tchobanoglous1985">[71]</a></dt><dd>G.&nbsp;Tchobanoglous and E.&nbsp;D. Schroeder. Water Quality: Characteristics. <em>Modeling, Modification: Addison-Wesley</em>, 1985.</dd> <!-- Authors: E R van Driest --> <dt><a name="CITEREF_vanDriest1956a">[72]</a></dt><dd>E.&nbsp;R. van Driest. <a href="http://dx.doi.org/10.2514/8.3713">On Turbulent Flow Near a Wall</a>. <em>AIAA Journal</em>, 23(11):1007&ndash;1011, 1956. <!-- DOI: 10.2514/8.3713 --></dd> <!-- Authors: Vargaftik Natan B --> <dt><a name="CITEREF_vargaftik1975">[73]</a></dt><dd>Natan&nbsp;B Vargaftik. <a href="https://cds.cern.ch/record/101055">Tables on the thermophysical properties of liquids and gases in normal and dissociated states</a>. 1975.</dd> <!-- Authors: Venturoli Maddalena and Boek Edo S --> <dt><a name="CITEREF_venturoli2006a">[74]</a></dt><dd>Venturoli, Maddalena and Boek, Edo S. <a href="https://doi.org/10.1016/j.physa.2005.09.006">Two-dimensional lattice-Boltzmann simulations of single phase flow in a pseudo two-dimensional micromodel</a>. <em>Physica A: Statistical Mechanics and its Applications</em>, 362(1):23&ndash;29, 2006. <!-- DOI: 10.1016/j.physa.2005.09.006 --></dd> <!-- Authors: Versteeg Henk and Malalasekra Weeratunge --> <dt><a name="CITEREF_Versteeg2009a">[75]</a></dt><dd>Henk Versteeg and Weeratunge Malalasekra. <em>An Introduction to Computational Fluid Dynamics</em>. Pearson Education, Harlow, 2 edition, 2009.</dd> <!-- Authors: Walker W R and Sabey J D and Hampton D R --> <dt><a name="CITEREF_walker1981">[76]</a></dt><dd>W.&nbsp;R. Walker, J.&nbsp;D. Sabey, and D.&nbsp;R. Hampton. <a href="https://www.osti.gov/scitech/biblio/6149346">Studies of heat transfer and water migration in soils. Final report</a>. Technical report, Colorado State Univ., Fort Collins (USA). Solar Energy Applications Lab., 1981.</dd> <!-- Authors: Watanabe K and Dooley R B --> <dt><a name="CITEREF_watanabe2004">[77]</a></dt><dd>K.&nbsp;Watanabe and R.&nbsp;B. Dooley. <a href="http://www.iapws.org/relguide/HenGuide.pdf">Guideline on the Henry's Constant and Vapor-Liquid Distribution Constant for Gases in H2O and D2O at High Temperatures</a>. <em>International Association for the Properties of Water and Steam</em>, 2004.</dd> <!-- Authors: David C Wilcox --> <dt><a name="CITEREF_Wilcox2008a">[78]</a></dt><dd>David&nbsp;C. Wilcox. <a href="https://doi.org/10.2514/1.36541">Formulation of the k-&omega; Turbulence Model Revisited</a>. <em>AIAA Journal</em>, 46(11):2823&ndash;2838, 2008. <!-- DOI: 10.2514/1.36541 --></dd> <!-- Authors: Witherspoon P A and Saraf D N --> <dt><a name="CITEREF_witherspoon1965">[79]</a></dt><dd>P.&nbsp;A. Witherspoon and D.&nbsp;N. Saraf. <a href="https://doi.org/10.1021/j100895a017">Diffusion of Methane, Ethane, Propane, and n-Butane in Water from 25 to 43°</a>. <em>The Journal of Physical Chemistry</em>, 69(11):3752&ndash;3755, 1965. <!-- DOI: 10.1021/j100895a017 --></dd> <!-- Authors: Wolff Markus and Cao Yufei and Flemisch Bernd and Helmig Rainer and Wohlmuth Barbara --> <dt><a name="CITEREF_wolff2013b">[80]</a></dt><dd>Markus Wolff, Yufei Cao, Bernd Flemisch, Rainer Helmig, and Barbara Wohlmuth. <em>Multi-point flux approximation L-method in 3D: numerical convergence and application to two-phase flow through porous media</em>, pages 39&ndash;80. Simulation of Flow in Porous Media: Applications in Energy and Environment. De Gruyter, 2013.</dd> <!-- Authors: Markus Wolff --> <dt><a name="CITEREF_wolff2013a">[81]</a></dt><dd>Markus Wolff. <a href="http://elib.uni-stuttgart.de/opus/volltexte/2013/8661/"><em>Multi-scale modeling of two-phase flow in porous media including capillary pressure effects</em></a>. PhD thesis, Institut f&uuml;r Wasser- und Umweltsystemmodellierung, Universit&auml;t Stuttgart, 2013.</dd> <!-- Authors: Xu B and Nagashima K and DeSimone J M and Johnson C S --> <dt><a name="CITEREF_xu2003">[82]</a></dt><dd>B.&nbsp;Xu, K.&nbsp;Nagashima, J.&nbsp;M. DeSimone, and C.&nbsp;S. Johnson. <a href="https://dx.doi.org/10.1021/jp021943g">Diffusion of water in liquid and supercritical carbon dioxide: an NMR study. The Journal of Physical Chemistry A, 107(1):1–3, 2003.