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  REFERENCES 

 Code   References 
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 00bla/bid   Bladh K.W., Bideaux R.A., Anthony-Morton E., Nichols B.G. (2000) The Handbook of Mineralogy Volume IV, Mineralogical Society of America. 
 00cou   Courault, A. C., 2000, Simulation experimentale des C-S-H dans les betons modernes : etude de la composition et des proprietes a l'equilibre dans des milieux complexes : Ph.D. thesis, Universite de Bourgogne, Dijon, 201 p. 
 00cra/eig   Crannell B.S., Eighmy T.T., Krzanowski J.E., Eusden J.D. Jr., Shaw E.L., Francis C.A., 2000, Heavy metal stabilization in municipal solid waste combustion bottom ash using soluble phosphate. Waste Manag., 20, 135-148 
 00deb/cas   Deberdt S., Castet S., Dandurand J.L. and Harrichoury J.C., 2000. Potentiometric study of Gd- and Yb-acetate complexing in the temperature range 25-80 C. Chemical Geology, Volume 167, Issues 1-2, 5 June 2000, Pages 75-88 
 00gun/arn   Gunnarson I., and Arnorsson S., 2000. Amorphous silica solubility and the thermodynamic properties of H4SiO4 in the range of 0 to 350 C at Psat. Geochimica et Cosmochimica Acta, 64, p. 2295-2307. 
 00lyd   Lyde D.R., 2000. CRC Handbook of Chemistry and Physics, 2000-200. CRC Press 
 00mer/bon   Merlino, S., Bonaccorsi, E., and Armbruster, T., 2000, The real structure of clinotobermorite and tobermorite 9 A: OD character, polytypes, and structural relationships: European Journal of Mineralogy, v. 12, p. 411-429. 
 00per/pal   Perkins R.B. and Palmer C.D., 2000. Solubility of Ca6[Al(OH)6]2(CrO4)3.26 H2O, the chromate analog of ettringite; 5-75 C. Applied Geochem., 15, p. 1203-1218. 
 00rea/fag   Reardon E.J., and Fagan R., 2000. The calcite/portlandite phase boundary: enhanced calcite solubility at high pH. Applied Geochemistry, 15, p. 327 335. 
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 00tag/dia   Tagirov B. R., Diakonov I. I., Devina O. A., and Zotov A. V. (2000) Standard ferric-ferrous potential and stability of FeCl2+ to 90 C. Thermodynamic properties of Fe(aq)3+ and ferric-chloride species. Chemical Geology 162(3-4), 193-219. 
 00vie   Vieillard P., 2000. A new method for the prediction of Gibbs free energies of formation of hydrated clay minerals based on the electronegativity scale. Clays and Clay Minerals, 48, p. 459-473. 
 00zue/feh   Zuern, S.G., and Fehr, K.T., 2000. Phase relations and thermodynamic properties of 1.13 nm tobermorite and xonotlite. In: Sixth International Symposium on Hydrothermal reactions/Fourth International Conference on Solvo-thermal Reactions, Kochi, Japan, pp. 286-289. 
 01aki/zot   Akinfiev N. N. and Zotov A. V., 2001. Thermodynamic Description of Chloride, Hydrosulfide, and Hydroxo Complexes of Ag(I), Cu(I), and Au(I) at Temperatures of 25-500oC and Pressures of 1-2000 bar. Geochem. Intern., v. 39, No 10, p. 990-1006. Abstract 
 01aya/mad   Ayati M., and Madsen H.E.L., 2001. Solubility Product of the Cadmium Phosphate Cd5H2(PO4)4.4H2O at 37 C. J. Chem. Eng. Data, 46, p. 113 116. 
 01ben/jem   Ben Cherifa A., and Jemal M., 2001. Synthese et thermochimie de phosphates au cadmium: Partie I: Cas du phosphate tricadmique et de la chlorapatite cadmiee. Thermochimica Acta, 366, p. 1 6. 
 01ben/pal   Benezeth P., Palmer D.A., and Wesolowski D.J., 2001. Aqueous high-temperature solubility studies. II. The solubility of boehmite at 0.03 m ionic strength as a function of temperature and pH as determined by in situ measurements. Geochimica et Cosmochimica Acta, 65, p. 2097-2111 
 01fel/cho   Felmy A. R., Cho H., Rustad J. R., and Mason M. J. (2001) An aqueous thermodynamic model for polymerized silica species to high ionic strength. Journal of Solution Chemistry 30(6), 509-525. 
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 01fri/neu   Fridriksson, T., Neuhoff, P. S., Arnorsson, S., and Bird, D. K., 2001, Geological constraints on the thermodynamic properties of the stilbite-stellerite solid solution in low-grade metabasalts. Geochimica Cosochimica Acta, v. 65, p. 3993-4008. 
 01gas/aza   Gaskova O., Azaroual M., Piantone, P., Lassin A. (2001) - Arsenic behaviour in subsurface hydrogeochemical systems - A critical review of thermodynamic data forarsenic minerals and aqueous species - A compilation of arsenic surface complexation reactions. BRGM Report RP-51356-FR, 78 p. 
 01kal/mar   Kahl W.A. and Maresch W.V., 2001. Enthalpies of formation of tremolite and talc by high-temperature solution calorimetry-a consistent picture. American Mineralogist, 86, p. 1345-1357 
 01mer/vie   Lionel Mercury, Philippe Vieillard, Yves Tardy, 2001. Thermodynamics of ice polymorphs and 'ice-like' water in hydrates and hydroxides. Applied Geochemistry, Volume 16, Issue 2, February 2001, Pages 161-181 
 01per/hef   Pererra N.W., Hefter G., and Sipos P.M., 2001. An Investigation of the Lead(II)-Hydroxide System. Inorg. Chem., 40, p. 3974-3978. 
 01per/pal   Perkins R.B. and Palmer C.D., 2001. Solubility of chromate hydrocalumite (3CaO.Al2O3.CaCrO4.nH2O) at 5-75 C. Cement and Concrete Research, 31, pp. 983-992. 
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 01ste   A. Stefansson, 2001Dissolution of primary minerals of basalt in natural waters: I. Calculation of mineral solubilities from 0 C to 350 C. Chemical Geology, Volume 172, Issues 3-4, 225-250 
 01tag/sch   Tagirov B., and Schott J., 2001. Aluminum speciation in crustal fluids revisited Geochim. Cosmochim. Acta (Helgeson's special issue), 65, p. 3965 3992. 
 01vid/par   Vidal, O., Parra, T. and Trotet, F (2001): A thermodynamic model for Fe-Mg aluminous chlorite using data from phase equilibrium experiments and natural pelitic assemblages in the 100-600 C, 1-25 kbar P-T range. Am. J. Sci., 301, 557-592. 
 01wen/mus   Wentzel M.C., Musvoto E.V. and Ekama G.A., 2001. Application of integrated chemical - physical processes modelling to aeration treatment of anaerobic digester liquors. Environmental Technology, 22, 1287-1293 
 02cho/sea   Chou, I.M., Seal, R.R., Hemingway, B.S. (2002) Determination of melanterite-rozenite and chalcanthite-bonattite equilibria by humidity measurements at 0.1 MPa, Am. Mineral. 87, 108-114. 
 02dut   Dutrizac J.E., 2002. Calcium sulphate solubilities in simulated zinc processing solutions. Hydrometallurgy, 65, p. 109-135. 
 02hem/sea   Hemingway, B.S., Seal, R.R., II, and Chou, I-M. (2002) Thermodynamic data for modeling acid mine drainage problems. Part I. Selected soluble iron-sulfate minerals. U.S. Geological Survey Open File Report 02 - 161, 13 p. 
 02hum/ber   NAGRA Hummel W., Berner U., Curti E., Pearson F.J., and Thoenen T., 2002. Nagra/PSI Chemical Thermodynamic Data Base 01/01. Universal Publishers (uPUBL.com), 600 pp. 
 02mig/will   Migdisov Art A. and Williams-Jones A. E. 2002. A spectrophotometric study of neodymium(III) complexation in chloride solutions. Geochimica et Cosmochimica Acta, 66, 4311-4323 
 02ogo/mel   Ogorodova L.P., Melchakova L.V., Kiseleva I.A. 2002 Enthalpies of formation of formation of natural zeolites - gismondine, garronite and amicite. Experimental mineralogy, petrology and geochemistry annual seminar 2002, April 16-17, 2002, Moscow 
 02par/vid   Parra, T., Vidal, O., and Agard, P., 2002, A thermodynamic model for fe-mg dioctahedral k white micas using data from phase-equilibrium experiments and natural pelitic assemblages: Contribution to Mineralogy and Petrology, v. 143, p. 706-732. 
 03alt/met   Altamaier M., Metz V., Neck V., Muller R.and Fanghanel Th., 2003. Solid liquid equilibria of Mg(OH)2(cr) and Mg2(OH)3Cl.4H2O(cr) in the system Mg Na H OH Cl H2O at 25 C. Geochimica et Cosmochimica Acta, 67, p. 3595-3601. 
 03bou   Bourbon X., 2003. Chemical conceptual model for cement based materials ~ mineral phases and thermodynamic data. Technical report C.NT.ASCM.03.026, 14 p. 
 03chr   Christov C., 2003. Thermodynamic study of the aqueous sodium, potassium, and chromium chloride systems at the temperature 298.15K. J. Chem. Thermodynamics, 35, p. 909-917. 
 03dea   Dean J.A. 2003. Lange's Handbook of chemistry, 2nd edition. Science and technology press: Beijing (in Chinese). 
 03dro/bar   Drouet C. , Baron D. , Navrotsky A. (2003) On the thermochemistry of the solid solution between jarosite and its chromate analog. American Mineralogist, 88, 1949-1954 
 03dro/nav   Drouet C, Navrotsky A (2003) Synthesis, characterization and thermochemistry of K-Na-H3O jarosites. Geochim Cosmochim Acta 67:2063-2076 
 03fre/voi   Freyer D., and Voigt W., 2003. Invited Review : Crystallization and Phase Stability of CaSO4 and CaSO4 - Based Salts. Monatshefte fur Chemie, 134, p. 693-719. 
 03maj/gre    Majzlan., J., Grevel, K.-D., Navrotsky, A., (2003) Thermodynamics of iron oxides. H. Enthalpies of formation and relative stability of goethite (a-FeOOH), lepidocrocite (y-FeOOH), and maghemite (y-Fe2O3). American Mineralogist 88, 855-859.  
 03web/hun   Weber C.F., and Hunt R.D., 2003. Modeling Alkaline Silicate Solutions at 25 C. Ind. Eng. Chem. Res., 42, p. 6970 6976. 
 03wil/wal   Wilkin, R. T., D. Wallschlager, and R. G. Ford. 2003. Speciation of arsenic in sulfidic waters. Geochem. Trans. 4:1-7. 
 03zot/shi   Zotov A. V., Shikina N. D. and Akinfiev N. N., 2003. Thermodynamic properties of the Sb(III) hydroxide complex Sb(OH)3(aq) at hydrothermal conditions. Geochimica et Cosmochimica Acta, Volume 67, 1821-1836 
 04chi   Chivot J., 2004. Thermodynamique des produits de corrosion. Fonctions thermodynamiques de solubilite, diagrammes E-pH des systemes Fe-H2O, Fe-CO2-H2O, Fe-S-H2O, Cr-H2O et Ni-H2O en fonction de la temperature. Document ANDRA, Collection Sciences et Techniques. 
 04chr   Christov C., 2004. 'Pitzer ion-interaction parameters for Fe(II) and Fe(III) in the quinary {Na + K + Mg + Cl + SO4 + H2O} system at T = 298.15 K.' J. Chem. Thermod. 36: 223-235. 
 04ess/fos   Essington M.E., Foss J.E. and Roh Y., 2004. The soil mineralogy of lead at Horace's Villa. Soil Sci. Soc. Am. J., 68, p. 979 993. 
 04eva   Evans B. (2004) The serpentine multisystem revisited: Chrysotile is metastable, International Geology Review, 46, 479-506 
 04fab/sax   Fabrichnaya O., Saxena S.K., Richet P. and Westrum E.F. (Eds), 2004. Thermodynamic data, models, and phase diagrams in multicomponent oxide systems. ISBN 3-540-14018-2 Springer Verlag Berlin Heidelberg New York, 198 p.  
 04gab/vie   Gaboreau S. and Vieillard Ph. (2004). Prediction of Gibbs free energies of formation of minerals of the alunite supergroup. Geochimica and Cosmochimica Acta, 68, 3307-3316 
 04gar/muc   Alain Garand, Alfonso Mucci. The solubility of fluorite as a function of ionic strength and solution composition at 25 C and 1 atm total pressure. Marine Chemistry, Volume 91, Issues 1-4, 15 November 2004, Pages 27-35 
 04loo/pas   Loos D., Pasel C., Luckas M., Schmidt Klaus G., and Herbell J.D., 2004. Experimental investigation and modelling of the solubility of calcite and gypsum in aqueous systems at higher ionic strength. Fluid Phase Equilibria, 219, p. 219-229. 
 04maj/nav    Majzlan, J., Navrotsky, A., Schwertmann, U. (2004) Thermodynamics of iron oxides: Part III. Enthalpies of formation and stability of ferrihydrite (~Fe(OH)3), schwertmannite (~FeO(OH)3/4(SO4)1/8), and e-Fe2O3. Geochimica et Cosmochimica Acta 68, 1049-1059 
 04maj/ste   Majzlan, J., Stevens, R., Boerio-Goates, J., Woodfield, B.F., Navrotsky, A., Burns, P.C., Crawford, M.K., Amos, T.G. (2004) Thermodynamic properties, low-temperature heat capacity anomalies, and single crystal X-ray refinement of hydronium jarosite, (H3O)Fe3(SO4)2(OH)6. Physics and Chemistry of Minerals 31, 518-531 
 04neu/hov   Neuhoff, P.S., Hovis, G.L., Balassone, G., and Stebbins, J.F., 2004, Thermodynamic properties of analcime solid solutions. American Journal of Science, v. 304, p. 21-66. 
 04roi   Roine A., 2004. HSC Chemistry: v5.0, Outokompu Research Oy: Pori. 
 04smi/mar   Smith R.M., and Martell A.E., 2004. NIST Critically Selected Stability Constants of Metals Complexes Database, V 8.0. National Institute of Standards and Technology (NIST); Texas A and M University. 
 04wan/li   Wang T. and Li Z., 2004. Some thermodynamic properties of calcium chromate. J. Chem. Eng. Data, 49, p. 1300-1302. 
 04xu/app   Xu, T, J. A. Apps, and K. Pruess, Numerical simulation of CO2 disposal by mineral trapping in deep aquifers, Applied Geochemistry, 19, 917-936, 2004 
 05bes/app   Bessinger, B. and Apps, J.A., 2005. The Hydrothermal Chemistry of Gold, Arsenic, Antimony, Mercury and Silver. Report LBNL-57395, 52 p. 
 05for/dro    Forray, F.L., Drouet, C, Navrotsky, A. (2005) Thermochemistry of yavapaiite KFe(SO4)2: Formation and decomposition. Geochimica et Cosmochimica Acta 69(8), 2133-2140 
 05kin/par   Kim T.G. and Park B., 2005. Synthesis and Growth Mechanisms of One-Dimensional Strontium Hydroxyapatite Nanostructures. Inorganic chemistry, 44, p. 9895-9901 
 05las/aza   Lassin A., Azaroual M., Mercury L. (2005) 'Geochemistry of Unsaturated Soil Systems: Aqueous Speciation and Solubility of Minerals and Gases in Capillary Solutions'. Geochim. Cosmochim. Acta 69, 5187-5201. 
 05liu/mcp   Liu W. and McPhail D.C., 2005. Thermodynamic properties of copper chloride complexes and copper transport in magmatic-hydrothermal solutions. Chemical Geology, 221, 21-39 
 05maj/nav   Majzlan, J., Navrotsky, A., Stevens, R., Donaldson, M., Woodfield, B.F., Boerio-Goates, J. (2005) Thermodynamics of monoclinic Fe2(SO4)3. Journal of Chemical Thermodynamics 37, 802-809 
 05pok/rou   Pokrovski G.S., Roux J., Hazemann J.L. and Testemale D. , 2005. An X-ray absorption spectroscopy study of argutite solubility and aqueous Ge(IV) speciation in hydrothermal fluids to 500 C and 400 bar. Chemical Geology, 217, 127-145 
 05vid/par   Vidal O., Parra T., Vieillard, P., 2005. Thermodynamic properties of the Tschermak solid solution in Fe-chlorite: Application to natural examples and possible role of oxidation. American Mineralogist 90, 347-358. 
 05wal/pel   Waldner, P., Pelton, A.D. (2005) Thermodynamic modeling of the Fe-S system. Journal of Phase Equilibria and Diffusion 26, 23-38. 
 06bla/ign   Blanc P., Ignatadis I., Lassin A. et Burnol A., 2006. Thermochimie : Selection de constantes thermodynamiques pour le chrome, le cobalt et le strontium. Rapport final. Rapport BRGM 55083-FR. 
 06bla/las   Blanc P., Lassin A., Gaucher E.C. et Jacquot E., 2006. Un modele thermodynamique et mineralogique de beton : prise en compte de l'influence de la temperature. Rapport final. Rapport BRGM 55084-FR. 
 06bla/pia   Blanc P., Piantone P., Lassin A. et Burnol A., 2006. Thermochimie : Selection de constantes thermodynamiques pour les elements majeurs, le plomb et le cadmium. Rapport final. Rapport BRGM 54902-FR 
 06bod/las   Bodenan F., Lassin A., Hottier M., Filippov L. et Piantone P., 2006. Projet Decalco - Piegeage et valorisation de dechet alcalin par passivation au CO2 industriel. Rapport BRGM/RP-55015-FR, 140 p. 
 06deo/nav   Deore S., and Navrotsky A., 2006. Oxide melt solution calorimetry of sulfides: Enthalpy of formation of sphalerite, galena, greenockite, and hawleyite. American Mineralogist, 91, p. 400 403.  
 06gai/bla   Gailhanou H., et Blanc P., 2006. Thermochimie - Estimation des entropies, capacites calorifiques et volumes molaires des phyllosilicates 2 :1 deshydrates. BRGM/RP-55095-FR 
 06gau/bla   Gaucher E. C., Blanc P., Bardot F., Braibant G., Buschaert S., Crouzet C., Gautier A., Girard J.-P., Jacquot E., Lassin A., Negrel G., Tournassat C., Vinsot A., Altmann S. (2006) Modelling the porewater chemistry of the Callovian-Oxfordian formation at a at a regional scale, C. R. Geoscience 338 (2006). 
 06lan/mah   Langmuir D, Mahoney J, Rowson J (2006) Solubility products of amorphous ferric arsenate and crystalline scorodite (Fe- AsO4_2H2O) and their application to arsenic behavior in buried mine tailings. Geochim Cosmochim Acta 70:2942-2956 
 06las/bla   Lassin A. et Blanc P., 2006. Considerations sur les contraintes liees a la gestion des donnees thermodynamiques en vue de la creation de la base de donnees THERMODDEM. Rapport BRGM/RP-55118-FR, 120 p. 
 06mes/bou   Messnaoui B., and Bounahmidi T., 2006. On the modeling of calcium sulfate solubility in aqueous solutions. Fluid Phase Equilibria, 244, p. 117-127. 
 06pia/bod   Piantone P., Bodenan F. et Lassin A., 2006. Projet NOVOSOL - Evaluation environnementale de sediments phosphates et calcines. Rapport BRGM/RP-54845-FR, 133 p. 
 06pia/now   Piantone P., Nowak C., Blanc P., Lassin A. et Burnol A., 2006. Themoddem : THERmodynamique et MOdelisation de la Degradation DEchets Mineraux. Rapport d'avancement. Rapport BRGM n BRGM/RP- 54547-FR, 52 p. 
 07avie   Vieillard P., 2007. Estimation des entropies et capacites calorifiques des zeolithes. Rapport CNRS-Hydrasa 2007-2, 30 p. 
 07bla/bou   Blanc P., Bourbon X. et Lassin A. (2007) Un modele thermodynamique et mineralogique de beton : selection de constantes thermodynamiques. Rapport final. Rapport BRGM/RP-55967-FR 
 07bla/gai   Blanc P. et Gailhanou H. (2007) Thermochimie : Estimation des entropies, capacites calorifiques et volumes molaires des phyllosilicates deshydrates et hydrates. Rapport final. Rapport BRGM/RP-55966-FR. 
 07gai/bla   Gailhanou H. et Blanc P., 2007. Thermochimie : Acquisition des proprietes thermodynamiques sur une saponite et revision des donnees sur les mineraux argileux. Rapport final BRGM/RP-55925-FR 
 07las   brgm report in progress 
 07mar/acc   Marini L, Accornero M (2007) Prediction of the thermodynamic properties of metal-arsenate and metal-arsenite aqueous complexes to high temperatures and pressures and some geological consequences. Environ Geol 52:1343-1363 
 07neu/wan   Neuhoff P. S. and Wang J. (2007) Heat capacity of hydration. American Mineralogist 92, 1358-1367 
 07ste   Stefansson A. (2007) Iron(III) hydrolysis at 25 C. Environ. Sci. Technol. 2007, 41, 6117-6123 
 07vie   Vieillard P., 2007. THERMOCHIMIE : Estimation des enthalpies de formation des Phyllosilicates (7, 10 et 14A) anhydres. Rapport final. CNRS-Hydrasa 2007-1, 21 p. 
 08aza/and   Azaroual M., Andre L., Blanc Ph., Jacquemet N., Crouzet C. (2008) Modelisation thermocinetique des phenomenes d'interaction eaux riches en gaz acides - ciment du casing des forages petroliers. Rapport BRGM/RC-56584-FR, 48 fig., 14 tabl., 124 p 
 08bas/pet    Basciano L.C., Peterson R.C. (2008) Amer. Mineral., 93, 853-862 
 08bla   Blanc P. (2008) : Thermoddem - Selection de proprietes thermodynamiques pour les principales especes aqueuses et minerales porteuses de fer. Rapport final. Rapport BRGM/RP-56587-FR, 70p. 
 08gai   Gailhanou H. (2008) : Thermochimie : Acquisition des proprietes thermodynamiques sur une berthierine et revision des donnees sur les mineraux argileux. Rapport final BRGM/RP-56838-FR 
 08las   Lassin A., 2008, personnal calculations. 
 08per/pok   Perfetti E., Pokrovski G., Ballerat-Busserolles K., Majer V., Gibert F. (2008) Densities and heat capacities of aqueous arsenious and arsenic acid solutions to 350 C and 300 bar, and revised thermodynamic properties of As(OH)3(aq), AsO(OH)3(aq) and iron sulfarsenide minerals. Geochimica et Cosmochimica Acta 72, 713-731 
 08sch/lot   Schmidt, T., Lothenbach, B., Romer, M., Scrivener, K.L., Rentsch, D., Figi, R. (2008), A thermodynamic and experimental study of the conditions of thaumasite formation, Cement and Concrete Research, 38(3), 337-349. 
 08vie   Vieillard P., 2008. Estimation des entropies et capacites calorifiques des zeolithes. Rapport CNRS-Hydrasa 2008, 29 p. 
 09bla   Blanc P. (2009) - Thermochimie - Selection de constantes thermodynamiques pour les zeolites : version 2. Rapport final. Rapport BRGM/RP-57796-FR. 55 p. 
 09gai   Gailhanou H. (2009) : Thermochimie : Acquisition des proprietes thermodynamiques d'une nontronite, d'une beidellite et revision des donnees de la saponite Sap-Ca-1. Rapport final BRGM/RP-57797-FR 
 09gai/rog   Gailhanou, H., Rogez, J., van Miltenburg, J.C., van Genderen, A.C.G., Greneche, J.M., Gilles, C., Jalabert, D., Michau, N., Gaucher, E.C., Blanc, P., 2009. Thermodynamic properties of chlorite CCa-2. Heat capacities, heat contents and entropies. Geochimica et Cosmochimica Acta 73, 4738-4749. 
 10abla/bou   Blanc, Ph.; Bourbon, X.; Lassin, A.; Gaucher, E.C. 2010 - Chemical model for cement-based materials: Temperature dependence of thermodynamic functions for nanocrystalline and crystalline C-S-H phases. Cement and Concrete Research, 40, p. 851-867 
 10bbla/bou   Blanc, Ph.; Bourbon, X.; Lassin, A.; Gaucher, E.C. 2010 - Chemical model for cement-based materials: Thermodynamic data assessment for phases other than C-S-H. Cement and Concrete Research, 40, p. 1360-1374. 
 10bla/vie   Blanc P. and Vieillard P. (2010) - Thermochimie: Estimation of the thermodynamic properties of dehydrated phyllosilicates. Final Report. BRGM/RP-57798-FR.  
 10vie   Vieillard P., 2010 - A predictive model for the entropies and heat capacities of zeolites. Eur. J. Mineral. 22, 823-836 
 11bla/las   Blanc P., Lassin A. 2011. Thermoddem report 2011 
 11maj/dra   Majzlan J, Drahota P, Filippi M, Novak M, Loun J and Grevel K-D 2011. Thermodynamics of Crystalline iron(III) Arsenates Scorodite, Kankite, and Bukovskyite. Goldschmidt 2011 Conference Abstract 1391 
 11par/cor   Parmentier M., Corvisier J., Chiquet P., Parra T. et Sterpenich J. 2011. La modelisation geochimique de la reactivite des gaz annexes co-injectes avec le CO2 : possibilites et limites des codes de calcul via une application. BRGM/RP-60605-FR 
 11vie/bla   Vieillard, P., Blanc, P., Fialips, C.I., Gailhanou, H., Gaboreau, S., 2011. Hydration thermodynamics of the SWy-1 montmorillonite saturated with alkali and alkaline-earth cations: A predictive model. Geochimica et Cosmochimica Acta 75, 5664-5685. doi:10.1016/j.gca.2011.07.014 
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 77hem/rob   Hemingway B.S., Robie R.A., Fisher J.R., et Wilson W.H., 1977. Heat capacity of gibbsite, Al(OH)3, between 13 and 480 K and magnesite, MgCO3, between 13 and 380 K and their standard entropies at 289.15 K, and the heat capacities of calorimetry conference benzoic acid between 12 and 316 K. J. Res. U. S. Geol. Survey, 5, p. 797-806. 
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 77sre   Sretenskaya N.G., 1977. Dissociation of hydrogen sulfide acid under pressure. Geokhimiya, 3, p. 430 438 (in Russian). 
 78hel/del   Helgeson, H.C., Delany, J.M, Nesbitt, H.W., and Bird, D.K., 1978. Summary and Critique of the Thermodynamic Properties of Rock Forming Minerals: Amer. J. Sci., 278A, 229 pp. 
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 78ric/nri   Rickard D.T., Nriagu J.O., 1978, Aqueous environmental chemistry of lead. In: The biochemistry of lead in the environment. Part A. Ecological Cycles, J.O. Nriagu (Ed), Elsevier/North-Holland Biomedical Press, 219-284 
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 78yag   Yaglov V.N., 1978, Some characteristics of dehydration of hydrates of 3d elements orthophosphates. Khim. Khim. Tekhnol. (Minsk), 13, 7-14 (in russian) 
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 79lan   Langmuir D., 1979, Techniques of estimating thermodynamic properties for some aqueous complexes of geochemical interest, in Jenne, E.A., ed., Chemical Modeling in Aqueous systems: Speciation, Sorption, Solubility, and Kinetics: ACS Symp. Ser. 93, Amer. Ch 
 79lle   Iler R.K., 1979. The Chemistry of Silica: Solubility, Polymerization, Colloid and Surface Properties, and Biochemistry. Wiley, New York. 
 79mat/spo   Mattigod S.V., and Sposito G., 1979, Chemical modeling of trace metal equilibria in contaminated soil solutions using the computer program GEOCHEM. In: Chemical Modeling in Aqueous Systems: Speciation, Sorption, Solubility, and Kinetics, E.A. Jenne (Ed),  
 79may/hel   May H.M., Helmke P.A., and Jackson M.L., 1979. Gibbsite solubility and thermodynamic properties of hydroxy aluminum ions in aqueous solution at 25 C. Geochimica et Cosmochimica Acta, 43, 861 868. 
 79vie/tar   Vieillard P., Tardy Y., Nahon D., 1979, Stability field of clays and aluminum phosphates: Parageneses in lateritic weathering of argillaceous phosphatic sediments. Am. Miner., 64, 626-634 
 79vol   Volkov A.I., 1979, Thermochemical study of 3d element orthophosphates. Khim. Khim. Tekhnol. (Minsk), 14, 58-64 (in russian) 
 80bal/nor   Ball J.W., Nordstrom D.K., Everett A.J., 1980, Additional and revised thermochemical data and computer code for WATEQ 2. A computerized chemical model for trace and major element speciation and mineral equilibria of natural waters. US Geol. Surv. Wat. Res 
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 80har/wea   Harvie C.E., and Weare J.H., 1980. The prediction of mineral soluhilities in natural waters: the Na K Mg Ca Cl SO4 H2O system from zero to high concentration at 25 C. Geochimica et Cosmochimica Acta, 44, p. 981 997. 
 80hem/mon   Hemley J.J., Montoya J.W., Marinenko J.W., and Lute R.W., 1980. Equilibria in the system Al2O3 SiO2 H2O and some general implications for alteration/mineralization processes. Econ. Geol., 75, p. 210 228. 
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 82bar/mcc   Barbero J.A., McCurdy K.G., and Tremaine P.R., 1982. Apparent molal heat capacities and volumes of aqueous hydrogen sulphide and sodium hydrogen sulfide near 25 C: The temperature dependence of H2S ionization. Canadian J. Chem., 60, p. 1872 1880. 
 82bil/sch   Bilinski H., and Schindler P., 1982. Solubility and equilibrium constants of lead in carbonate solutions (25 C, I = 0.3 mol dm 3). Geochimica et Cosmochimica Acta, 46, p. 921 928. 
 82cox/wag   Cox J.D., Wagman D.D., et Medvedev V.A., 1989. CODATA Key Values for Thermodynamics.: editors. Hemisphere Publishing Corp.: New York. 279 pp. 
 82dek   DeKock, C.W., 1982, Thermodynamic properties of selected transition metal sulfates and their hydrates: U.S. Bur. Mines Info. Circ. 8910, 45 p. 
 82far/fra   V.C. Farmer and A.R. Fraser, Chemical and colloidal stability of sols in the Al2O3-Fe2O3-SiO2-H2O system: Their role in podzolization, J. Soil Sci. 33 (1982), pp. 737-742 
 82joh/flo   Johnson G. K., Flotow H. E., O'Hare P. A. G., and Wise W. S. (1982) Thermodynamic studies of zeolites : analcime and dehydrated analcime. American Mineralogist 67, 736-748. 
 82pan   Pankratz L. B., 1982, Thermodynamic Properties of Elements and Oxides (U. S. Bureau of Mines Bulletin 672, 1982, 509 p). 
 82pat/slo   Patterson C.S., Slocum G.H., Busey R.H., and Mesmer R.E., 1982. Carbonate equilibria in hydrothermal systems: first ionization of carbonic acid in NaCl media to 300 C. Geochimica and Cosmochimica Acta, 46, p. 1653 
 82plu/bus   Plummer, L.N. and Busenberg, E., 1982. The Solubilities of Calcite, Aragonite, and Vaterite in CO2-H2O Solutions Between 0 and 90 C and an Evaluation of the Aqueous Model of the System CaCO3-CO2-H2O. Geochimica et Cosmochimica Acta, Vol. 46, p. 1011-1040. 
 82ric/bot   Richet P., Bottinga Y., Denielon L., Petitet J.P., and Tequi C., 1982. Thermodynamics properties of quartz, cristobalite and amorphous SiO2: Drop calorimetry measurements between 1000 and 1800 K and a review from 0 to 2000 K. Geochimica et Cosmochimica Acta, 46, p. 2639-2658. 
 82van   Vanderzee C.E., 1982. Thermodynamic relations and equilibria in (Na2CO3 + NaHCO3 + H2O): Standard Gibbs energies of formation and other properties of sodium hydrogen carbonate, sodium carbonate heptahydrate, sodium carbonate decahydrate, trona: (Na2CO3CNaHCO3C2H2O), and Wegscheider's salt: (Na2CO3C3NaHCO3). J. Chem. Thermodynamics, 14, 219-238 
 82wag/eva   Wagman D.D., Evans W.H., Parker V.B., Schumm R.H., Halow I., Bailey S.M., Churney K.L., and Nutall R.L., 1982. The NBS Tables of Chemical Thermodynamic Properties. J. Phys. Chem. Ref. Data, 11, Suppl. 2. 
 83bow/hel   Bowers, T.S., and Helgeson, H.C., 1983, Calculation of the thermodynamic and geochemical consequences of nonideal mixing in the system H2O-CO2-NaCl on phase relations in geologic systems: Equation of state for H2O-CO2-NaCl fluids at high pressures and temperatures: Geochim. Cosmo. Acta, v. 47, pp. 1247-1275.  
 83joh/flo   Johnson G. K., Flotow H. E., and O'Hare P. A. G. (1983) Thermodynamic studies of zeolites:natrolite mesolite and scolecite. American Mineralogist 68, 1137-1145 
 83mic/deb   Micskei K., Debreczeni F. and Nagypal I., 1983. Equilibria in aqueous solutions of some chromium (2+) complexes. J. Chem. Soc. Dalton Trans., p. 1335-1338.  
 83miy/kle   Miyano T, Klein C (1983 a) Phase relations of orthopyroxene, olivine, and grunerite in high-grade metamorphic iron-formation.Am Mineral 68:699-716 
 83san/bar   Sangameshwar S.R., and Barnes H.L., 1983. Supergene processes in zinc lead silver sulfide ores in carbonates, Econ. Geol., 78, p 1379 1397. 
 84bus/plu   Busenberg E., Plummer L.N. and Parker V.B., 1984. The solubility of strontianite (SrCO3) in CO2-H2O solutions between 2 and 91 C, the association constants of SrHCO3+(aq) and SrCO3O(aq) between 5 and 80 C, and an evaluation of the thermodynamic properties of Sr++(aq) and SrCO3(cr) at 25 C and 1 atm total pressure. Geochim. et Cosmochim. Acta, 48, p. 2021-2035. 
 84har/mol   Harvie C.E., Moller N., and Weare J.H.. 1984, The prediction of mineral solubilities in natural waters: The Na-K-Mg-Ca-H-Cl-SO4-OH-HCO3-CO3-CO2-H2O system to high ionic strengths at 25 C. Geochimica Cosmochimica Acta, 48, pp. 723-751. 
 84mak   Makarov, T.I., Sidorov, Y.I., and Naumov, V.B. (1984) Formation conditions for iron minerals in ultrabasic-alkali metasomites. Geochemistry International, 21, 148-160. 
 84nan   Nancollas G.H., 1984, The nucleation and growth of phosphate minerals, Chap. 2. In: Phosphate Minerals, J.O. Nriagu and P.B. Moore (Eds), Springer-Verlag, ISBN 3-540-12757-7, 318-329 
 84nri   Nriagu J.O., 1984, Formation and stability of base metal phosphates in soils and sediments, Chap. 10. In: Phosphate Minerals, J.O. Nriagu and P.B. Moore (Eds), Springer-Verlag, ISBN 3-540-12757-7, 318-329 
 84pan   Pankratz L. B., 1984, Thermodynamic Properties of Halides (U. S. Bureau of Mines Bulletin 674, 1984, 826 p). 
 84pan/stu   L.B. Pankratz, J.M. Stuve, and N.A. Gokcen, 'Thermodynamic Data for Mineral Technology,' Bulletin 677, U.S. Bureau of Mines (1984).  
 84rob/hem   Robie R. A. and Hemingway B. S., 1984. Heat capacities and entropies of phlogopite KMg3AlSi3O1O(OH)2 and paragonite NaAl2AlSi3O1O(OH)2 between 5 and 9OO K and estimates of the enthalpies and Gibbs free energies of formation. Amer. Miner., 69, p. 858-868. 
 84sew   Seward T. M., 1984. The formation of lead (II) chloride complexes to 300 C. A spectrophotometric study. Geochim. Cosmochim. Acta, 48, p. 121 134. 
 84tay/lop   Taylor P., and Lopata V.J., 1984. Stability and solubility relationships between some solids in the system PbO CO2 H2O. Can. J. Chem., 62, p. 395 402. 
 84vie/tar   Vieillard P., Tardy Y., 1984, Thermochemical properties of phosphates, Chap. 4. In: Phosphate Minerals, J.O. Nriagu and P.B. Moore (Eds), Springer-Verlag, New York, ISBN 3-540-12757-7, 171-198 
 85bab/mat   Babushkin, V.I., Matveyev, G.M., and Mchedlov-Petrossyan, O.P. 1985. Thermodynamics of Silicates. New York, New York: Springer-Verlag. NNA.19920401.0112 
 85ber/bro   Berman, R.G., Brown, T.H., 1985. Heat capacity of minerals in the system Na2O-K2O-CaO-MgO-FeO-Fe2O3-AI2O3-SiO2-TiO2-H2O-CO2: representation, estimation and high temperature extrapolation. Contribution to Mineralogy and Petrolology 89, 168-183. 
 85cha/dav   Chase, M. W., Jr., C. A. Davies, J. R. Downey, Jr., D. J. Frurip, R. A. McDonald, and A. N. Syverud 1985. JANAF Thermochemical Tables, 3rd. ed., J. Phys. Chem. Ref. Data 14, Suppl. 1, Am. Chem. Soc. and Am. Inst. of Physics, Washington, D. C. 
 85gol/par   Goldberg R.N., and Parker V.B., 1985. Thermodynamics of solution of SO2(g) in water and of aqueous sulfur dioxide solutions. J. Res. Natl. Bur. Stand., 90, p. 341 358. 
 85hel   Helgeson, H.C., 1985, Errata II. Thermodynamics of minerals, reactions, and aqueous solutions at high pressures and temperatures: Amer. Jour. Sci., v. 285, pp. 845-855. 
 85jac/hel   Jackson, K.J., and Helgeson, H.C., 1985, Chemical and thermodynamic constraints on the hydrothermal transport and deposition of tin: II. Interpretation of phase relations in the Southeast Asian tin belt: Econ. Geol., v. 80, no. 5, pp. 1365-1378. 
 87fer   Fernandez Guillermet A. (1987) Critical evaluation of the thermodynamic properties of cobalt. Int. J. Thermophys., 8 (4), 481-510 
 87gar/par   CODATA87 Garvin D., Parker V.B and White H.J., 1987. CODATA Series on Thermodynamic Properties, Hemisphere, Washington, DC. 
 87pan/mah   Pankratz L. B., 1987, A. D. Mah, and S. W. Watson, Thermodynamic Properties of Sulfides (U. S. Bureau of Mines Bulletin 689, 1987, 427 p). 
 87rai/sas   Rai D., Sass B.M. and Moore D.A., 1987. Chromium (III) hydrolysis constants and solubility of chromium (III) hydroxide. Inorg. Chem., 26, p. 345-349.  
 87sve   Sverjensky, D.A., 1987, Calculations of the thermodynamic properties of aqueous species and the solubilities of minerals in supercritical electrolyte solutions, in Carmichael, I.S.E. and H.P. Eugster, eds., Thermodynamic Modeling of Geologic Materials: Minerals, Fluids and Melts: Mineral. Soc. Amer., Reviews in Mineralogy, v. 17, pp. 177-209.  
 87woo/gar   Woods T. L. and Garrels R. M. (1987) Thermodynamic values at low temperature for natural inorganic materials. An uncritical summary. Oxford University Press, New York. 
 88cha/new   Chandratillake M.R., Newton G.W.A. and Robinson V.J., 1988. Chemval project EUR11891 EN. Comparison of thermodynamic databases used in geochemical modelling., 19 p. 
 88eva/gug   Evans B. and Guggenheim S. (1988) Talc, pyrophyllite, and related minerals, Hydrous Phyllosilicates (exclusive of micas). In: S.W. Bailey, Editor, Reviews in Mineralogy vol. 19 (1988), pp. 225-294. 
 88haa   Haas J.L., Jr. (1988) Recommended standard electrochemical potentials and fugacities of oxygen for the solid buffers and thermodynamic data in the systems iron-silicon-oxygen, nickel-oxygen, and copper-oxygen. Preliminary report of January 17, 1988 to the CODATA Task Group on Chemical Thermodynamic Tables, U.S. Geological Survey, Reston, Virginia. 
 88mer   Merlino, S., 1988, Gyrolite: its crystal structure and crystal chemistry. Mineralogical Magazine, v. 52, p. 377-387. 
 88mol   Moller N., 1988. The prediction of mineral solubilities in natural waters: A chemical equilibrium model for the Na Ca Cl SO4 H2O system, to high temperature and concentration. Geochirmica et Cosmochimica Acta, 52, p. 821 837. 
 88phi/hal   Phillips, S.L., Hale, F.V., Silvester, L.F., and Siegel, M.D. (1988) Thermodynamic tables for nuclear waste isolation, an aqueous solutions database. vol 1, 181 p. Report NUREG/CR-4864, LBL-22860, SAND87-0323, Lawrence Berkeley Laboratory, Berkeley, California. 
 88rea   Reardon E. (1988) J. Phys. Chem., 92, 6426-6431 
 88rua   Ruaya J.R., 1988. Estimation of instability constants of metal chloride complexes in hydrothermal solutions up to 300 C. Geochimica et Cosmochimica Acta, 52, p. 1983 1996. 
 88sac/pas   Sacerdoti M., Passaglia E. (1988) Neues Jb. Miner., Mh., H.10, 462-475 
 88sho/hel   Shock E.L. and Helgeson H.C., 1988. Calculation of the thermodynamic and transport properties of aqueous species at high pressures and temperatures: Correlation algorithms for ionic aqueous species and equation of state predictions to 5 kb and 1000 C. Geochim. Cosmochim. Acta, 52, pp. 2009-2036. 
 88sto   Stoessell, R. K. (1988) 25oC and 1 atm dissolution experiments of sepiolite and kerolite: Geochimica Cosmochimica Acta, 52, 365-374. 
 89asho/hel   Shock, E.L., and Helgeson, H.C., 1989, Corrections to Shock and Helgeson (1988): Geochim. Cosmo. Acta, v. 53, p. 215. 
 89bar/sau   Barin, I., F. Sauert, et al. (1989). Thermochemical Data of Pure Substances. Germany, VCH, Verlagsgesellschaft. 
 89bsho/hel   Shock E.L., Helgeson H.C. and Sverjensky D.A., 1989. Calculation of the thermodynamic and transport properties of aqueous species at high pressures and temperatures: Standard partial molal properties of inorganic neutral species. Geochim. Cosmochim. Acta, 53, pp. 2157-2183. 
 89cox/wag   Cox J.D., Wagman D.D., and Medvedev V.A., 1989. CODATA Key Values for Thermodynamics. Hemisphere Publishing Corp., New York, 279 p. 
 89mar/smi   Martell A.E., and Smith R.M., 1989, Critical Stability Constants, Vol. 3: Other Organic Ligands (2nd printing). Plenum, New York, 495 p. 
 89pan/sus   Pan P. and Susak N.J. (1989) Co(II)-chloride and -bromide complexes in aqueous solutions up to 5 m NaX and 90[deg]C: Spectrophotometric study and geological implications. Geochimica et Cosmochimica Acta 53(2), 327-341. 
 89sch/her   Schwab R. G., Herold H., Costa M. L. D., and Oliveira N. P. (1989) The formation of aluminous phosphates through lateritic weathering of rocks. Weathering 2, 369-386. 
 90hem   Hemingway B. S. (1990) Thermodynamic properties for bunsenite, NiO, magnetite, Fe3O4, and hematite, Fe2O3, with comments on selected oxygen buffer reactions. American Mineralogist 75(7-8), 781-790. 
 90hol/pow   Holland T. J. B. and Powell R. (1990) An enlarged and updated internally consistent thermodynamic dataset with uncertainties and correlations: the system K2O-Na2O-CaO-MgO-MnO-FeO-Fe2O3-Al2O3-TiO2-SiO2-C-H2-O2. Journal of Metamorphic Geology 8(1), 89-124. 
 90kun/kih   Kuniaki Kihara (1990) Eur. J. Mineral., 2, 63-77 
 90nor/plu   Nordstrom D.K., Plummer L.N., Langmuir D., Busenberg E., May H.M., Jones B.F., and Parkhurst D.L., 1990. Revised chemical equilibrium data for major water-mineral reactions and their limitations, in Bassett, R.L. and Melchior, D. eds., Chemical modeling in aqueous systems II: Washington D.C., American Chemical Society Symposium Series 416, p. 398-413. 
 90pap/ber   V.G. Papangelakis, D. Berk and G.P. Demopoulos, Mathematical modeling of an exothermic leaching reaction system: pressure oxidation of wide size arsenopyrite particulates. Metall. Trans. B, 21B (1990), pp. 827-837. 
 90rin/sac   Rinaldi R., Sacerdoti M., Passaglia E. (1990) Eur. J. Mineral., 2, 841-849 
 90rob/cam   Roberts, Willard L., Campbell, Thomas J., and Rapp, George R.: Encyclopedia of Minerals. (Van Nostrand Reinhold Co., 2nd ed., 1990) 
 90sho/hel   Shock, E.L., and Helgeson, H.C., 1990, Calculation of the thermodynamic and transport properties of aqueous species at high pressures and temperatures: Standard partial molal properties of organic species: Geochim. Cosmo. Acta, v. 54, pp. 915-945. 
 90sto/cyg   Stoffregen R. E., Cygan G.L. (1990). An experimental study of Na-K exchange between alunite and aqueous sulfate solutions. Am. Min., 75:209-220 
 91all/bro   Allison J.D., Brown D.S., and Novo-Gradac K.J. 1991. Minteqa2/prodefa2, a geochemical assessment model for environmental systems: version 3.0 user's manual, EPA/600/3-91/021, March 1991 by U.s. Environmental Protection Agency Athens, Georgia 30605. 
 91atk/gla   Atkins, M., Glasser, F.P., Kindness, A., and MacPhee, D.E. 1991. Solubility Data for Cement Hydrate Phases (25 C). Washington, District of Columbia: U.S. Department of Energy. (DOE/HMIP/RR/91/032) 
 91din   Dinsdale A.T., 1991. SGTE Data for Pure Elements, CALPHAD, 15(4), p. 317-425. 
 91hem/rob   Hemingway B.S., Robie R.A., and Apps J.A., 1991. Revised values for the thermodynamic properties of boehmite, AlO(OH), and related species and phases in the system Al O H. Am. Mineral., 76, p. 445-457. 
 91kna/kub   O. Knacke, O. Kubaschewski and K. Hesselmann: Thermochemical Properties of Inorganic Substances, Second Edition, (Springer-Verlag, 1991) 
 91kon/hau   Konigsberger E., Hausner R., and Gamsjager H., 1991. Solid solute phase equilibria in aqueous solution. V: The system CdC03 CaC03 C02 H20. Geochimica and Cosmochimica Acta, 55, p. 3505 3514. 
 91nag/las   Nagy K.L., and Lasaga A.C., 1991. Dissolution and precipitation kinetics of gibbsite at 80 C and pH 3: The dependence on solution saturation state. Geochimica et Cosmochimica Acta, 56, p. 3093 3111. 
 91pab/pit   Pabalan R., Pitzer K. (1991) in: K. Pitzer (Ed.), Activity Coefficients in Electrolyte Solutions, Chapter 7. CRC Press, Boca Ration, FL 
 91rai/fel   Rai D., Felmy A.R., and Szelmeczka R.W., 1991. Hydrolysis Constants and Ion Interaction Parameters For Cd(II) in Zero to High Concentrations of NaOH KOH, and the Solubility Product of Crystalline Cd(OH)2. Journal of Solution Chemistry, 20, p. 375 390. 
 91rob/hem   Robie R.A. and Hemingway B.S. (1991) - Heat capacities of kaolinite from 7 to 380 K and of DSMO-intercalated kaolinite AI2Si20 (OH). Clays and Clay Minerals, 39, p. 362-368 
 91sve/hem   Sverjensky, D.A., Hemley, J.J., and D'Angelo, W.M., 1991, Thermodynamic assessment of hydrothermal alkali feldspar- mica-aluminosilicate equilibria: Geochim. Cosmo. Acta, v. 55, pp. 989-1004. 
 92ajoh   Ref. 1+19 in slop98.dat: GEOPIG., 1998. Slop98.dat, http://geopig.asu.edu/supcrt_data.html, Washington University. 
 92bal/nor   Ball J.W., and Nordstrom D.K., 1992. User's manual for WATEQ4F, with revised thermodynamic data base and test cases for calculating speciation of major, trace and redox elements in natural waters. U.S. Geol. Survey Open-File Report 91-183 (revised and reprinted 1992), Menlo Park, California. 189 pp. 
 92bjoh   Ref. 17 in slop98.dat: GEOPIG., 1998. Slop98.dat, http://geopig.asu.edu/supcrt_data.html, Washington University. 
 92bru/stu   Bruno J., Stumm W., Wersin P., and Brandberg F. (1992) On the influence of carbonate in mineral dissolution: I. The thermodynamics and kinetics of hematite dissolution in bicarbonate solutions at T = 25 C. Geochimica et Cosmochimica Acta 56(3), 1139-1147. 
 92bru/wer   Bruno J., Wersin P., and Stumm W. (1992) On the influence of carbonate in mineral dissolution: II. The solubility of FeCO3 (s) at 25 C and 1 atm total pressure. Geochimica et Cosmochimica Acta 56(3), 1149-1155. 
 92cir/nav   Circone S. and Navrotsky A., 1992. Substitution of (6,4)Al in phlogopite : high pressure solution calorimetry , heat capacities and thermodynamic properties of the phlogopite -eastonite join. American Mineralogist, 77, p. 1191-1205. 
 92cjoh   Ref. 7+9+19 in slop98.dat: GEOPIG., 1998. Slop98.dat, http://geopig.asu.edu/supcrt_data.html, Washington University. 
 92cle/der   Clever L.H., Derrick E.M., and Johnson S.A., 1992. The solubility of Some Sparingly Soluble Salts on Zinc and Cadmium In water and in aqueous electrolyte solutions. J. Phys. Chem. Ref. Data, 21, p. 941 966. 
 92gre/fug   Grenthe I., Fuger J., Konings R.J.M., Lemire R.J., Muller A.B., Nguyen Trung C., and Wanner H., 1992. Chemical Thermodynamics, Volume 1: Chemical Thermodynamics of Uranium. North Holland, Amsterdam, 1, 714 pp. 
 92joh/oel   Johnson J.W., Oelkers E.H. and Helgeson H.C., 1992. SUPCRT92: A software package for calculating the standard molal thermodynamic properties of minerals, gases, aqueous species, and reactions from 1 to 5000 bar and 0 to 1000'C. Comput.Geosci., 18, p. 899 
 92joh/tas   Johnson G. K., Tasker I. R., Flotow H. E., and O'Hare P. A. G. (1992) Thermodynamic studies of mordenite,dehydrated mordenite and gibbsite. American Mineralogist 77(1-2), 85-93 
 92pal/wes   Palmer D.A., and Wesolowski D.J., 1992. Aluminum speciation and equilibria in aqueous solution: II. The solubility of gibbsite in acidic sodium chloride solutions from 30 to 70 C. Geochimica et Cosmochimica Acta, 56, p. 1093 1111. 
 92plo/wic   Plodinec M. J. and Wicks G. G. (1992) Applications of hydration thermodynamics to in-situ tests results. In: Proc. Workshop on In Situ Testiong of Radioactive Waste Forms and Engineered Barriers, Corsendonk, Belgium, oct. 13-16, 1992. 
 92sea/rob   Seal R.R., Robie R.A., Barton P.B., and Hemingway B.S. (1992) Superambient heat capacities of synthetic stibnite, berthierite, and chalcostibnite: Revised thermodynamic properties and implications for phase equilibria. Econ. Geol. 87, 1911-1918. 
 92sho   Shock, E.L., 1992, Stability of peptides in high-temperature aqueous solutions: Geochim. Cosmo. Acta, v. 56, pp. 3481-3491. 
 92sti/par   Stipp S.L.S., Parks G.A., Nordstrom K.D., and Leckie J.O., 1992. Solubility product constant and thermodynamic properties for synthetic otavite, CdC03(s) and aqueous association constants for the Cd( II) C02 H20 system. Geochimica et Cosmochimica Acta, 57 
 92tay   Taylor, H. F. W., 1992, Cement Chemistry, third edition: London, Thomas Telford, 475 p. 
 92wol   Wolery T.J., 1992. EQ3/6: A software Package for Geochemical Modelling of Aqueous Systems: Package Overview and Installation Guide. Technical Report UCRL-MA-110662 PT I ed., Lawrence Livermore National Laboratory (USA). 
 93bal/chr   Balarew C., Christov C., Valyashko V., Petrenko S. (1993) J. Solution Chem., 22, 173-181 
 93bar   Barin, I. (1993) Thermochemical Data of Pure Substances, Weinheim, FRG, VCH. 
 93pal/wel   Palmer D.A., and Wesolowski D.J., 1993. Aluminum speciation and equilibrium in aqueous solution: III. Potentiometric determination of the first hydrolysis constant of aluminum (III) in sodium chloride solutions to 125 C. Geochim. Cosmochim. Acta, 57, p. 2 
 93sax/cha   Saxena S.K., Chaterjee N., Fei Y., Shen G. (1993) Thermodynamic data on oxides and silicates. Springer. New-York. 
 93sch/got   Schwab R. G., Gotz C., Herold H., and Oliveira N. P. (1993) Compounds of the crandallite type-Thermodynamic properties of Caphosphates, Sr-phosphates, Ba-phosphates, Pb-phosphates, La-phosphates, Ce-phosphates to Gd-phosphates and Ca-arsenates, Ba-arsenates, Pb-arsenates, La-arsenates, Ce-arsenate.Srarsenates, Neues Jahrb Miner Monatsh. 12, 551-568. 
 93sch/sho   Schulte, M.D., and Shock, E.L., 1993, Aldehydes in hydrothermal solution: Standard partial molal thermodynamic properties and relative stabilities at high temperatures and pressures: Geochim. Cosmo. Acta, v. 57, pp. 3835-3846. 
 93sho   Shock, E.L., 1993, Hydrothermal dehydration of aqueous organic compounds: Geochim. Cosmo. Acta, v. 57, pp. 3341-2249. 
 93sho/kor   Shock, E.L., and Koretsky, C.M., 1993, Metal-organic complexes in geochemical processes: Calculation of standard partial molal thermodynamic properties of aqueous acetate complexes at high pressures and temperatures: Geochim. Cosmo. Acta, v.57, pp. 4899-4 
 93sho/mck   Shock, E.L., and McKinnon, W.B., 1993, Hydrothermal Processing of Cometary Volatiles--Applications to Triton: Icarus, v. 106, pp. 464-477. 
 93sto   Stoffregen R.E. (1993). Stability relations of jaroiste and natrojarosite. Geoch. And Cosmoch. Acta, 57, 2417-2419. 
 94aki/zot   Akinfiev N.N., Zotov A.V., and Shikina N.D. (1994) Experimental investigation and thermodynamic correlation in the Sb(III)-S(II)-O-H system. Geochem. Intern. 31, 27-40. 
 94alb/tom   Al-Borno, A., Tomson, M.B. (1994) The temperature dependence of the solubility product constant of vivianite. Geochim. Cosmochim. Acta 58, 5373-5378 
 94dam/str   Damidot, D., Stronach, S., Kindness, A., Atkins, M., and Glasser, F.P. 1994. Thermodynamic investigation of the CaO-Al2O3-CaCO3-H2O closed system at 25C and influence of Na2O. Cem. Concr. Res. 24(3):563-572. 
 94dia/kho   I. Diakonov, I. Khodakovsky, J. Schott, E. Sergeeva (1994) Thermodynamic properties of iron oxides and hydroxides. I. Surface and bulk thermodynamic properties of goethite (alpha-FeOOH) up to 500 K. Eur. J. Mineral., 6(6), 967-983. 
 94pan   Pankratz L. B., 1994, Thermodynamic Properties of Carbides, Nitrides, and Other Selected Substances (U. S. Bureau of Mines Bulletin 696, 1994, 957 p).  
 95ant/bid   Anthony J.W., Bideaux R.A., Bladh K.W. and Nichols M.C., 1995. Handbook of Mineralogy, Volume II. Silica, Silicates. Mineral Data Publishing, Tucson, 904 pp., 2 vols. 
 95bev/pui    Beverskog, B., Puigdomenech, I. (1995) Revised Pourbaix diagrams for iron at 25-300 C; Corr. Sci. 38, p. 2121-2135. 
 95bou   Bourbon X., 1995. Selection de donnees thermodynamiques afferentes aux corrections de Temperature sur les equilibres chimiques. I/II Analyse de bases de donnees. ANDRA Report, C RP O. HEM 95.001. 
 95dac/ben   Dachs, E. and Benisek, A., 1995. The stability of annite+quartz: reversed experimental data for the reaction 2 annite+3 quartz=2 sanidine+3 fayalite+2 H2O. Contributions to Mineralogy and Petrology, 121, p. 380-387. 
 95dai/pos   Dai, Y., and Post, J. E,. 1995, Crystal structure of hillebrandite: a natural analogue of calcium silicate hydrate (CSH) phases in Portland cement: American Mineralogist, v. 80, p. 841-844. 
 95haa/sho   Haas, J.R., Shock, E.L., and Sassani, D.C., 1995, Rare earth elements in hydrothermal systems: Estimates of standard partial molal thermodynamic properties of aqueous complexes of the rare earth elements at high pressures and temperatures: Geochim. Cosmo. Acta, v. 59, no. 21, pp. 4329-4350. 
 95has/cyg   Haselton H.T., Cygan G.L. and Jenkins D.M., 1995. Experimental study of muscovite stability in pure H 2 O and 1 molal KCl-HCl solutions. Geochimica et Cosmochimica Acta, 59, p. 429-442 
 95jem/che   Jemal M., Ben Cherifa A., Kattech I. and Ntahomvukiye I., 1995. Standard enthalpies of formation and mixing of hydroxy- and fluorapatites. Thermochimica Acta, 259, p. 13-21 
 95mar/mac   Marani D., Macchi G., and Pagano M., 1995. Lead precipitation in the presence of sulphate and carbonate : testing of thermodynamic predictions. Water Research, 29, p. 1085 1092. 
 95mir/kis   Mironova V.E., Kiselev V.P., Egizaryan M.B., Golovnev N.N., Pashkov G.L. (1995) Ion association in aqueous solutions of calcium arsenate. Russ. J. Inorg. Chem., 40, 1690-1691 
 95par/kho   Parker, V.B., Khodakovsky, I.L. (1995) Thermodynamic properties of aqueous ions (2+ et 3+) of iron and the key compouds of iron. J. Phys. Chem. Ref. Data 24 (5) p. 1699-1745. 
 95pok/hel   Pokrovskii, V.A., and Helgeson, H.C., 1995, Thermodynamic properties of aqueous species and the solubilities of minerals at high pressures and temperatures: The system Al2O3-H2O-NaCl: Amer. J. Sci., 295, 1255-1342. 
 95pok/sch   Pokrovski G.S., Schott J. and Sergeyev A.S., 1995. Experimental determination of the stability constants of NaSO4- and NaB (OH)40 in hydrothermal solutions using a new high-temperature sodium-selective glass electrode - Implications for boron isotopic fractionation. Chemical Geology, 124, p. 253-265. 
 95rob/hem   Robie R.A., and Hemingway B.S., 1995. Thermodynamic properties of minerals and related substances at 298.15 K and 1 Bar (105 Pascals) pressure and at higher temperatures. U.S. Geol. Survey Bull., 2131, 461 pp. 
 95sho   Shock, E.L., 1995, Organic acids in hydrothermal solution: Standard molal thermodynamic properties of carboxylic acids and estimates of dissociation constants at high temperatures and pressures: Amer. Jour. Science, v. 295, pp. 496-580. 
 95sho/kor   Shock, E.L., and Koretsky, C.M., 1995, Metal-organic complexes in geochemical processes: Estimation of standard partial molal thermodynamic properties of aqueous complexes between metal cations and monovalent organic acid ligands at high pressures and temperatures. Geochim. Cosmo. Acta, 59, pp. 1497-1532. 
 95sil/bid   Silva R.J., Bidoglio G., Rand M.H, Robouch P.B., Wanner H., and Puigdomenech I., 1995. Chemical Thermodynamics Vol.2. Chemical Thermodynamics of Americium. NEA, Elsevier. 
 95tro   Trotignon L. (1995) Critique et selection de donnees thermodynamiques en vue de modeliser les equilibres mineral-solution. Rapport annuel 1995 SESD95/49 
 96abar/pal   Baron D. and Palmer C. D., 1996a. Solubility of KFe3(CrO4)2(OH)6 at 4-35 C. Geochim. Cosmochim. Acta, 60, pp. 3815-3824. 
 96arc   Archer D.G., 1996. Thermodynamic Properties of Synthetic Otavite, CdCO3(cr): Enthalpy Increment Measurements from 4.5 K to 350 K. J. Chem. Eng. Data, 41, p. 852 858. 
 96bbar/pal   Baron D. and Palmer C. D. (1996b) Solubility of jarosite at 4-35 C. Geochim. Cosmochim. Acta 60, 185-195. 
 96bev/pui   Beverskog, B., Puigdomenech, I., 1996. Revised pourbaix diagrams for iron at 25-300 C. Corros. Sci. 38, 2121-2135. 
 96bou   Bourbon X., 1996. Selection de donnees thermodynamiques afferentes aux corrections de Temperature sur les equilibres chimiques (Sodium, Potassium, cesium, Magnesium, Calcium, Strontium, Cobalt, Nickel, Paladium). ANDRA Report, CRP OHEM 96.001. 
 96fal/rea   Falck W.E., Read D. and Thomas J.B., 1996. Chemval2: thermodynamic database EUR16897 EN 
 96gal/boll   Gal J.Y., Bollingerb J.C., Tolosa H., and Gache N., 1996. Calcium carbonate solubility: a reappraisal of scale formation and inhibition. Talanta, 43, p. 1497 1509. 
 96gem   GEMBOCHS, 1996, THERMODYNAMIC DATABASE: thermo.com.V8.R6.full, generated by GEMBOCHS.V2-Jewel.src.R6 03-dec-1996 16:55:04 
 96hud/str   Hudson Lamb D.L., Strydom C.A., and Potgieter J.H., 1996. The thermal dehydration of natural gypsum and pure calcium sulphate dihydrate (gypsum). Thermochimica Acta, 282/283, p. 483 492. 
 96kis/nav   Kiseleva I., Navrotsky A., Belitskii I. A., and Fursenko B. A. (1996) Thermochemistry and phase equilibria in calcium zeolites. American Mineralogist 81(5-6), 658-667 
 96pok/gou   Pokrovski G., Gout R., Schott J., Zotov A. and Harrichoury J.C., 1996. Thermodynamic properties and stoichiometry of As (III) hydroxide complexes at hydrothermal conditions. Geochimica et Cosmochimica Acta, 60, 737-749 
 96rou/hov   Roux J. and Hovis G. L., 1996. Thermodynamic mixing models for muscovite-paragonite solutions based on solution calorimetric and phase equilibrium data. Journal of Petrology, 37, p. 1241-1254 
 96su/har   Su, C., and J.B. Harsh. 1996. Influence of soluble aluminosilicate complex formation on imogolite solubility determination. Geochim. Cosmochim. Acta 60:4275-4277. 
 97all/dol   Allal K. M., Dolinger J.-C., and Martin G. (1997) Determination of thermodynamical data of calcium hydroxichloride. Revue de l'Institut Francais du Petrole 52(3), 361-368. 
 97apok/hel   Pokrovskii V.A., and Helgeson H.C., 1997a. Thermodynamic properties of aqueous species and the solubilities of minerals at high pressures and temperatures: the system Al2O3 H2O KOH. Chemical Geology, 137, p. 221 242. 
 97asho/sas   Shock, E.L., Sassani, D.C., Willis, M., and Sverjensky, D.A., 1997, Inorganic species in geologic fluids: Correlations among standard molal thermodynamic properties of aqueous ions and hydroxide complexes: Geochim. Cosmo. Acta, v. 61, no. 5, pp. 907-950. 
 97ben/dia   Benezeth P., Diakonov I.I., Pokrovski G.S., Dandurand J.L., Schott J. and Khodakovsky I.L., 1997. Gallium speciation in aqueous solution. Experimental study and modelling: Part 2. Solubility of alpha-GaOOH in acidic solutions from 150 to 250 C and hydrolysis constants of gallium (III) to 300oC. Geochim. Cosmochim. Acta, 61, pp. 1345-1357 
 97bon/hea   Bond K. A., Heath T. G. and Tweed C. J., 1997. HATCHES: A Referenced Thermodynamic Database for Chemical Equilibrium Studies. Nirex Report NSS/R379 
 97bpok/hel   Pokrovskii V., and Helgeson H.C., 1997b. Calculation of the standard partial molal thermodynamic properties of KCl0 and activity coefficients of aqueous KC1 at temperatures and pressures to 1000 C and 5 kbar. Geochimica et Cosmochimica Acta, 61, p. 2175-2183. 
 97bsho/sas   Shock, E.L., Sassani, D.C., and Betz, H., 1997, Uranium in geologic fluids: Estimates of standard partial molal properties, oxidation potentials, and hydrolysis constants at high temperatures and pressures: Geohim. Cosmo. Acta, v. 61, no. 20, pp. 4245-426 
 97coo/alb   Coombs, D.S., Alberti, A., Armbruster, T., Artioli, G., Colella, C., Galli, E., Grice, J.D., Liebau, F., Mandarino, J.A., Minato, H., Nickel, E.H., Passaglia, E., Peacor, D.R., Quartieri, S., Rinaldi, R., Ross, M., Sheppard, R.A., Tillmanns, E., Vealini, G., 1997. Recommended nomenclature for zeolite minerals - report of the subcommittee on zeolites of the international mineralogical association, commission on new minerals and mineral names. Canadian Mineralogist, 35, 1571-1606. 
 97cro   Cromieres L., 1997. Selection de donnees thermodynamiques le cadmium, le mercure et le bore, et evaluation de leur manche. Technical report Andra C.RP.AMAT.97.043 
 97csho/sas   Shock, E.L., Sassani, D.C., and Betz, H., 1997, Uranium in geologic fluids: Estimates of standard partial molal properties, oxidation potentials, and hydrolysis constants at high temperatures and pressures: Geohim. Cosmo. Acta, v. 61, no. 20, pp. 4245-4266 
 97dal/sho   Dale, J.D., Shock, E.L., MacLeod, G., Aplin, A.C., and Larter, S.R., 1997, Standard partial molal properties of aqueous alkylphenols at high pressures and temperatures: Geochim. Cosmo. Acta, v. 61, no. 19, pp. 4017-4024. 
 97got   Gottschalk M. (1997) Internally consistent thermodynamic data set for rock forming minerals in the system SiO2-TiO2-Al2O3-Fe2O3-CaO-MgO-FeO-K2O-Na2O-H2O-CO2: an alternative approach. European Journal of Mineralogy, 9, p. 175-223. 
 97mcc/sho   McCollom, T.M., and Shock, E.L., 1997, Geochemical constraints on chemolithoautotrophic metabolism by microorganisms in seafloor hydrothermal systems: Geochim. Cosmo. Acta, v. 61, no. 20, pp. 4375-4391. 
 97pal/wes   Palmer D.A., and Wesolowski D.J., 1997. Potentiometric measurements of the first hydrolysis quotient of magnesium(II) to 250 C and 5 molal ionic strength. J. Sol. Chem., 26, p. 217-232. 
 97rim   Rimstidt D.J., 1997. Quartz solubility at low temperatures. Geochimica et Cosmochimica Acta, 61, p. 2553 2558. 
 97sho/sas   Shock E.L., Sassani D.C., Willis M., and Sverjensky D.A., 1997. Inorganic species in geologic fluids: Correlations among standard molal thermodynamic properties of aqueous ions and hydroxide complexes. Geochim. Cosmo. Acta, 61, p. 907 950. 
 97smi/mar   Smith R. M., Martell A. E., and Motekaitis R. J. (1997) NIST Critically Selected Stability Constants of Metal Complexes Database, Version 4.0. NIST Standard Reference Database 46. U.S. Department of Commerce 
 97sul/sew   Suleimenov O.M., and Seward T.M., 1997. A spectrophotometric study of hydrogen sulphide ionisation in aqueous solutions to 350 C. Geochimica et Cosmochimica Acta, 61, p. 5187 5198. 
 97sve/sho   Sverjensky, D.A., Shock, E.L., and Helgeson, H.C., 1997 Prediction of the thermodynamic properties of aqueous metal complexes to 1000 C and 5 kb: Geochim. Cosmo. Acta, v. 61, No. 7, pp. 1359-1412. 
 97tag/zot   Tagirov B. R., Zotov A. V. and Akinfiev N. N., 1997. Experimental study of dissociation of HCl from 350 to 500 C and from 500 to 2500 bars: Thermodynamic properties of HCl (aq). Geochimica et Cosmochimica Acta, 61, 4267-4280 
 97tay   Taylor H.F.W. , 1997 Cement Chemistry, 2nd. Ed., Thomas Telford, London. 
 98adia   I.I. Diakonov (1998) Thermodynamic properties of iron oxides and hydroxides. II. Estimation of the surface and bulk thermodynamic properties of ordered and disordered maghemite (gamma-Fe2O3). Eur. J. Mineral., 10(1), 17-29. 
 98arc   Archer D.G., 1998. Thermodynamic Properties of Import to Environmental Processes and Remediation. I. Previous Thermodynamic Property Values for Cadmium and Some of Its Compounds. Journal of Physical and Chemical Reference Data, 27, p. 915 
 98bal/nor   Ball J.W. and Nordstrom D.K., 1998. Critical evaluation and selection of standard state thermodynamic properties for chromium metal and its aqueous ions, hydrolysis species, oxides and hydroxides. J. Chem. Eng. Data 43, p. 895-918. 
 98bar/pal   Baron D. and Palmer C. D., 1998. Solubility of KFe(CrO4)2-2H2O at 4-75 C. Appl. Geochem., 12, pp. 961-973. 
 98bdia   I.I. Diakonov (1998) Thermodynamic properties of iron oxides and hydroxides. III. Surface and bulk thermodynamic properties of lepidocrocite (gamma-FeOOH) to 500 K. Eur. J. Mineral., 10(1), 31-41. 
 98bre/lin    Brennan, E.W., Lindsay, W.L. (1998) Reduction and oxidation effect on the solubility and transformation of iron oxides, Soil Sci. Soc. Am. J. 62, 930-937 
 98cha   Chase, M.W.J., 1998. NIST-JANAF Thermochemical Tables, Journal of Physical Chemistry Reference Data, Vol. 9, 4th Edition. National Institute of Standards and Technology, Washington DC, 1951 pp. 
 98fel/dix   Felmy A.R., Dixon D.A., Rustad J.R., Mason M.J. and Onishi L.M., 1998. The Hydrolysis and Carbonate Complexation of Strontium and Calcium in Aqueous Electrolytes: Use of Molecular Modeling Calculations in the Development of Aqueous Thermodynamic Models. J. Chem. Thermodynamics, 30, p. 1103-1120 
 98gam/kon   Gamsjager H., Konigsberger E., and Preis W., 1998. Solubilities of metal carbonates. Pure and Appl. Chem., 70, p. 1913 1920. 
 98gla/tyr   Glasser, F. P., Tyrer, M., Quillin, K., Ross, D., Pedersen, J., Goldthorpe, K., Bennett, D., and Atkins, M., 1998, The chemistry of blended cements and backfills intended for use in radioactive waste disposal: Research and development Technical Report P98, UK Environment Agency, 332 p. 
 98hol/pow   Holland T.J.B., and Powell R., 1998. An internally consistent thermodynamic data set for phases of petrological interest. Journal of Metamorphic Geology, 16, p. 309 343. 
 98kin   King D. W. (1998) Role of Carbonate Speciation on the Oxidation Rate of Fe(II) in Aquatic Systems. Environ. Sci. Technol. 32(19), 2997-3003. 
 98mer/roc   Mercy M.A., Rock P.A., Casey W.H., and Mokarram M.M., 1998. Gibbs energies of formation for hydrocerussite [Pb(OH)2.(PbCO3)2(s)] and hydrozincite {[Zn(OH)2]3.(ZnCO3)2(s)} at 298 K and 1 bar from electrochemical cell measurements. American Mineralogist, 83, p. 739-745. 
 98ply/zha   Plyasunova N. V., Zhang Y., and Muhammed M. (1998) Critical evaluation of thermodynamics of complex formation of metal ions in aqueous solutions. V. hydrolysis and hydroxo-complexes of Co2+ at 298.15 K. Hydrometallurgy 48(2), 153-169. 
 98pok/sch   Pokrovski G.S. and Schott J., 1998. Thermodynamic properties of aqueous Ge(IV) hydroxide complexes from 25 to 350 C: Implications for the behavior of germanium and the Ge/Si ratio in hydrothermal fluids. Geochimica et Cosmochimica Acta, 62, 1631-1642 
 98ras/eva   RASMUSSEN G., EVANS B .W. and Kusmmn S.M. (1998): Low-temperature fayalite, greenalite, and minnesotaite from the Overlook gold deposit, Washington: phase relations in the system FeO-SiO2-H2O. Can. Mineral.36, 147-162 
 98sal/pok   Salvi S, Pokrovski G.S. and Schott J. 1998. Experimental investigation of aluminum-silica aqueous complexing at 300 C. Chemical Geology, 151, 51-67 
 98sas/sho   Sassani, D.C., and Shock, E.L., Solubility and Transport of Platinum-Group Elements in Supercritical fluids: Estimates of standard partial molal properties, oxidation potentials, and hydrolysis constants at high temperatures and pressures: Geohim. Cosmo. Acta, v. 61, no. 20, pp. 4245-4266. 
 98sav   Savage, D., 1998, Zeolite occurrence, stability and behaviour, in Maqarin, analogue study, Phase III, Smellie, J. A. T., editor, SKB Report TR 98-04, v. 1, p. 281-307. 
 98zie/jon   Ziemniak S.E., Jones M.E. and Combs K.E.S. 1998. Solubility and phase behaviour of Cr(III) oxides in alkaline media at elevated temperatures. J. Solution Chemistry, Vol. 27, N 1, p.33-66. 
 99aki/zot   Akinfiev N. and Zotov A., 1999. Thermodynamic description of equilibria in mixed fluids (H2O-non-polar gas) over a wide range of temperature (25-700 C) and pressure (1-5000 bars). Geochimica et Cosmochimica Acta, 63, 2025-2041 
 99all   Allison Geoscience Consultants, Inc., HydroGeoLogic, Inc., 1999, MINTEQA2/PRODEFA2, a geochemical assessment model for environmental systems: User manual supplement for version 4.0., U.S. Environmental Protection Agency, 76 p. 
 99bot/bro   Bothe JV, Brown PW (1999) The stabilities of calcium arsenates at 23 C. J Hazard Mater B 69:197-207 
 99dav/phi   Davison W., Phillips N., and Tabner B. J. (1999) Soluble iron sulfide species in natural waters: Reappraisal of their stoichiometry and stability constants. Aquatic Sciences - Research Across Boundaries 61(1), 23-43. 
 99dia/sch   Diakonov I.I., Schott J., Martin F., Harrichourry J.C. and Escalier J., 1999. Iron(III) solubility and speciation in aqueous solutions. experimental study and modelling: part 1. hematite solubility from 60 to 300 C in NaOH-NaCl solutions and thermodynamic properties of Fe(OH)4-(aq) - Revised equation od state for the standard partial properties of ions and electrolytes. Geochimica et Cosmochimica Acta, Volume 63, Number 15, August 1999 , pp. 2247-2261(15) 
 99gra   Grauer R., 1999. Solubility products of M(II) carbonates. Waste Management laboratory, PSI Bericht Nr. 99-04 January 1999 ISSN 1019-0643. 
 99kon/kon   Konigsberger E., Konisberger L.C., and Gamsjager H., 1999. Low temperature thermodynamic model for the system Na2CO3 MgCO3 CaCO3 H2O. Geochimica et Cosmochimica Acta, 63, p. 3105-3119. 
 99lot/och   Lothenbach B., Ochs M., Wanner H., and Yui M., 1999. Thermodynamic data for the speciation and solubility of Pd, Pb, Sn, Sb, Nb and Bi in aqueous solution. JNC TN8400 99 011. 
 99par/app   Parkhurst D.L., and Appelo C.A.J., 1999. User's guide to Phreeqc (version 2)- a computer program for speciation, batch-reaction, one-dimensional transport, and inverse geochemical calculation. USGS WRI Report 99-4259, 312 pp. 
 99sav/sav   Savenko V. S. and Savenko A. V. (1999) Solubility of cobalt(III) and the stability constant of the hydroxo complex Co(OH)30 in aqueous solution. Geochemistry International 37(4), 385-387. 
 99sch/bar   Schoonen M.A.A, and Barnes H.L., 1988. An approximation of the second dissociation constant for H2S. Geochim. Cosmo. Acta, 52, p. 649-654. 
 99sch/nav   Schoenitz, M., and Navrotsky, A., 1999, Enthalpy of Formation of Katoite Ca3Al2[(OH)4]3: Energetics of the Hydrogarnet Substitution. American Mineralogist, v. 84, p.389-391 
 99wan/tes   Wang F., and Tessier A., 1999. Cadmium Complexation with Bisulfide. Environ. Sci. Technol., 33, p. 4270 4277. 
 99yun/glu   Yungman V.S., and Glusko V.P., 1999. Thermal constants of substances. Wiley, Begell House, New York. 
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