| for domcumentation of Perple_X thermodynamic data file structure and content refer to: | www.perplex.ethz.ch/perplex_thermodynamic_data_file.html | comments are indicated by the | character. | check for warnings at the end of the header section. | make definition formats used in this file can only be read by Perple_X 6.7.3+ Holland & Powell, JMG 2011 (TC-DS622) |<= data base title | WARNING WARNING WARNING WARNING WARNING WARNING WARNING WARNING WARNING!!! | WARNING WARNING WARNING WARNING WARNING WARNING WARNING WARNING WARNING!!! | WARNING WARNING WARNING WARNING WARNING WARNING WARNING WARNING WARNING!!! | Data for the following endmembers in this file has been eliminated by | commenting, to make the data accessible remove the comment characters: | nta - Na-talc | tap - talc-pyrophyllite | mic - microcline | tan - an unknown variant on the talc endmember | Additionally the "fact" (ferro-actinolite) endmember has been renamed | "ftr" to maintain consistency with ds5 data files. | JADC, March 5, 2018. | | + elastic moduli added from hpha02ver.dat, version March 13, 2018 | aim is lithosphere, to be used with solution_model -> suppression of wadsleyite, ringwoodite, perowskite, akimotoite and all end members neither in hpha02ver nor in solution_model | no moduli for pumpellyite and stilpnomelane | Fanny Goussin, Aug 27, 2018. | begin_standard_variables |<= name (<9 characters), reference value, tolerance P(bar) 1.00 0.1E-3 T(K) 298.15 0.1E-4 Y(CO2) 0.00 0.1E-6 mu(C1) 0.00 0.1E-2 mu(C2) 0.00 0.1E-2 end_standard_variables tolerance -.1E-2 |<= DTOL for unconstrained minimization, energy units HSC_conversion |<= tag enabling HSC to SUP apparent energy conversion, requires elemental entropies in the component list below begin_components | < 6 chars, molar weight (g), elemental entropy (R) Na2O 61.9790 205.175 MgO 40.3040 135.255 Al2O3 101.9610 364.425 SiO2 60.0840 223.96 K2O 94.1960 231.935 CaO 56.0770 144.205 TiO2 79.8660 235.87 MnO 70.9370 134.795 FeO 71.8440 129.855 NiO 74.6930 132.375 ZrO2 123.2200 244.33 Cl2 70.9060 223.08 O2 31.9990 205.15 H2O 18.0150 233.255 CO2 44.0100 210.89 CuO 79.5450 135.725 Cr2O3 151.9900 358.811 S2 64.1300 64.1 | Corrected 9/21/2018, Jilei Li. These values are twice the properties of monatomic sulfur. Formerly the monatomic molar mass was used with the diatomic F2 37.9968 202.79 end_components begin_special_components H2O CO2 end_special_components begin_makes | the make definitions segment of the thermodynamic | data file is preceeded by the "begin_makes" keyword, | and terminated by the "end_makes" keyword. Within | this segment comments must be preceeded by a "|" | character. | the make definitions define new thermodynamic entities | (e.g., fO2 buffers, endmembers etc) as a linear combination of | the "real" entities in the thermodynamic file. the definition | includes a "DQF" correction that is used to increment the | G of the linearly combined G's as a function of pressure and | temperature, i.e., the total G computed for a made entity is | the G of the right-hand-side of the make reaction + Gdqf. | the format assumes data on one line of less than 240 characters, | the expected format is | name = num_1 * name_1 + num_2 * name_2 ....+ num_int * name_int | dnum_1 dnum_2 dnum_3 | where i num_j is a number or fraction (i.e., two numbers separated | by a '/') and name_j are the names of the j existing entities. | and the dqf correction to the entity 'name' is | Gdqf(J/mol) = dnum_1 + T[K]*dnum_2 + P[bar]*dnum_3 | made entities are excluded from calculations in vertex if they | are included in the excluded phase list in the computational option | file (e.g., "in"); however, real entities to the right of the equals | sign in a make definition are not effected by the excluded phase list. | for example, if qL (liquid silica) is excluded, the make definition | q8L = 4 qL | will function, but qL will not be considered as a possible phase in | the vertex calculation. | kyco silica buffer | kyco = 1 ky - 1 cor | 0 0 0 | sphene + cc + ru + q CO2 buffer | tcrq = 1 cc + 1 ru + 1 q - 1 sph | 0. 0. 0. | Ti phengite endmember for Auzanneau et al. (CMP 159:1-24, 2010) mica model | Gdqf corrected from -482876. to -13469.8 J/mol, D. Dolejs, Mar 6, 2010. | tip = 1 fcel + 1 geik - 1/2 fs | -13469.8 -14.694 .84 | mthm = 6 hem - 4 mt | mthm O2 buffer | 0 0 0 | qfm = 2 mt + 3 q -3 fa | qfm O2 buffer | 0 0 0 |emog = -1 fo - 2 gph + 1 mag + 1/2 en | EMOG O2 buffer |0 0 0 |ffm = -6 fa + 3 fs + 2 mt | ffm O2 buffer |0 0 0 |fff = 2 fa - 2 iron - 1 fs | iron fa fs O2 buffer |0 0 0 | tbi = 1 phl - 1 fo + 1 ru + 1 q | Ti-biotite endmember for TiBio(HP) model | 45e3 0 0 | tbi1 = 1 phl - 1 br + 1 ru | Ti-biotite endmember for TiBio(WPH) model | 78e3 0 0 | L Tajcamanova, 5/11/2006. | fbi = 1 east - 1/2 cor + 1/2 hem | Fe3+-biotite endmember for TiBio(WPH) model, definition corrected for | | presumed typo in the WPH (JMG, 2007) paper by L Tajcamanova, 5/11/2007. | 13.45e3 0 0 | fbi = 1 east - 1/2 cor + 1 hem, 8/10/2007, L Tajcamanova | Fe endmembers for ultramafic mineral solution | models, based on the talc Fe-Mg exchange. fbr = 1 br - 1/3 ta + 1/3 fta DQF(J/mol) = 0 fchum = 1 chum - 3 ta + 3 fta DQF(J/mol) = 0 fphA = 1 phA - 7/3 ta + 7/3 fta DQF(J/mol) = 0 fatg = 1 atg - 16 ta + 16 fta DQF(J/mol) = 0 atgts = 4 clin + 9/17 atg - 24/17 br | Tshermaks antigorite for Atg(PN) model (Padrón-Navarta et al., 2013, Lithos) DQF = -2e3 + 46.1*T_K | ettore's makes: | odo = 1/2 mag 1/2 cc | -1000. 0 0 | oank = 1/4 sid 1/2 cc 1/4 mag | -750 0 0 | odo = 1/2 mag + 1/2 cc | ordered dolmite species for H&P dolomite model | -13.5d3 0 0 | Green et al (2007) omph model, ds6 acm_dqf = 1 acm DQF(J/mol) = -7000 | Diener et al. (JMG, 2007) clinoamphibole model mrb = 1 gl - 2 jd +2 acm | magnesio riebekite, ds6, 3/7/18 JADC DQF(J/mol) = 0 ts_dqf = 1 ts | tschermakite DQF(J/mol) = 10000 parg_dqf = 1 parg | pargasite, ds6, 3/7/18 JADC DQF(J/mol) = -10000 gl_dqf = 1 gl | glaucophane, ds6, 3/7/18 JADC DQF(J/mol) = -3000 cumm_dqf = 1 cumm | ds6, 3/7/18 JADC DQF(J/mol) = 0 grun_dqf = 1 grun | ds6, 3/7/18 JADC DQF(J/mol) = -3000 | revised (Diener et al, JMG 2011 25:631-656) ortho-amphibole model. Oct 31, 2011. ogl_dqf = 1 gl | ortho-glaucophane DQF(J/mol) = 15000. fanth_dq = 1 fanth | ferro-anthophyllite DQF(J/mol) = 7000 omrb_dqf = 1 gl -2 jd +2 acm | ortho-magnesio riebekite (mrb dqf + 25000 J/mol), stoichiometry corrected 3/30/08 JADC DQF(J/mol) = 33000 mpa = 1 parg - 1 tr +1 anth DQF(J/mol) = 25d3 ged_dqf = 1 ged DQF(J/mol) = 20000 | make definition for coma of the unpublished | thermocalc scapolite model coma = 3 ab + 1 cc DQF(J/mol) = 25000. tbit = 1 phl - 1 br + 1 ru |Ti-Fe3+ Biotite after Tajcmanova et al. (2009) DQF(J/mol) = 84e3 -11.5 0 |Model entered by Lucie Tajcmanova, September, 2008. fbit = 1 east - 1/2 cor + 1/2 hem |Ti-Fe3+ Biotite after Tajcmanova et al. (2009) DQF(J/mol) = 6e3 0 0 | Make definitions for the Smye et al (JMG, 2011, 28:753-768) | models for Mica, Carpholite and Chloritoid, to use these | make definitions delete the leading "|" comment characters: ocar = 1 fcar + 1/2 hem - 1/2 cor DQF(J/mol) = 45d3 mncar = 1 mcar + 1 mang - 1 per | corrected from 1 mcar + 1 mang - 1/2 cor, G Hoschek, 10/24/11. DQF(J/mol) = 30d3 ma_dqf = 1 ma DQF(J/mol) = 3d3 | Make definition for the White et al (JMG, 2005) garnet, Gt(WPPH), JADC, 10/24/11. kho = 1 py - 1 gr + 1 andr DQF(J/mol) = 40d3 0 0 | Make definitions for the White et al (JMG, 2000) ilmenite, Ilm(WHP), JADC, 10/29/11. | Corrected coeffiecients for TC un-landau, formerly, the TC DQF was used without | modification. NOTE: the ilm and ilm_nol endmembers must be excluded from calculations | with the Ilm(WPH) model and the ilm_nol, oilm and dilm must be excluded from calculations | without the Ilm(WPH) model. JADC, 6/19/11. dilm = 1 ilm_nol | 1993 -2.1 0 => the TC DQF coeffecients, the values below are | oilm + {DH,R*ln(4),0} DQF(J/mol) = 17043.57559 -13.11797099 .1836386612e-1 | Make definitions for Kelsey & Powell (JMG, 2011) Zr melting relations. JADC, 2/6/12 zr8L = 2 zrc | Zr-melt endmember DQF(J/mol) = 69e3 zrg = 1 gr + 3 zrc - 6 q | Zr garnet endmember DQF(J/mol) = 96e3 0.165e3 2.7 zrru = 1 bdy | Zr rutile endmember 52.84e3 -0.01829e3 -0.074 mots = 1 mgts - 1/2 cor + 1/2 hem | ferric opx endmember MgFe3+AlSiO6 for Opx(HP) 22d3 0 0 | Make definitions for White et al. (JMG 32:261-286, 2014) models f3clin = 1 clin - 1/2 gr + 1/2 andr DQF(J/mol) = 2d3 0 0 kho1 = 1 py - 1 gr + 1 andr DQF(J/mol) = 27d3 sil8L = 8/5 silL DQF(J/mol) = -23d3 fo8L = 2 foL DQF(J/mol) = -10d3 fa8L = 2 faL DQF(J/mol) = -9d3 0 -1.3 q8L = 4 qL DQF(J/mol) = -20 | a small DQF is added to stabilize q8L relative to qL fmu = 1 mu + 1/2 andr - 1/2 gr DQF(J/mol) = 25d3 ma1_dqf = 1 ma DQF(J/mol) = 6.5d3 ctdo = 1 mctd + 1/4 andr - 1/4 gr DQF(J/mol) = 25d3 msto = 1 andr -1 gr + 1 mst DQF(J/mol) = 9d3 mstt = 1 mst - 1 cor +3/2 ru DQF(J/mol) = 13d3 mots1 = 1 mgts + 1/2 andr - 1/2 gr DQF(J/mol) = 2d3 tbi = 1 phl - 1 br + 1 ru | Ti-biotite endmember for Bi(W) model DQF(J/mol) = 55e3 fbi = 1 east - 1/2 gr + 1/2 andr | Fe3+-biotite endmember for Bi(W) model DQF(J/mol) = -3e3 ospr = 1/2 andr - 1/2 gr + 1 spr5 DQF(J/mol) = -16d3 mnopx = 2 pxmn | Mn endmember for Opx(W) model DQF(J/mol) = 6680 | Make definitions for Jennings and Holland, J Pet, 56:869-892, 2015 Cpx cfs = 1 fs DQF(J/mol) = 3.8d3 -3 0.03 crdi = 1 cats + 1 kos - 1 jd DQF(J/mol) = -3d3 cess = 1 cats + 1 acm - 1 jd DQF(J/mol) = -6d3 cenjh = 1 en DQF(J/mol) = 3.5d3 - 2 * T_K + 0.048 * p_bar | Make definitions for Jennings and Holland, J Pet, 56:869-892, 2015 Opx cren = 1 mgts + 1 kos - 1 jd DQF(J/mol) = 3d3 oen = 1 mgts + 1 acm - 1 jd DQF(J/mol) = -15d3 + 0.15 * p_bar odi = 1 di DQF(J/mol) = -0.1d3 0.211 0.005 | dqf_T corrected from 2.11, ECRG 9/18 | Make definitions for Jennings and Holland, J Pet, 56:869-892, 2015 melt qjL = 2 qL DQF(J/mol) = 4d3 - 0.43 * p_bar dijL = 1 diL DQF(J/mol) = -6.7d3 + 0.17 * p_bar jdjL = 1 abL - 1 qL | corrected 3/18/16, Oliver Shortle DQF(J/mol) = 18.7d3 - 0.16 * p_bar ctjL = 1 anL - 1 qL | corrected 3/18/16, Oliver Shortle DQF(J/mol) = 2.5d3 + 0.29 * p_bar fojL = 1 foL DQF(J/mol) = 2d3 - 0.03 * p_bar fajL = 1 faL DQF(J/mol) = -2.5d3 + 0.18 * p_bar hmjL = 0.5 hemL DQF(J/mol) = 0 + 0.20 * p_bar ekjL = 0.5 eskL DQF(J/mol) = 21d3 | Make definitions for Green et al., JMG, 2016 melt foTL = 2 foL dqf = -4d3 faTL = 2 faL dqf = -8.2d3 - 1.4 * P | Make definitions for Green et al., JMG, 2016 clinoamphibole mrbG = 1 gl - 1 gr + 1 andr DQF = 0 kprg = 1 mu - 1 pa + 1 parg DQF = -7060 + 20 * T_K tts = -2 dsp + 2 ru + 1 ts DQF = 95000 | Make definitions for Green et al., JMG, 2016 augite (clinopyroxene) cfsg = 1 fs DQF = 2100 - 2 * T + 0.045 * P nacfb = 1 nacf DQF(J/mol) = -9000 mfpv = 1 fpv DQF(J/mol) = -9500 mcpv = 1 cpv DQF(J/mol) = 60000 mnpv = 1 npv DQF(J/mol) = 16000 cmpv = 1 mpv DQF(J/mol) = 35000 cfpv = 1 fpv DQF(J/mol) = 24000 capv = 1 apv DQF(J/mol) = 45000 cnpv = 1 npv DQF(J/mol) = 25000 fcor = 1 mcor + 1 fak - 1 mak | FeSi corundum DQF(J/mol) = -15d3 hmgts = 1 mgts + 1 hen - 1 en DQF(J/mol) = -1d3 end_makes Notation (incomplete and NOT alphabetical!) Entity Symbol Formula akermanite ak Ca2MgSi2O7 almandine alm Fe3Al2Si3O12 andalusite and Al2SiO5 andradite andr Ca3Fe2Si3O12 clinohumite chum Mg9Si4O16(OH)2 clinozoisite cz Ca2Al3Si3O12(OH) cordierite crd Mg2Al4Si5O18 epidote(ordered) ep Ca2FeAl2Si3O12(OH) fayalite fa Fe2SiO4 Fe-chloritoid fctd FeAl2SiO5(OH)2 Fe-cordierite fcrd Fe2Al4Si5O18 Fe-epidote fep Ca2Fe2AlSi3O12(OH) Fe-osumilite fosm KFe2Al5Si10O30 Fe-staurolite fst Fe4Al18Si7.5O48H4 forsterite fo Mg2SiO4 gehlenite geh Ca2Al2SiO7 grossular gr Ca3Al2Si3O12 hydrouscordierite hcrd Mg2Al4Si5O18H2O hydroxy-topaz tpz Al2SiO4(OH)2 kyanite ky Al2SiO5 larnite-bredigite larn Ca2SiO4 lawsonite law CaAl2Si2O7(OH)2H2O merwinite merw Ca3MgSi2O8 Mg-chloritoid mctd MgAl2SiO5(OH)2 Mg-staurolite mst Mg4Al18Si7.5O48H4 Mn-chloritoid mnctd MnAl2SiO5(OH)2 Mn-cordierite mncrd Mn2Al4Si5O18 Mn-staurolite mnst Mn4Al18Si7:5O48H4 monticellite mont CaMgSiO4 osumilite(1) osm1 KMg2Al5Si10O30 osumilite(2) osm2 KMg3Al3Si11O30 phase A phA Mg7Si2O8(OH)6 pumpellyite pump Ca4MgAl5Si6O21(OH)7 pyrope py Mg3Al2Si3O12 rankinite rnk Ca3Si2O7 sillimanite sill Al2SiO5 spessartine spss Mn3Al2Si3O12 sphene sph CaTiSiO5 spurrite spu Ca5Si2O8(CO3) tephroite teph Mn2SiO4 tilleyite ty Ca5Si2O7(CO3)2 vesuvianite vsv Ca19Mg2Al11Si18O69(OH)9 zircon zrc ZrSiO4 zoisite zo Ca2Al3Si3O12(OH) acmite acm NaFeSi2O6 Ca-tschermaks pyroxene cats CaAl2SiO6 Diopside di CaMgSi2O6 enstatite en Mg2Si2O6 ferrosilite fs Fe2Si2O6 hedenbergite hed CaFeSi2O6 jadeite jd NaAlSi2O6 mg-tschermak mgts MgAl2SiO6 pseudowollastonite pswo CaSiO3 pyroxmangite pxmn MnSiO3 rhodonite rhod MnSiO3 wollastonite wo CaSiO3 anthophyllite anth Mg7Si8O22(OH)2 cummingtonite cumm Mg7Si8O22(OH)2 Fe-anthophyllite fanth Fe7Si8O22(OH)2 Fe-glaucophane fgl Na2Fe3Al2Si8O22(OH)2 ferroactinolite ftr Ca2Fe5Si8O22(OH)2 gedrite(Na-free) ged Mg5Al4Si6O22(OH)2 glaucophane gl Na2Mg3Al2Si8O22(OH)2 grunerite grun Fe7Si8O22(OH)2 pargasite parg NaCa2Mg4Al3Si6O22(OH)2 riebeckite rieb Na2Fe5Si8O22(OH)2 tremolite tr Ca2Mg5Si8O22(OH)2 tschermakite ts Ca2Mg3Al4Si6O22(OH)2 deerite deer Fe18Si12O40(OH)10 fe-carpholite fcar FeAl2Si2O6(OH)4 fe-sapphirine(793) fspr Fe3.5Al9Si1.5O20 mg-carpholite mcar MgAl2Si2O6(OH)4 sapphirine(442) spr4 Mg4Al8Si2O20 sapphirine(793) spr7 Mg3.5Al9Si1.5O20 annite ann KFe3AlSi3O10(OH)2 celadonite cel KMgAlSi4O10(OH)2 eastonite east KMg2Al3Si2O10(OH)2 Fe-celadonite fcel KFeAlSi4O10(OH)2 margarite ma CaAl4Si2O10(OH)2 Mn-biotite mnbi KMn3AlSi3O10(OH)2 muscovite mu KAl3Si3O10(OH)2 Na-phlogopite naph NaMg3AlSi3O10(OH)2 paragonite pa NaAl3Si3O10(OH)2 phlogopite phl KMg3AlSi3O10(OH)2 Al-free chlorite afchl Mg6Si4O10(OH)8 amesite(14Ang) ames Mg4Al4Si2O10(OH)8 clinochlore(ordered) clin Mg5Al2Si3O10(OH)8 daphnite daph Fe5Al2Si3O10(OH)8 Fe-sudoite fsud Fe2Al4Si3O10(OH)8 Mn-chlorite mnchl Mn5Al2Si3O10(OH)8 Sudoite sud Mg2Al4Si3O10(OH)8 antigorite atg Mg48Si34O85(OH)62 chrysotile chr Mg3Si2O5(OH)2 Fe-talc fta Fe3Si4O10(OH)2 Kaolinite kao Al2Si2O5(OH)4 prehnite pre Ca2Al2Si3O10(OH)2 pyrophyllite prl Al2Si4O10(OH)2 talc ta Mg3Si4O10(OH)2 tschermak-talc tats Mg2Al2Si3O10(OH)2 albite ab NaAlSi3O8 analcite anl NaAlSi2O6H2O anorthite an CaAl2Si2O8 coesite coe SiO2 cristobalite crst SiO2 heulandite heu CaAl2Si7O186H2O highalbite abh NaAlSi3O8 kalsilite kals KAlSiO4 laumontite lmt CaAl2Si4O124H2O leucite lc KAlSi2O6 meionite me Ca4Al6Si6O24(CO3) microcline mic KAlSi3O8 nepheline ne NaAlSiO4 quartz q SiO2 sanidine san KAlSi3O8 stilbite stlb CaAl2Si7O187H2O stishovite stv SiO2 tridymite trd SiO2 wairakite wrk CaAl2Si4O12H2O3 baddeleyite bdy ZrO2 corundum cor Al2O3 geikielite geik MgTiO3 hematite hem Fe2O3 hercynite herc FeAl2O4 ilmenite ilm FeTiO3 lime lime CaO magnesioferrite mft MgFe2O4 magnetite mt Fe3O4 manganosite mang MnO nickel oxide NiO periclase per MgO pyrophanite pnt MnTiO3 rutile ru TiO2 spinel sp MgAl2O4 ulvospinel usp Fe2TiO4 brucite br Mg(OH)2 diaspore dsp AlO(OH) goethite gth FeO(OH) ankerite ank CaFe(CO3)2 aragonite arag CaCO3 calcite cc CaCO3 dolomite dol CaMg(CO3)2 magnesite mag MgCO3 rhodochrosite rhc MnCO3 siderite sid FeCO3 diamond diam C graphite gph C iron iron Fe nickel Ni Ni carbon dioxide CO2 carbon monoxide CO hydrogen H2 methane CH4 oxygen O2 water fluid H2O albite liquid abL NaAlSi3O8 anorthite liquid anL CaAl2Si2O8 diopside liquid diL CaMgSi2O6 enstatite liquid enL Mg2Si2O6 fayalite liquid faL Fe2SiO4 Fe-liquid (in KFMASH) fliq K3Fe5Al4Si19:5O47 Forsterite liquid foL Mg2SiO4 H2O liquid h2oL H2O H2O liquid (in KFMASH) hliq H2O K-feldspar liquid kspL KAlSi3O8 Mg liquid (in KFMASH) mliq K3Mg5Al4Si19:5O47 Silica liquid qL SiO2 Sillimanite liquid silL Al2SiO5 H+(aq) H+ Cl(aq) Cl- OH(aq) OH- Na+(aq) Na+ K+(aq) K+ Ca2+(aq) Ca++ Mg2+(aq) Mg++ Fe2+(aq) Fe++ Al3+(aq) Al+++ CO3--(aq) CO3 Al(OH)3(aq) AlOH3 Al(OH)4----(aq) AlOH4- KOH(aq) KOH HCl(aq) HCL KCl(aq) KCL NaCl(aq) NaCl CaCl(aq) CaCl2 CaCl+(aq) CaCl+ MgCl2(aq) MgCl2 MgCl+(aq) MgCl FeCl(aq) FeCl2 Aqueous silica aqSi SiO2 end fo EoS = 8 | H= -2172490. MgO(2)SiO2(1) GH = -2200844 S0 = 95.1 V0 = 4.366 c1 = 233.3 c2 = .1494E-2 c3 = -603800 c5 = -1869.7 b1 = .285E-4 b5 = 531.1171 b6 = 1285000 b7 = -.3E-5 b8 = 3.84 m0= 816000 m1= 1.6000 m2= -140.5505 k0= 1273000 k1= 4.2000 k2= -231.6301 | fo end fa EoS = 8 | H= -1477540. SiO2(1)FeO(2) GH = -1522561 S0 = 151 V0 = 4.631 c1 = 201.1 c2 = .1733E-1 c3 = -1960600 c5 = -900.9 b1 = .282E-4 b5 = 379.7022 b6 = 1256000 b7 = -.37E-5 b8 = 4.68 m0= 512200 m1= 1.7100 m2= -66.5743 k0= 1362600 k1= 4.8800 k2= -202.7007 | fa end teph EoS = 8 | H= -1733920. SiO2(1)MnO(2) GH = -1780402 S0 = 155.9 V0 = 4.899 c1 = 219.6 c3 = -1292700 c5 = -1308.3 b1 = .286E-4 b5 = 370.4448 b6 = 1256000 b7 = -.37E-5 b8 = 4.68 m0 = 510000 m1 = .62 m2 = -108 end lrn EoS = 8 | H= -2306930. SiO2(1)CaO(2) GH = -2344974 S0 = 127.6 V0 = 5.16 c1 = 247.5 c2 = -.3206E-2 c5 = -2051.9 b1 = .29E-4 b5 = 431.1559 b6 = 985000 b7 = -.41E-5 b8 = 4.07 m0 = 510000 m1 = .62 m2 = -108 transition = 1 type = 4 t1 = 1710 t2 = 10.03 t3 = .5E-1 end mont EoS = 8 | H= -2251220. MgO(1)SiO2(1)CaO(1) GH = -2283867 S0 = 109.5 V0 = 5.148 c1 = 250.7 c2 = -.10433E-1 c3 = -797200 c5 = -1996.1 b1 = .287E-4 b5 = 481.6406 b6 = 1134000 b7 = -.34E-5 b8 = 3.87 m0 = 510000 m1 = .62 m2 = -108 end chum EoS = 8 | H= -9613190. MgO(9)SiO2(4)H2O(1) GH = -9744525 S0 = 440.5 V0 = 19.801 c1 = 1071 c2 = -.16533E-1 c3 = -7899600 c5 = -7373.9 b1 = .32E-4 b5 = 537.4843 b6 = 1199000 b7 = -.38E-5 b8 = 4.58 m0= 732000 m1= 0.9823 m2= -100.7831 k0= 1241994 k1= 4 k2= -171.0001 | chum end mak EoS = 8 | H= -1489620. MgO(1)SiO2(1) GH = -1507300 S0 = 59.3 V0 = 2.635 c1 = 147.8 c2 = .2015E-2 c3 = -2395000 c5 = -801.8 b1 = .212E-4 b5 = 581.2022 b6 = 2110000 b7 = -.22E-5 b8 = 4.55 end fak EoS = 8 | H= -1142120. SiO2(1)FeO(1) GH = -1169401 S0 = 91.5 V0 = 2.76 c1 = 100.3 c2 = .13328E-1 c3 = -4364900 c5 = 419.8 b1 = .212E-4 b5 = 429.9111 b6 = 2180000 b7 = -.22E-5 b8 = 4.55 end maj EoS = 8 | H= -6041570. MgO(4)SiO2(4) GH = -6119149 S0 = 260.2 V0 = 11.457 c1 = 713.6 c2 = -.997E-3 c3 = -1158200 c5 = -6622.3 b1 = .183E-4 b5 = 546.838 b6 = 1600000 b7 = -.28E-5 b8 = 4.56 m0= 940000 m1= 1.3000 m2= -92.2358 k0= 1672936 k1= 4.1000 k2= -212.3555 | py end nagt EoS = 8 | H= -5985000. Na2O(.5)MgO(2)Al2O3(.5)SiO2(4) GH = -6062698 S0 = 260.6 V0 = 11.09 c1 = 620.8 c2 = .112E-1 c3 = -3755900 c5 = -4421.3 b1 = .21E-4 b5 = 546.2763 b6 = 1700000 b7 = -.23E-5 b8 = 4 m0= 940000 m1= 1.3000 m2= -92.2358 k0= 1672936 k1= 4.1000 k2= -212.3555 | py end py EoS = 8 | H= -6281650. MgO(3)Al2O3(1)SiO2(3) GH = -6362001 S0 = 269.5 V0 = 11.313 c1 = 633.5 c3 = -5196100 c5 = -4315.2 b1 = .237E-4 b5 = 534.0698 b6 = 1743000 b7 = -.23E-5 b8 = 4.05 m0= 940000 m1= 1.3000 m2= -92.2358 k0= 1672936 k1= 4.1000 k2= -212.3555 | py end alm EoS = 8 | H= -5267270. Al2O3(1)SiO2(3)FeO(3) GH = -5367747 S0 = 337 V0 = 11.525 c1 = 716.2 c2 = -.1241E-1 c3 = -3160800 c5 = -5863.5 b1 = .212E-4 b5 = 456.6767 b6 = 1900000 b7 = -.16E-5 b8 = 2.98 m0= 960000 m1= 1.4000 m2= -117.4186 k0= 1702620 k1= 4.9000 k2= -208.2492 | alm end spss EoS = 8 | H= -5693260. Al2O3(1)SiO2(3)MnO(3) GH = -5793230 S0 = 335.3 V0 = 11.792 c1 = 646.9 c3 = -4525800 c5 = -4452.8 b1 = .227E-4 b5 = 458.3495 b6 = 1740000 b7 = -.38E-5 b8 = 6.68 m0 = 955400 m1 = 1.4 m2 = -109 end gr EoS = 8 | H= -6642960. Al2O3(1)SiO2(3)CaO(3) GH = -6718988 S0 = 255 V0 = 12.535 c1 = 626 c3 = -5779200 c5 = -4002.9 b1 = .22E-4 b5 = 554.247 b6 = 1720000 b7 = -.32E-5 b8 = 5.53 m0= 1090000 m1= 1.1000 m2= -120.8546 k0= 1638809 k1= 3.9000 k2= -163.0825 | gr end andr EoS = 8 | H= -5768970. SiO2(3)CaO(3)FeO(2)O2(.5) GH = -5863305 S0 = 316.4 V0 = 13.204 c1 = 638.6 c3 = -4955100 c5 = -3989.2 b1 = .286E-4 b5 = 477.8077 b6 = 1588000 b7 = -.36E-5 b8 = 5.68 m0 = 1090001.1 m1 = 1.092452023 m2 = -129.2623025 k0 = 1648421.308 k1 = 3.885171201 k2 = -120.2000799 end knor EoS = 8 | H= -5707560. MgO(3)SiO2(3)Cr2O3(1) GH = -5797601 S0 = 302 V0 = 11.738 c1 = 613 c2 = .3606E-2 c3 = -4178000 c5 = -3729.4 b1 = .237E-4 b5 = 493.779 b6 = 1534000 b7 = -.28E-5 b8 = 4.34 m0= 940000 m1= 1.3000 m2= -92.2358 k0= 1672936 k1= 4.1000 k2= -212.3555 | py end uv EoS = 8 | H= -6057710. SiO2(3)CaO(3)Cr2O3(1) GH = -6153386 S0 = 320.9 V0 = 13.077 c1 = 605.1 c2 = .3606E-2 c3 = -4760600 c5 = -3417.1 b1 = .22E-4 b5 = 473.0265 b6 = 1620000 b7 = -.29E-5 b8 = 4.7 m0= 1090000 m1= 1.1000 m2= -120.8546 k0= 1638809 k1= 3.9000 k2= -163.0825 | gr end and EoS = 8 | H= -2588580. Al2O3(1)SiO2(1) GH = -2616219 S0 = 92.7 V0 = 5.153 c1 = 277.3 c2 = -.6588E-2 c3 = -1914100 c5 = -2265.6 b1 = .181E-4 b5 = 589.9875 b6 = 1442000 b7 = -.48E-5 b8 = 6.89 m0 = 612000 m1 = .9714 m2 = -106 end ky EoS = 8 | H= -2592880. Al2O3(1)SiO2(1) GH = -2617776 S0 = 83.5 V0 = 4.414 c1 = 279.4 c2 = -.7124E-2 c3 = -2055600 c5 = -2289.4 b1 = .192E-4 b5 = 630.1881 b6 = 1601000 b7 = -.25E-5 b8 = 4.05 m0= 850612.8 m1= 0.9088 m2= -124.0299 k0= 1560000 k1= 5.6 k2= -227.4673 | ky end sill EoS = 8 | H= -2585700. Al2O3(1)SiO2(1) GH = -2614144 S0 = 95.4 V0 = 4.986 c1 = 280.2 c2 = -.69E-2 c3 = -1375700 c5 = -2399.4 b1 = .112E-4 b5 = 579.1451 b6 = 1640000 b7 = -.31E-5 b8 = 5.06 m0= 930000 m1= 0.9088 m2= -52.056 k0= 1705594 k1= 4 k2= -95.4693 | sill transition = 1 type = 5 t1 = 4750 t2 = .1E-1 t3 = 4750 t4 = .1E-1 t5 = 1 t6 = .25 end tpz EoS = 8 | H= -2900620. Al2O3(1)SiO2(1)H2O(1) GH = -2930584 S0 = 100.5 V0 = 5.339 c1 = 387.7 c2 = -.712E-2 c3 = -857200 c5 = -3744.2 b1 = .157E-4 b5 = 682.8295 b6 = 1315000 b7 = -.31E-5 b8 = 4.06 m0 = 966000 m1 = 2 m2 = -15 end mst EoS = 8 | H= -.2512261E+08 MgO(4)Al2O3(9)SiO2(7.5)H2O(2) GH = -25393930 S0 = 910 V0 = 44.26 c1 = 2820.5 c2 = -.59366E-1 c3 = -13774000 c5 = -24126 b1 = .181E-4 b5 = 604.1244 b6 = 1684000 b7 = -.24E-5 b8 = 4.05 m0 = 575000 m1 = 2 m2 = -15 end fst EoS = 8 | H= -.2375523E+08 Al2O3(9)SiO2(7.5)FeO(4)H2O(2) GH = -24056360 S0 = 1010 V0 = 44.88 c1 = 2880 c2 = -.56595E-1 c3 = -10642000 c5 = -25373 b1 = .183E-4 b5 = 564.7642 b6 = 1800000 b7 = -.26E-5 b8 = 4.76 m0 = 575000 m1 = 2 m2 = -15 end mnst EoS = 8 | H= -.2424483E+08 Al2O3(9)SiO2(7.5)MnO(4)H2O(2) GH = -24553120 S0 = 1034 V0 = 45.46 c1 = 2873.3 c2 = -.89064E-1 c3 = -12688000 c5 = -24749 b1 = .209E-4 b5 = 556.0692 b6 = 1800000 b7 = -.26E-5 b8 = 4.76 m0 = 575000 m1 = 2 m2 = -15 end mctd EoS = 8 | H= -3549080. MgO(1)Al2O3(1)SiO2(1)H2O(1) GH = -3592610 S0 = 146 V0 = 6.875 c1 = 417.4 c2 = -.3771E-2 c3 = -2920600 c5 = -3417.8 b1 = .263E-4 b5 = 601.898 b6 = 1456000 b7 = -.28E-5 b8 = 4.06 m0 = 575000 m1 = 2 m2 = -15 end fctd EoS = 8 | H= -3208580. Al2O3(1)SiO2(1)FeO(1)H2O(1) GH = -3258371 S0 = 167 V0 = 6.98 c1 = 416.1 c2 = -.3477E-2 c3 = -2835900 c5 = -3360.3 b1 = .28E-4 b5 = 551.4837 b6 = 1456000 b7 = -.28E-5 b8 = 4.06 m0 = 575000 m1 = 2 m2 = -15 end mnctd EoS = 8 | H= -3336000. Al2O3(1)SiO2(1)MnO(1)H2O(1) GH = -3385493 S0 = 166 V0 = 7.175 c1 = 464.4 c2 = -.12654E-1 c3 = -1147200 c5 = -4341 b1 = .26E-4 b5 = 553.6921 b6 = 1456000 b7 = -.28E-5 b8 = 4.06 m0 = 575000 m1 = 2 m2 = -15 end merw EoS = 8 | H= -4545680. MgO(1)SiO2(2)CaO(3) GH = -4621142 S0 = 253.1 V0 = 9.847 c1 = 417.5 c2 = .8117E-2 c3 = -2923000 c5 = -2320.3 b1 = .319E-4 b5 = 433.7936 b6 = 1200000 b7 = -.34E-5 b8 = 4.07 m0 = 575000 m1 = 2 m2 = -15 end spu EoS = 8 | H= -5846770. SiO2(2)CaO(5)CO2(1) GH = -5945756 S0 = 332 V0 = 14.697 c1 = 614.1 c2 = -.3508E-2 c3 = -2493100 c5 = -4168 b1 = .34E-4 b5 = 444.7663 b6 = 950000 b7 = -.43E-5 b8 = 4.09 m0 = 575000 m1 = 2 m2 = -15 end zo EoS = 8 | H= -6896180. Al2O3(1.5)SiO2(3)CaO(2)H2O(.5) GH = -6985029 S0 = 298 V0 = 13.575 c1 = 662 c2 = .10416E-1 c3 = -6006400 c5 = -4260.7 b1 = .312E-4 b5 = 532.187 b6 = 1044000 b7 = -.38E-5 b8 = 4 m0= 729000 m1= 0.9951 m2= -213.1191 k0= 1221000 k1= 6.8 k2= -356.9526 | zo end cz EoS = 8 | H= -6895430. Al2O3(1.5)SiO2(3)CaO(2)H2O(.5) GH = -6985173 S0 = 301 V0 = 13.63 c1 = 630.9 c2 = .13693E-1 c3 = -6645800 c5 = -3731.1 b1 = .233E-4 b5 = 528.5805 b6 = 1197000 b7 = -.34E-5 b8 = 4.07 m0= 729000 m1= 0.9951 m2= -150.6188 k0= 1221000 k1= 6.8 k2= -252.2711 | cz end ep EoS = 8 | H= -6473690. Al2O3(1)SiO2(3)CaO(2)FeO(1)O2(.25)H2O(.5) GH = -6567607 S0 = 315 V0 = 13.92 c1 = 613.3 c2 = .2207E-1 c3 = -7160000 c5 = -2987.7 b1 = .234E-4 b5 = 512.3763 b6 = 1340000 b7 = -.3E-5 b8 = 4 m0= 729000 m1= 0.9951 m2= -150.6188 k0= 1221000 k1= 6.8 k2= -252.2711 | ep end fep EoS = 8 | H= -6028390. Al2O3(.5)SiO2(3)CaO(2)FeO(2)O2(.5)H2O(.5) GH = -6126481 S0 = 329 V0 = 14.21 c1 = 584.7 c2 = .30447E-1 c3 = -7674200 c5 = -2244.3 b1 = .231E-4 b5 = 497.1361 b6 = 1513000 b7 = -.26E-5 b8 = 4 m0 = 612000 m1 = .9714 m2 = -106 end law EoS = 8 | H= -4868560. Al2O3(1)SiO2(2)CaO(1)H2O(2) GH = -4936836 S0 = 229 V0 = 10.132 c1 = 687.8 c2 = .1566E-2 c3 = 375900 c5 = -7179.2 b1 = .265E-4 b5 = 575.148 b6 = 1229000 b7 = -.44E-5 b8 = 5.45 m0= 523000 m1= 0.7075 m2= -58.5596 k0= 1232000 k1= 5.5 k2= -137.9453 | law end mpm EoS = 8 | H= -.1438667E+08 MgO(1)Al2O3(2.5)SiO2(6)CaO(4)H2O(3.5) GH = -14574210 S0 = 629 V0 = 29.55 c1 = 1720.8 c2 = -.24928E-1 c3 = -5998700 c5 = -14620.3 b1 = .248E-4 b5 = 566.5483 b6 = 1615000 b7 = -.25E-5 b8 = 4.05 end fpm EoS = 8 | H= -.1403436E+08 Al2O3(2.5)SiO2(6)CaO(4)FeO(1)H2O(3.5) GH = -14230240 S0 = 657 V0 = 29.68 c1 = 1737.2 c2 = -.24582E-1 c3 = -5161100 c5 = -14963 b1 = .249E-4 b5 = 550.4506 b6 = 1615000 b7 = -.25E-5 b8 = 4.05 end jgd EoS = 8 | H= -.1180909E+08 SiO2(6)CaO(4)FeO(6)O2(1.25)H2O(3.5) GH = -12056550 S0 = 830 V0 = 31.08 c1 = 1795.4 c2 = -.37986E-1 c3 = -4455700 c5 = -14888 b1 = .249E-4 b5 = 468.247 b6 = 1615000 b7 = -.25E-5 b8 = 4.05 end geh EoS = 8 | H= -3992170. Al2O3(1)SiO2(1)CaO(2) GH = -4051353 S0 = 198.5 V0 = 9.024 c1 = 405.7 c2 = -.7099E-2 c3 = -1188300 c5 = -3174.4 b1 = .223E-4 b5 = 462.8037 b6 = 1080000 b7 = -.38E-5 b8 = 4.08 m0 = 454000 m1 = .97133 m2 = -68 transition = 1 type = 5 t1 = 7510 t2 = .9E-1 t3 = 7500 t4 = .9E-1 t5 = 1 t6 = .8 end ak EoS = 8 | H= -3865590. MgO(1)SiO2(2)CaO(2) GH = -3928947 S0 = 212.5 V0 = 9.254 c1 = 385.4 c2 = .3209E-2 c3 = -247500 c5 = -2889.9 b1 = .257E-4 b5 = 440.4445 b6 = 1420000 b7 = -.29E-5 b8 = 4.06 m0 = 454000 m1 = .97133 m2 = -68 end rnk EoS = 8 | H= -3943850. SiO2(2)CaO(3) GH = -4006461 S0 = 210 V0 = 9.651 c1 = 372.3 c2 = -.2893E-2 c3 = -2462400 c5 = -2181.3 b1 = .328E-4 b5 = 444.2774 b6 = 950000 b7 = -.43E-5 b8 = 4.09 m0 = 454000 m1 = .97133 m2 = -68 end ty EoS = 8 | H= -6368100. SiO2(2)CaO(5)CO2(2) GH = -6484378 S0 = 390 V0 = 17.039 c1 = 741.7 c2 = -.5345E-2 c3 = -1434600 c5 = -5878.5 b1 = .342E-4 b5 = 440.0993 b6 = 950000 b7 = -.43E-5 b8 = 4.09 m0 = 454000 m1 = .97133 m2 = -68 end crd EoS = 8 | H= -9163120. MgO(2)Al2O3(2)SiO2(5) GH = -9283602 S0 = 404.1 V0 = 23.322 c1 = 906.1 c3 = -7902000 c5 = -6293.4 b1 = .68E-5 b5 = 522.0255 b6 = 1290000 b7 = -.31E-5 b8 = 4.1 m0= 540000 m1= 0.6977 m2= -6.6156 k0= 1289882 k1= 4 k2= -15.8025 | crd transition = 1 type = 5 t1 = 36710 t2 = .1 t3 = 36700 t4 = .1 t5 = 2 t6 = 1.5 end hcrd EoS = 8 | H= -9448210. MgO(2)Al2O3(2)SiO2(5)H2O(1) GH = -9592216 S0 = 483 V0 = 23.322 c1 = 955.3 c3 = -8352600 c5 = -6301.2 b1 = .67E-5 b5 = 493.9223 b6 = 1290000 b7 = -.31E-5 b8 = 4.1 m0= 540000 m1= 0.6977 m2= -6.6156 k0= 1289882 k1= 4 k2= -15.8025 | crd transition = 1 type = 5 t1 = 36710 t2 = .1 t3 = 36700 t4 = .1 t5 = 2 t6 = 1.5 end fcrd EoS = 8 | H= -8444220. Al2O3(2)SiO2(5)FeO(2) GH = -8581667 S0 = 461 V0 = 23.71 c1 = 924 c3 = -7039400 c5 = -6439.6 b1 = .67E-5 b5 = 476.1702 b6 = 1290000 b7 = -.31E-5 b8 = 4.1 m0= 540000 m1= 0.6977 m2= -6.6156 k0= 1289882 k1= 4 k2= -15.8025 | crd transition = 1 type = 5 t1 = 36710 t2 = .1 t3 = 36700 t4 = .1 t5 = 2 t6 = 1.5 end mncrd EoS = 8 | H= -8693350. Al2O3(2)SiO2(5)MnO(2) GH = -8834375 S0 = 473 V0 = 24.027 c1 = 886.5 c3 = -8840000 c5 = -5590.4 b1 = .69E-5 b5 = 467.5094 b6 = 1290000 b7 = -.31E-5 b8 = 4.1 m0= 540000 m1= 0.6977 m2= -6.6156 k0= 1289882 k1= 4 k2= -15.8025 | crd transition = 1 type = 5 t1 = 36710 t2 = .1 t3 = 36700 t4 = .1 t5 = 2 t6 = 1.5 end phA EoS = 8 | H= -7129560. MgO(7)SiO2(2)H2O(3) GH = -7234062 S0 = 350.5 V0 = 15.422 c1 = 962 c2 = -.11521E-1 c3 = -4517800 c5 = -7724.7 b1 = .355E-4 b5 = 574.1056 b6 = 1450000 b7 = -.28E-5 b8 = 4.06 m0= 610000 m1= 1.8 m2= -201.6772 k0= 1038527 k1= 5.8 k2= -343.356 | phA end sph EoS = 8 | H= -2601530. SiO2(1)CaO(1)TiO2(1) GH = -2638501 S0 = 124 V0 = 5.565 c1 = 227.9 c2 = .2924E-2 c3 = -3539500 c5 = -894.3 b1 = .158E-4 b5 = 484.7767 b6 = 1017000 b7 = -.97E-5 b8 = 9.85 transition = 1 type = 4 t1 = 485 t2 = .4 t3 = .5E-2 m0= 670000 m1= 0.9057 m2= -76.6637 k0= 1233000 k1= 4 k2= -141.084 | ttan end zrc EoS = 8 | H= -2035160. SiO2(1)ZrO2(1) GH = -2059915 S0 = 83.03 V0 = 3.926 c1 = 232 c2 = -.14405E-1 c5 = -2238.2 b1 = .125E-4 b5 = 524.5007 b6 = 2301000 b7 = -.18E-5 b8 = 4.04 m0 = 1121400 m1 = .78 m2 = -21 end en EoS = 8 | H= -3090100. MgO(2)SiO2(2) GH = -3129605 S0 = 132.5 V0 = 6.262 c1 = 356.2 c2 = -.299E-2 c3 = -596900 c5 = -3185.3 b1 = .227E-4 b5 = 540.1727 b6 = 1059000 b7 = -.82E-5 b8 = 8.65 m0= 779000 m1= 1.9000 m2= -159.1267 k0= 1078524 k1= 6.6000 k2= -220.3105 | en end hen EoS = 8 | H= -3082600. MgO(2)SiO2(2) GH = -3121866 S0 = 131.7 V0 = 6.099 c1 = 356.2 c2 = -.299E-2 c3 = -596900 c5 = -3185.3 b1 = .226E-4 b5 = 542.3763 b6 = 1500000 b7 = -.36E-5 b8 = 5.5 m0= 779000 m1= 1.9000 m2= -159.1267 k0= 1078524 k1= 6.6000 k2= -220.3105 | en end hfs EoS = 8 | H= -2380590. SiO2(2)FeO(2) GH = -2436940 S0 = 189 V0 = 6.405 c1 = 398.7 c2 = -.6579E-2 c3 = 1290100 c5 = -4058 b1 = .237E-4 b5 = 419.7316 b6 = 1500000 b7 = -.36E-5 b8 = 5.5 m0= 520000 m1= 1.9000 m2= -133.8771 k0= 1000974 k1= 6.6000 k2= -257.7067 | fs end fs EoS = 8 | H= -2388540. SiO2(2)FeO(2) GH = -2445159 S0 = 189.9 V0 = 6.592 c1 = 398.7 c2 = -.6579E-2 c3 = 1290100 c5 = -4058 b1 = .326E-4 b5 = 418.2462 b6 = 1010000 b7 = -.4E-5 b8 = 4.08 m0= 520000 m1= 1.9000 m2= -133.8771 k0= 1000974 k1= 6.6000 k2= -257.7067 | fs end mgts EoS = 8 | H= -3196480. MgO(1)Al2O3(1)SiO2(1) GH = -3235538 S0 = 131 V0 = 6.05 c1 = 371.4 c2 = -.4082E-2 c3 = -398400 c5 = -3547.1 b1 = .217E-4 b5 = 544.3193 b6 = 1028000 b7 = -.83E-5 b8 = 8.55 m0= 973250 m1= 1.9000 m2= -199.9123 k0= 1732320 k1= 6.6000 k2= -355.8305 | mgts end di EoS = 8 | H= -3201820. MgO(1)SiO2(2)CaO(1) GH = -3244426 S0 = 142.9 V0 = 6.619 c1 = 314.5 c2 = .41E-4 c3 = -2745900 c5 = -2020.1 b1 = .273E-4 b5 = 513.0728 b6 = 1192000 b7 = -.44E-5 b8 = 5.19 m0= 728000 m1= 1.9000 m2= -91.2246 k0= 1165000 k1= 4.5000 k2= -163.4517 | di end hed EoS = 8 | H= -2842000. SiO2(2)CaO(1)FeO(1) GH = -2894176 S0 = 175 V0 = 6.795 c1 = 340.2 c2 = .812E-3 c3 = -1047800 c5 = -2646.7 b1 = .238E-4 b5 = 444.2774 b6 = 1192000 b7 = -.33E-5 b8 = 3.97 m0= 618000 m1= 1.9000 m2= -113.9747 k0= 1205000 k1= 4.5000 k2= -222.2322 | hed end jd EoS = 8 | H= -3025400. Na2O(.5)Al2O3(.5)SiO2(2) GH = -3065203 S0 = 133.5 V0 = 6.04 c1 = 319.4 c2 = .3616E-2 c3 = -1173900 c5 = -2469.5 b1 = .21E-4 b5 = 537.4432 b6 = 1281000 b7 = -.3E-5 b8 = 3.81 m0= 850000 m1= 1.9000 m2= -58.7115 k0= 1428000 k1= 1.6000 k2= -98.6354 | jd end acm EoS = 8 | H= -2583320. Na2O(.5)SiO2(2)FeO(1)O2(.25) GH = -2634184 S0 = 170.6 V0 = 6.459 c1 = 307.1 c2 = .16758E-1 c3 = -1685500 c5 = -2125.8 b1 = .211E-4 b5 = 452.5957 b6 = 1060000 b7 = -.38E-5 b8 = 4.08 m0= 580000 m1= 1.9000 m2= -60.9925 k0= 1170000 k1= 3.2000 k2= -123.0367 | ac end cats EoS = 8 | H= -3310030. Al2O3(1)SiO2(1)CaO(1) GH = -3350280 S0 = 135 V0 = 6.356 c1 = 347.6 c2 = -.6974E-2 c3 = -1781600 c5 = -2757.5 b1 = .208E-4 b5 = 533.4002 b6 = 1192000 b7 = -.44E-5 b8 = 5.19 m0= 790670 m1= 1.9000 m2= -112.9463 k0= 1124667 k1= 4.8000 k2= -160.6581 | cats transition = 1 type = 5 t1 = 3800 t2 = .1E-1 t3 = 3800 t4 = .1E-1 t5 = 1 t6 = .25 end rhod EoS = 8 | H= -1322360. SiO2(1)MnO(1) GH = -1352324 S0 = 100.5 V0 = 3.494 c1 = 138.4 c2 = .4088E-2 c3 = -1936000 c5 = -538.9 b1 = .281E-4 b5 = 400.7536 b6 = 840000 b7 = -.48E-5 b8 = 4 m0 = 740000 m1 = 2 m2 = -20 end pxmn EoS = 8 | H= -1323140. SiO2(1)MnO(1) GH = -1352746 S0 = 99.3 V0 = 3.472 c1 = 138.4 c2 = .4088E-2 c3 = -1936000 c5 = -538.9 b1 = .28E-4 b5 = 404.4106 b6 = 840000 b7 = -.48E-5 b8 = 4 m0 = 740000 m1 = 2 m2 = -20 end wo EoS = 8 | H= -1633780. SiO2(1)CaO(1) GH = -1658377 S0 = 82.5 V0 = 3.993 c1 = 159.3 c3 = -967300 c5 = -1075.4 b1 = .254E-4 b5 = 463.6443 b6 = 795000 b7 = -.52E-5 b8 = 4.1 m0 = 620000 m1 = 1.7 m2 = -100 end pswo EoS = 8 | H= -1627980. SiO2(1)CaO(1) GH = -1654158 S0 = 87.8 V0 = 4.008 c1 = 157.8 c3 = -967300 c5 = -1075.4 b1 = .285E-4 b5 = 443.1667 b6 = 1100000 b7 = -.37E-5 b8 = 4.08 m0 = 620000 m1 = 1.7 m2 = -100 end tr EoS = 8 | H= -.1230464E+08 MgO(5)SiO2(8)CaO(2)H2O(1) GH = -12469520 S0 = 553 V0 = 27.27 c1 = 1260.2 c2 = .383E-2 c3 = -11455000 c5 = -8237.6 b1 = .261E-4 b5 = 533.7266 b6 = 762000 b7 = -.54E-5 b8 = 4.1 m0= 505010 m1= 0.9902 m2= -70.6650 k0= 850000 k1= 4 k2= -118.9388 | tr end ftr EoS = 8 | H= -.1050376E+08 SiO2(8)CaO(2)FeO(5)H2O(1) GH = -10715450 S0 = 710 V0 = 28.42 c1 = 1290 c2 = .29992E-1 c3 = -8447500 c5 = -8947 b1 = .288E-4 b5 = 447.6982 b6 = 760000 b7 = -.54E-5 b8 = 4.1 m0= 451538 m1= 0.9902 m2= -63.0565 k0= 760000 k1= 4 k2= -106.1327 | fact end ts EoS = 8 | H= -.1255490E+08 MgO(3)Al2O3(2)SiO2(6)CaO(2)H2O(1) GH = -12713810 S0 = 533 V0 = 26.8 c1 = 1244.8 c2 = .24348E-1 c3 = -11965000 c5 = -8112.1 b1 = .266E-4 b5 = 547.1193 b6 = 760000 b7 = -.54E-5 b8 = 4.1 m0= 451538 m1= 0.9902 m2= -62.8039 k0= 760000 k1= 4 k2= -105.7075 | ts end parg EoS = 8 | H= -.1266465E+08 Na2O(.5)MgO(4)Al2O3(1.5)SiO2(6)CaO(2)H2O(1) GH = -12853980 S0 = 635 V0 = 27.19 c1 = 1280.2 c2 = .22997E-1 c3 = -12359500 c5 = -8065.8 b1 = .28E-4 b5 = 493.3428 b6 = 912000 b7 = -.45E-5 b8 = 4.09 m0= 576310 m1= 0.9902 m2= -82.4122 k0= 970000 k1= 4 k2= -138.7110 | parg end gl EoS = 8 | H= -.1195622E+08 Na2O(1)MgO(3)Al2O3(1)SiO2(8)H2O(1) GH = -12114240 S0 = 530 V0 = 25.98 c1 = 1717.5 c2 = -.12107 c3 = 7075000 c5 = -19272 b1 = .158E-4 b5 = 549.1864 b6 = 883000 b7 = -.46E-5 b8 = 4.09 m0= 637000 m1= 1.1187 m2= -89.7324 k0= 949000 k1= 4 k2= -133.6830 | gl end fgl EoS = 8 | H= -.1087968E+08 Na2O(1)Al2O3(1)SiO2(8)FeO(3)H2O(1) GH = -11065730 S0 = 624 V0 = 26.59 c1 = 1762.9 c2 = -.118992 c3 = 9423700 c5 = -20207.1 b1 = .183E-4 b5 = 491.0545 b6 = 890000 b7 = -.46E-5 b8 = 4.09 m0= 528770 m1= 0.9902 m2= -74.6337 k0= 890000 k1= 4 k2= -125.6187 | fgl end rieb EoS = 8 | H= -.1002442E+08 Na2O(1)SiO2(8)FeO(5)O2(.5)H2O(1) GH = -10231630 S0 = 695 V0 = 27.49 c1 = 1787.3 c2 = -.124882 c3 = 9627100 c5 = -20275.5 b1 = .181E-4 b5 = 454.7005 b6 = 890000 b7 = -.46E-5 b8 = 4.09 m0= 637000 m1= 1.1187 m2= -89.7324 k0= 949000 k1= 4 k2= -133.683 | gl end anth EoS = 8 | H= -.1206642E+08 MgO(7)SiO2(8)H2O(1) GH = -12226530 S0 = 537 V0 = 26.54 c1 = 1277.3 c2 = .25825E-1 c3 = -9704600 c5 = -9074.7 b1 = .252E-4 b5 = 544.3873 b6 = 700000 b7 = -.59E-5 b8 = 4.11 m0= 415890 m1= 0.9902 m2= -56.4478 k0= 700000 k1= 4 k2= -95.0094 | anth end fanth EoS = 8 | H= -9623950. SiO2(8)FeO(7)H2O(1) GH = -9840109 S0 = 725 V0 = 27.87 c1 = 1383.1 c2 = .30669E-1 c3 = -4224700 c5 = -11257.6 b1 = .274E-4 b5 = 440.9084 b6 = 700000 b7 = -.59E-5 b8 = 4.11 m0= 415890 m1= 0.9902 m2= -56.4478 k0= 700000 k1= 4 k2= -95.0094 | anth end cumm EoS = 8 | H= -.1206428E+08 MgO(7)SiO2(8)H2O(1) GH = -12224680 S0 = 538 V0 = 26.33 c1 = 1277.3 c2 = .25825E-1 c3 = -9704600 c5 = -9074.7 b1 = .252E-4 b5 = 543.7085 b6 = 700000 b7 = -.59E-5 b8 = 4.11 m0= 415890 m1= 0.9902 m2= -56.4478 k0= 700000 k1= 4 k2= -95.0094 | anth end grun EoS = 8 | H= -9606570. SiO2(8)FeO(7)H2O(1) GH = -9825710 S0 = 735 V0 = 27.84 c1 = 1383.1 c2 = .30669E-1 c3 = -4224700 c5 = -11257.6 b1 = .274E-4 b5 = 436.495 b6 = 648000 b7 = -.64E-5 b8 = 4.12 m0= 415890 m1= 0.9902 m2= -56.4478 k0= 700000 k1= 4 k2= -95.0094 | anth end ged EoS = 8 | H= -.1232861E+08 MgO(5)Al2O3(2)SiO2(6)H2O(1) GH = -12482750 S0 = 517 V0 = 25.548 c1 = 1307.7 c2 = .23642E-1 c3 = -9307400 c5 = -9799 b1 = .241E-4 b5 = 558.3274 b6 = 770000 b7 = -.53E-5 b8 = 4.1 m0= 415890 m1= 0.9902 m2= -56.4478 k0= 700000 k1= 4 k2= -95.0094 | anth end spr4 EoS = 8 | H= -.1102135E+08 MgO(4)Al2O3(4)SiO2(2) GH = -11148210 S0 = 425.5 V0 = 19.9 c1 = 1133.1 c2 = -.7596E-2 c3 = -8816600 c5 = -8180.6 b1 = .205E-4 b5 = 561.1271 b6 = 2500000 b7 = -.16E-5 b8 = 4.04 m0 = 810000 m1 = 1.82 m2 = -140 end spr5 EoS = 8 | H= -.1113481E+08 MgO(3)Al2O3(5)SiO2(1) GH = -11259880 S0 = 419.5 V0 = 19.75 c1 = 1103.4 c2 = .1015E-2 c3 = -10957000 c5 = -7409.2 b1 = .206E-4 b5 = 566.4004 b6 = 2500000 b7 = -.16E-5 b8 = 4.04 m0 = 810000 m1 = 1.82 m2 = -140 end fspr EoS = 8 | H= -9658980. Al2O3(4)SiO2(2)FeO(4) GH = -9803583 S0 = 485 V0 = 19.923 c1 = 1132.9 c2 = -.7348E-2 c3 = -10420200 c5 = -7036.6 b1 = .196E-4 b5 = 513.6996 b6 = 2500000 b7 = -.17E-5 b8 = 4.04 m0 = 510000 m1 = .62 m2 = -108 end mcar EoS = 8 | H= -4770890. MgO(1)Al2O3(1)SiO2(2)H2O(2) GH = -4836930 S0 = 221.5 V0 = 10.59 c1 = 683 c2 = -.14054E-1 c3 = 291000 c5 = -6976.4 b1 = .243E-4 b5 = 587.6927 b6 = 525000 b7 = -.79E-5 b8 = 4.14 m0 = 510000 m1 = .62 m2 = -108 end fcar EoS = 8 | H= -4411840. Al2O3(1)SiO2(2)FeO(1)H2O(2) GH = -4486705 S0 = 251.1 V0 = 10.695 c1 = 686.6 c2 = -.12415E-1 c3 = 186000 c5 = -6884 b1 = .221E-4 b5 = 541.1128 b6 = 525000 b7 = -.79E-5 b8 = 4.14 m0 = 510000 m1 = .62 m2 = -108 end deer EoS = 8 | H= -.1833992E+08 SiO2(12)FeO(18)O2(1.5)H2O(5) GH = -18831870 S0 = 1650 V0 = 55.74 c1 = 3164.4 c2 = -.27883E-1 c3 = -5039100 c5 = -26721 b1 = .275E-4 b5 = 429.3326 b6 = 630000 b7 = -.65E-5 b8 = 4.12 m0 = 510000 m1 = .62 m2 = -108 end mu EoS = 8 | H= -5976450. Al2O3(1.5)SiO2(3)K2O(.5)H2O(1) GH = -6063510 S0 = 292 V0 = 14.083 c1 = 756.4 c2 = -.1984E-1 c3 = -2170000 c5 = -6979.2 b1 = .307E-4 b5 = 522.7881 b6 = 490000 b7 = -.85E-5 b8 = 4.15 m0= 368000 m1= 1.0325 m2= -54.5667 k0= 594000 k1= 4 k2= -88.0777 | mu end cel EoS = 8 | H= -5834850. MgO(1)Al2O3(.5)SiO2(4)K2O(.5)H2O(1) GH = -5921313 S0 = 290 V0 = 13.957 c1 = 741.2 c2 = -.18748E-1 c3 = -2368800 c5 = -6616.9 b1 = .307E-4 b5 = 525.2469 b6 = 700000 b7 = -.59E-5 b8 = 4.11 m0= 391870 m1= 1.0048 m2= -115.5352 k0= 650000 k1= 9 k2= -191.6380 | cel end fcel EoS = 8 | H= -5468700. Al2O3(.5)SiO2(4)K2O(.5)FeO(1)H2O(1) GH = -5567089 S0 = 330 V0 = 14.07 c1 = 756.3 c2 = -.19147E-1 c3 = -1586100 c5 = -6928.7 b1 = .318E-4 b5 = 480.0877 b6 = 700000 b7 = -.59E-5 b8 = 4.11 m0= 391870 m1= 1.0048 m2= -115.5352 k0= 650000 k1= 9 k2= -191.6380 | cel end pa EoS = 8 | H= -5942670. Na2O(.5)Al2O3(1.5)SiO2(3)H2O(1) GH = -6025258 S0 = 277 V0 = 13.211 c1 = 803 c2 = -.3158E-1 c3 = 217000 c5 = -8151 b1 = .37E-4 b5 = 541.8106 b6 = 515000 b7 = -.126E-4 b8 = 6.51 m0= 368000 m1= 1.0325 m2= -54.5667 k0= 594000 k1= 4 k2= -88.0777 | mu end ma EoS = 8 | H= -6241900. Al2O3(2)SiO2(2)CaO(1)H2O(1) GH = -6320910 S0 = 265 V0 = 12.964 c1 = 744.4 c2 = -.168E-1 c3 = -2074400 c5 = -6783.2 b1 = .233E-4 b5 = 558.0552 b6 = 1000000 b7 = -.41E-5 b8 = 4.08 m0= 368000 m1= 1.0325 m2= -54.5667 k0= 594000 k1= 4 k2= -88.0777 | mu end phl EoS = 8 | H= -6214700. MgO(3)Al2O3(.5)SiO2(3)K2O(.5)H2O(1) GH = -6311897 S0 = 326 V0 = 14.964 c1 = 770.3 c2 = -.36939E-1 c3 = -2328900 c5 = -6531.6 b1 = .38E-4 b5 = 500.325 b6 = 513000 b7 = -.143E-4 b8 = 7.33 m0= 270020 m1= 0.9055 m2= -75.0159 k0= 497000 k1= 8.5900 k2= -138.0728 | phl end ann EoS = 8 | H= -5143610. Al2O3(.5)SiO2(3)K2O(.5)FeO(3)H2O(1) GH = -5268833 S0 = 420 V0 = 15.432 c1 = 815.7 c2 = -.34861E-1 c3 = 19800 c5 = -7466.7 b1 = .38E-4 b5 = 416.5931 b6 = 513000 b7 = -.143E-4 b8 = 7.33 m0= 270020 m1= 0.9055 m2= -67.6340 k0= 497000 k1= 7.6100 k2= -124.4858 | ann end mnbi EoS = 8 | H= -5477430. Al2O3(.5)SiO2(3)K2O(.5)MnO(3)H2O(1) GH = -5606529 S0 = 433 V0 = 15.264 c1 = 809.9 c2 = -.59213E-1 c3 = -1514400 c5 = -6998.7 b1 = .38E-4 b5 = 407.1692 b6 = 530000 b7 = -.143E-4 b8 = 7.33 m0= 270020 m1= 0.9055 m2= -67.6340 k0= 497000 k1= 7.6100 k2= -124.4858 | ann end east EoS = 8 | H= -6330140. MgO(2)Al2O3(1.5)SiO2(2)K2O(.5)H2O(1) GH = -6424952 S0 = 318 V0 = 14.738 c1 = 785.5 c2 = -.38031E-1 c3 = -2130300 c5 = -6893.7 b1 = .38E-4 b5 = 509.0324 b6 = 530000 b7 = -.143E-4 b8 = 7.33 m0= 270020 m1= 0.9055 m2= -67.6340 k0= 497000 k1= 7.6100 k2= -124.4858 | ann end naph EoS = 8 | H= -6164510. Na2O(.5)MgO(3)Al2O3(.5)SiO2(3)H2O(1) GH = -6259322 S0 = 318 V0 = 14.45 c1 = 773.5 c2 = -.40229E-1 c3 = -2597900 c5 = -6512.6 b1 = .328E-4 b5 = 509.0324 b6 = 513000 b7 = -.143E-4 b8 = 7.33 m0= 270020 m1= 0.9055 m2= -67.6340 k0= 497000 k1= 7.6100 k2= -124.4858 | ann end |tan EoS = 8 | H= -5900140. |MgO(3)SiO2(4)H2O(1) |GH = -5977361 S0 = 259 V0 = 13.665 |c1 = 622.2 c3 = -6385500 c5 = -3916.3 |b1 = .18E-4 b5 = 566.5483 b6 = 430000 b7 = -.144E-4 b8 = 6.17 |end clin EoS = 8 | H= -8908710. MgO(5)Al2O3(1)SiO2(3)H2O(4) GH = -9039002 S0 = 437 V0 = 21.14 c1 = 1170.8 c2 = -.1508E-2 c3 = -3825800 c5 = -10315 b1 = .204E-4 b5 = 572.4777 b6 = 870000 b7 = -.47E-5 b8 = 4.09 m0= 338000 m1= 0.7231 m2= -32.2414 k0= 779000 k1= 4 k2= -74.3077 | clin end ames EoS = 8 | H= -9039960. MgO(4)Al2O3(2)SiO2(2)H2O(4) GH = -9162798 S0 = 412 V0 = 20.71 c1 = 1186 c2 = -.2599E-2 c3 = -3627200 c5 = -10677 b1 = .2E-4 b5 = 594.7068 b6 = 870000 b7 = -.47E-5 b8 = 4.09 m0= 338000 m1= 0.7231 m2= -32.2414 k0= 779000 k1= 4 k2= -74.3077 | clin end afchl EoS = 8 | H= -8727460. MgO(6)SiO2(4)H2O(4) GH = -8858348 S0 = 439 V0 = 21.57 c1 = 1155 c2 = -.417E-3 c3 = -4024400 c5 = -9952.9 b1 = .204E-4 b5 = 570.771 b6 = 870000 b7 = -.47E-5 b8 = 4.09 m0= 338000 m1= 0.7231 m2= -32.2414 k0= 779000 k1= 4 k2= -74.3077 | clin end daph EoS = 8 | H= -7119280. Al2O3(1)SiO2(3)FeO(5)H2O(4) GH = -7293400 S0 = 584 V0 = 21.62 c1 = 1192 c2 = -.594E-2 c3 = -4826400 c5 = -9768.3 b1 = .227E-4 b5 = 469.3273 b6 = 870000 b7 = -.47E-5 b8 = 4.09 m0= 338000 m1= 0.7231 m2= -32.1689 k0= 779000 k1= 4 k2= -74.1407 | daph end mnchl EoS = 8 | H= -7702010. Al2O3(1)SiO2(3)MnO(5)H2O(4) GH = -7879409 S0 = 595 V0 = 22.59 c1 = 1136.5 c2 = -.5243E-2 c3 = -5548100 c5 = -8911.5 b1 = .223E-4 b5 = 463.0835 b6 = 870000 b7 = -.47E-5 b8 = 4.09 m0= 338000 m1= 0.7231 m2= -32.2414 k0= 779000 k1= 4 k2= -74.3077 | clin end sud EoS = 8 | H= -8626230. MgO(2)Al2O3(2)SiO2(3)H2O(4) GH = -8743999 S0 = 395 V0 = 20.3 c1 = 1436.1 c2 = -.48749E-1 c3 = -2748500 c5 = -13764 b1 = .199E-4 b5 = 600.0322 b6 = 870000 b7 = -.47E-5 b8 = 4.09 m0 = 405000 m1 = 1.20881 m2 = -54 end fsud EoS = 8 | H= -7900660. Al2O3(2)SiO2(3)FeO(2)H2O(4) GH = -8036616 S0 = 456 V0 = 20.4 c1 = 1466.3 c2 = -.47365E-1 c3 = -1182800 c5 = -14388 b1 = .208E-4 b5 = 546.3164 b6 = 870000 b7 = -.47E-5 b8 = 4.09 m0 = 405000 m1 = 1.20881 m2 = -54 end prl EoS = 8 | H= -5640550. Al2O3(1)SiO2(4)H2O(1) GH = -5711808 S0 = 239 V0 = 12.804 c1 = 784.5 c2 = -.42948E-1 c3 = 1251000 c5 = -8495.9 b1 = .45E-4 b5 = 578.3578 b6 = 370000 b7 = -.271E-4 b8 = 10 m0 = 405000 m1 = 1.20881 m2 = -54 end ta EoS = 8 | H= -5896990. MgO(3)SiO2(4)H2O(1) GH = -5974211 S0 = 259 V0 = 13.665 c1 = 622.2 c3 = -6385500 c5 = -3916.3 b1 = .18E-4 b5 = 566.5483 b6 = 430000 b7 = -.144E-4 b8 = 6.17 m0= 473000 m1= 2.8000 m2= -53.4925 k0= 555000 k1= 5.2000 k2= -62.7661 | ta end fta EoS = 8 | H= -4799750. SiO2(4)FeO(3)H2O(1) GH = -4904699 S0 = 352 V0 = 14.225 c1 = 579.7 c2 = .39494E-1 c3 = -6459300 c5 = -3088.1 b1 = .18E-4 b5 = 458.4106 b6 = 430000 b7 = -.144E-4 b8 = 6.17 m0= 473000 m1= 2.8000 m2= -53.4925 k0= 555000 k1= 5.2000 k2= -62.7661 | ta end tats EoS = 8 | H= -6001060. MgO(2)Al2O3(1)SiO2(3)H2O(1) GH = -6078281 S0 = 259 V0 = 13.51 c1 = 549.5 c2 = .36324E-1 c3 = -8606600 c5 = -2515.3 b1 = .18E-4 b5 = 566.5483 b6 = 430000 b7 = -.144E-4 b8 = 6.17 m0= 473000 m1= 2.8000 m2= -53.4925 k0= 555000 k1= 5.2000 k2= -62.7661 | ta end | tap is probably intended to represent the pyrophyllite exchange in a solution | model for talc, it is excluded here because it interferes with the stability | of pyrophyllite. | tap EoS = 8 | H= -5649710. | Al2O3(1)SiO2(4)H2O(1) | GH = -5719775 S0 = 235 V0 = 13.45 | c1 = 784.5 c2 = -.42948E-1 c3 = 1251000 c5 = -8495.9 | b1 = .45E-4 b5 = 584.7169 b6 = 370000 b7 = -.271E-4 b8 = 10 | end | nta is probably intended to represent the Na exchange in a solution | model for talc, it is excluded here because it interferes with | with the stability of true Na-compounds. | nta EoS = 8 | H= -6163700. | Na2O(.5)MgO(3)Al2O3(.5)SiO2(3)H2O(1) | GH = -6258512 S0 = 318 V0 = 14.45 | c1 = 773.5 c2 = -.40229E-1 c3 = -2597900 c5 = -6512.6 | b1 = .328E-4 b5 = 509.0324 b6 = 513000 b7 = -.143E-4 b8 = 7.33 | end kao EoS = 8 | H= -4121930. Al2O3(1)SiO2(2)H2O(2) GH = -4182663 S0 = 203.7 V0 = 9.934 c1 = 436.7 c2 = -.34295E-1 c3 = -4055900 c5 = -2699.1 b1 = .251E-4 b5 = 577.3421 b6 = 645000 b7 = -.64E-5 b8 = 4.12 m0 = 226000 m1 = 3.53 m2 = -104.8 end pre EoS = 8 | H= -6202120. Al2O3(1)SiO2(3)CaO(2)H2O(1) GH = -6289418 S0 = 292.8 V0 = 14.026 c1 = 724.9 c2 = -.13865E-1 c3 = -2059000 c5 = -6323.9 b1 = .158E-4 b5 = 521.811 b6 = 1093000 b7 = -.37E-5 b8 = 4.01 m0= 517306.4 m1= 1.0325 m2= -69.8199 k0= 835000 k1= 4 k2= -112.6984 | pre end chr EoS = 8 | H= -4360820. MgO(3)SiO2(2)H2O(2) GH = -4426801 S0 = 221.3 V0 = 10.746 c1 = 624.7 c2 = -.2077E-1 c3 = -1721800 c5 = -5619.4 b1 = .22E-4 b5 = 567.7243 b6 = 628000 b7 = -.64E-5 b8 = 4 m0= 385000 m1= 1.0201 m2= -66.9713 k0= 629000 k1= 6.1 k2= -109.4154 | atg end fstp EoS = 8 | H= -.1255239E+08 Al2O3(1)SiO2(8)K2O(.25)FeO(5)H2O(6.25) GH = -12829730 S0 = 930.2 V0 = 37.239 c1 = 1944.3 c2 = -.12289E-1 c3 = -4840200 c5 = -16635 b1 = .368E-4 b5 = 476.0785 b6 = 513000 b7 = -.143E-4 b8 = 7.33 end mstp EoS = 8 | H= -.1428689E+08 MgO(5)Al2O3(1)SiO2(8)K2O(.25)H2O(6.25) GH = -14539540 S0 = 847.4 V0 = 36.577 c1 = 1862.2 c2 = -.14018E-1 c3 = -8983100 c5 = -14923 b1 = .371E-4 b5 = 508.2801 b6 = 513000 b7 = -.143E-4 b8 = 7.33 end atg EoS = 8 | H= -.7140212E+08 MgO(48)SiO2(34)H2O(31) GH = -72481420 S0 = 3620 V0 = 175.48 c1 = 9621 c2 = -.91183E-1 c3 = -35941600 c5 = -83034.2 b1 = .28E-4 b5 = 563.3516 b6 = 631000 b7 = -.94E-5 b8 = 5.92 m0= 385000 m1= 1.0201 m2= -66.9713 k0= 629000 k1= 6.1 k2= -109.4154 | atg end ab EoS = 8 | H= -3935350. Na2O(.5)Al2O3(.5)SiO2(3) GH = -3997186 S0 = 207.4 V0 = 10.067 c1 = 452 c2 = -.13364E-1 c3 = -1275900 c5 = -3953.6 b1 = .236E-4 b5 = 474.9519 b6 = 541000 b7 = -.109E-4 b8 = 5.91 m0= 360000 m1= 4.2600 m2= -110.4325 k0= 600600 k1= 4 k2= -69.4513 | lAb transition = 1 type = 5 t1 = 14000 t2 = .42E-1 t3 = 13000 t4 = .42E-1 t5 = 3 t6 = .9 end abh EoS = 8 | H= -3921340. Na2O(.5)Al2O3(.5)SiO2(3) GH = -3988215 S0 = 224.3 V0 = 10.105 c1 = 452 c2 = -.13364E-1 c3 = -1275900 c5 = -3953.6 b1 = .241E-4 b5 = 448.8929 b6 = 541000 b7 = -.109E-4 b8 = 5.91 m0= 360000 m1= 4.2600 m2= -110.4325 k0= 600600 k1= 4 k2= -69.5970 | hAb end | the microcline model is excluded [commented out] here, because the model | does not extrapolate plausibly. | mic EoS = 8 | H= -3975390. | Al2O3(.5)SiO2(3)K2O(.5) | GH = -4039284 S0 = 214.3 V0 = 10.871 | c1 = 448.8 c2 = -.10075E-1 c3 = -1007300 c5 = -3973.1 | b1 = .166E-4 b5 = 463.9554 b6 = 583000 b7 = -.69E-5 b8 = 4.02 | m0= 281000 m1= 0.8033 m2= -23.3809 k0= 583000 k1= 4 k2= -48.5092 | or | end san EoS = 8 | H= -3966740. Al2O3(.5)SiO2(3)K2O(.5) GH = -4030634 S0 = 214.3 V0 = 10.871 c1 = 448.8 c2 = -.10075E-1 c3 = -1007300 c5 = -3973.1 b1 = .166E-4 b5 = 463.9554 b6 = 583000 b7 = -.69E-5 b8 = 4.02 m0= 322930 m1= 0.8033 m2= -26.8700 k0= 670000 k1= 4 k2= -55.7481 | san transition = 1 type = 5 t1 = 8650 t2 = .24E-1 t3 = 8500 t4 = .24E-1 t5 = 3 t6 = .8 end an EoS = 8 | H= -4232620. Al2O3(1)SiO2(2)CaO(1) GH = -4292399 S0 = 200.5 V0 = 10.079 c1 = 370.5 c2 = .1001E-1 c3 = -4339100 c5 = -1960.6 b1 = .141E-4 b5 = 486.4823 b6 = 860000 b7 = -.48E-5 b8 = 4.09 m0= 360480 m1= 3.4800 m2= -32.4220 k0= 818600 k1= 4 k2= -48.9594 | an transition = 1 type = 5 t1 = 42010 t2 = .1 t3 = 42000 t4 = .1 t5 = 1 t6 = 2 end q EoS = 8 | H= -910730.0 SiO2(1) GH = -923082.4 S0 = 41.43 V0 = 2.269 c1 = 92.9 c2 = -.642E-3 c3 = -714900 c5 = -716.1 b5 = 525.2346 b6 = 730000 b7 = -.82E-5 b8 = 6 m0= 448538.0025 m1= 1.645295858 m2= -17.5543599 k0= 371254.6662 k1= 8.16916871 k2= -140.80 | qz transition = 1 type = 4 t1 = 847 t2 = 4.95 t3 = .1188 end trd EoS = 8 | H= -907120.0 SiO2(1) GH = -920268.4 S0 = 44.1 V0 = 2.8 c1 = 74.9 c2 = .31E-2 c3 = -1174000 c5 = -236.7 b5 = 503.122 b6 = 150000 b7 = -.291E-4 b8 = 4.36 m0 = 431250 m1 = .46 m2 = -14 end crst EoS = 8 | H= -904270.0 SiO2(1) GH = -919433.9 S0 = 50.86 V0 = 2.745 c1 = 72.7 c2 = .1304E-2 c3 = -4129000 b5 = 454.6594 b6 = 160000 b7 = -.272E-4 b8 = 4.35 m0 = 431250 m1 = .46 m2 = -14 end coe EoS = 8 | H= -907010.0 SiO2(1) GH = -918816.7 S0 = 39.6 V0 = 2.064 c1 = 107.8 c2 = -.3279E-2 c3 = -190300 c5 = -1041.6 b1 = .123E-4 b5 = 541.5479 b6 = 979000 b7 = -.43E-5 b8 = 4.19 m0= 616000 m1= 1.0541 m2= -29.095 k0= 974000 k1= 4.3 k2= -46.004 | coe end stv EoS = 8 | H= -876800.0 SiO2(1) GH = -883955.6 S0 = 24 V0 = 1.401 c1 = 68.1 c2 = .601E-2 c3 = -1978200 c5 = -82.1 b1 = .158E-4 b5 = 736.5651 b6 = 3090000 b7 = -.15E-5 b8 = 4.6 m0 = 2170000 m1 = 1.8 m2 = -180 end ne EoS = 8 | H= -2094770. Na2O(.5)Al2O3(.5)SiO2(1) GH = -2131860 S0 = 124.4 V0 = 5.419 c1 = 272.7 c2 = -.12398E-1 c5 = -2763.1 b1 = .463E-4 b5 = 439.2967 b6 = 465000 b7 = -.89E-5 b8 = 4.16 m0 = 301000 m1 = 4.26 m2 = -70 transition = 1 type = 4 t1 = 467 t2 = 10 t3 = .8E-1 end macf EoS = 8 | H= -2246370. MgO(1)Al2O3(1) GH = -2270222 S0 = 80 V0 = 3.614 c1 = 200 c2 = .6252E-2 c3 = -2996400 c5 = -888.4 b1 = .193E-4 b5 = 595.235 b6 = 2120000 b7 = -.17E-5 b8 = 4 m0= 603000 m1= 0.5265 m2= 2.4 k0= 1909000 k1= 5.2 k2= -512.0973 | mt end mscf EoS = 8 | H= -2061150. MgO(2)SiO2(1) GH = -2087238 S0 = 87.5 V0 = 3.649 c1 = 213.3 c2 = .269E-2 c3 = -1410400 c5 = -1495.9 b1 = .201E-4 b5 = 561.5628 b6 = 1850000 b7 = -.17E-5 b8 = 4 m0= 603000 m1= 0.5265 m2= 2.4 k0= 1909000 k1= 5.2 k2= -512.0973 | mt end fscf EoS = 8 | H= -1402500. SiO2(1)FeO(2) GH = -1445255 S0 = 143.4 V0 = 3.914 c1 = 181.1 c2 = .18526E-1 c3 = -2767200 c5 = -527.1 b1 = .201E-4 b5 = 395.0127 b6 = 1850000 b7 = -.17E-5 b8 = 4 m0= 603000 m1= 0.5265 m2= 2.4 k0= 1909000 k1= 5.2 k2= -512.0973 | mt end nacf EoS = 8 | H= -1965620. Na2O(.5)Al2O3(.5)SiO2(1) GH = -1998416 S0 = 110 V0 = 3.631 c1 = 272.7 c2 = -.12398E-1 c5 = -2763.1 b1 = .21E-4 b5 = 480.0877 b6 = 1850000 b7 = -.25E-5 b8 = 4.6 m0= 603000 m1= 0.5265 m2= 2.4 k0= 1909000 k1= 5.2 k2= -512.0973 | mt end cacf EoS = 8 | H= -2325600. Al2O3(1)CaO(1) GH = -2351718 S0 = 87.6 V0 = 3.976 c1 = 191.9 c2 = .9563E-2 c3 = -3211300 c5 = -640.2 b1 = .193E-4 b5 = 561.1396 b6 = 1900000 b7 = -.21E-5 b8 = 4 m0= 603000 m1= 0.5265 m2= 2.4 k0= 1909000 k1= 5.2 k2= -512.0973 | mt end manal EoS = 8 | H= -6796630. MgO(3)Al2O3(3) GH = -6871167 S0 = 250 V0 = 11.166 c1 = 600 c2 = .18756E-1 c3 = -8989200 c5 = -2665.2 b1 = .193E-4 b5 = 579.784 b6 = 1840000 b7 = -.22E-5 b8 = 4 m0= 1078100 m1= 0.9158 m2= -108.1067 k0= 1962000 k1= 4 k2= -299.4689 | sp end nanal EoS = 8 | H= -6610270. Na2O(.5)MgO(2)Al2O3(2.5)SiO2(1) GH = -6693752 S0 = 280 V0 = 11.322 c1 = 672.7 c2 = .106E-3 c3 = -5992800 c5 = -4539.9 b1 = .201E-4 b5 = 537.8962 b6 = 1840000 b7 = -.22E-5 b8 = 4 m0= 1078100 m1= 0.9158 m2= -108.1067 k0= 1962000 k1= 4 k2= -299.4689 | sp end msnal EoS = 8 | H= -6172380. MgO(6)SiO2(3) GH = -6253626 S0 = 272.5 V0 = 11.061 c1 = 639.9 c2 = .807E-2 c3 = -4231200 c5 = -4487.7 b1 = .21E-4 b5 = 547.7903 b6 = 1850000 b7 = -.22E-5 b8 = 4 m0= 1078100 m1= 0.9158 m2= -108.1067 k0= 1962000 k1= 4 k2= -299.4689 | sp end fsnal EoS = 8 | H= -4146000. SiO2(3)FeO(6) GH = -4277246 S0 = 440.2 V0 = 11.856 c1 = 543.3 c2 = .55578E-1 c3 = -8301600 c5 = -1581.3 b1 = .21E-4 b5 = 388.1482 b6 = 1850000 b7 = -.22E-5 b8 = 4 m0= 1078100 m1= 0.9158 m2= -108.1067 k0= 1962000 k1= 4 k2= -299.4689 | sp end canal EoS = 8 | H= -6840000. MgO(2)Al2O3(3)CaO(1) GH = -6916803 S0 = 257.6 V0 = 11.159 c1 = 591.9 c2 = .22067E-1 c3 = -9204100 c5 = -2417 b1 = .193E-4 b5 = 568.5674 b6 = 1770000 b7 = -.22E-5 b8 = 4 m0= 1078100 m1= 0.9158 m2= -108.1067 k0= 1962000 k1= 4 k2= -299.4689 | sp end kls EoS = 8 | H= -2123010. Al2O3(.5)SiO2(1)K2O(.5) GH = -2163558 S0 = 136 V0 = 6.052 c1 = 242 c2 = -.4482E-2 c3 = -895800 c5 = -1935.8 b1 = .316E-4 b5 = 411.1553 b6 = 514000 b7 = -.39E-5 b8 = 2 m0 = 301000 m1 = 4.26 m2 = -70 end lc EoS = 8 | H= -3029320. Al2O3(.5)SiO2(2)K2O(.5) GH = -3088503 S0 = 198.5 V0 = 8.826 c1 = 369.8 c2 = -.16332E-1 c3 = 684700 c5 = -3683.1 b1 = .185E-4 b5 = 404.5645 b6 = 450000 b7 = -.127E-4 b8 = 5.7 m0 = 301000 m1 = 4.26 m2 = -70 transition = 1 type = 5 t1 = 11610 t2 = .4 t3 = 11600 t4 = .4 t5 = 2 t6 = .7 end me EoS = 8 | H= -.1384162E+08 Al2O3(3)SiO2(6)CaO(4)CO2(1) GH = -14065830 S0 = 752 V0 = 33.985 c1 = 1359 c2 = .36442E-1 c3 = -8594700 c5 = -9598.2 b1 = .181E-4 b5 = 452.0012 b6 = 870000 b7 = -.47E-5 b8 = 4.09 m0= 290000 m1= 0.7454 m2= -23.4917 k0= 648461.2 k1= 4 k2= -52.5292 | scap end wrk EoS = 8 | H= -6662390. Al2O3(1)SiO2(4)CaO(1)H2O(2) GH = -6775687 S0 = 380 V0 = 19.04 c1 = 838.3 c2 = -.2146E-1 c3 = -2272000 c5 = -7292.3 b1 = .149E-4 b5 = 491.4972 b6 = 860000 b7 = -.48E-5 b8 = 4.09 m0= 233766.2 m1= 0.999 m2= -14.1651 k0= 390000 k1= 4 k2= -23.6321 | wrk end lmt EoS = 8 | H= -7262640. Al2O3(1)SiO2(4)CaO(1)H2O(4) GH = -7401280 S0 = 465 V0 = 20.37 c1 = 1013.4 c2 = -.21413E-1 c3 = -2235800 c5 = -8806.7 b1 = .137E-4 b5 = 496.0821 b6 = 860000 b7 = -.48E-5 b8 = 4.09 m0= 233766.2 m1= 0.999 m2= -14.1651 k0= 390000 k1= 4 k2= -23.6321 | lmt end heu EoS = 8 | H= -.1054518E+08 Al2O3(1)SiO2(7)CaO(1)H2O(6) GH = -10778630 S0 = 783 V0 = 31.7 c1 = 1504.8 c2 = -.33224E-1 c3 = -2959300 c5 = -13297.2 b1 = .157E-4 b5 = 453.3338 b6 = 274000 b7 = -.146E-4 b8 = 4 m0 = 612000 m1 = .9714 m2 = -106 end stlb EoS = 8 | H= -.1089672E+08 Al2O3(1)SiO2(7)CaO(1)H2O(7) GH = -11108410 S0 = 710 V0 = 32.87 c1 = 1588.4 c2 = -.32043E-1 c3 = -3071600 c5 = -13966.9 b1 = .151E-4 b5 = 508.175 b6 = 860000 b7 = -.48E-5 b8 = 4.09 m0 = 612000 m1 = .9714 m2 = -106 end anl EoS = 8 | H= -3307080. Na2O(.5)Al2O3(.5)SiO2(2)H2O(1) GH = -3376251 S0 = 232 V0 = 9.74 c1 = 643.5 c2 = -.16067E-1 c3 = 9302300 c5 = -9179.6 b1 = .276E-4 b5 = 437.945 b6 = 400000 b7 = -.104E-4 b8 = 4.18 m0 = 612000 m1 = .9714 m2 = -106 end lime EoS = 8 | H= -634560.0 CaO(1) GH = -645919.5 S0 = 38.1 V0 = 1.676 c1 = 52.4 c2 = .3673E-2 c3 = -750700 c5 = -51 b1 = .341E-4 b5 = 417.2617 b6 = 1130000 b7 = -.34E-5 b8 = 3.87 m0 = 612000 m1 = .9714 m2 = -106 end ru EoS = 8 | H= -944210.0 TiO2(1) GH = -959266.6 S0 = 50.5 V0 = 1.882 c1 = 90.4 c2 = .29E-2 c5 = -623.8 b1 = .224E-4 b5 = 457.0037 b6 = 2220000 b7 = -.19E-5 b8 = 4.24 m0= 1130000 m1= 0.8973 m2= -159.3254 k0= 2098820 k1= 4 k2= -295.9251 | rut end per EoS = 8 | H= -601590.0 MgO(1) GH = -609491 S0 = 26.5 V0 = 1.125 c1 = 60.5 c2 = .362E-3 c3 = -535800 c5 = -299.2 b1 = .311E-4 b5 = 540.1727 b6 = 1616000 b7 = -.24E-5 b8 = 3.95 m0 = 1121400 m1 = .78 m2 = -21 end mang EoS = 8 | H= -385560.0 MnO(1) GH = -403359.6 S0 = 59.7 V0 = 1.322 c1 = 59.8 c2 = .36E-2 c3 = -31400 c5 = -282.6 b1 = .369E-4 b5 = 293.0835 b6 = 1645000 b7 = -.27E-5 b8 = 4.46 m0 = 1121400 m1 = .78 m2 = -21 end cor EoS = 8 | H= -1675170. Al2O3(1) GH = -1690346 S0 = 50.9 V0 = 2.558 c1 = 139.5 c2 = .589E-2 c3 = -2460600 c5 = -589.2 b1 = .18E-4 b5 = 639.9519 b6 = 2540000 b7 = -.17E-5 b8 = 4.34 m0 = 1620000 m1 = 1.8 m2 = -190 end mcor EoS = 8 | H= -1468000. MgO(1)SiO2(1) GH = -1485680 S0 = 59.3 V0 = 2.635 c1 = 147.8 c2 = .2015E-2 c3 = -2395000 c5 = -801.8 b1 = .212E-4 b5 = 581.2022 b6 = 2110000 b7 = -.22E-5 b8 = 4.55 m0 = 1620000 m1 = 1.8 m2 = -190 end hem EoS = 8 | H= -825430.0 FeO(2)O2(.5) GH = -851488.3 S0 = 87.4 V0 = 3.027 c1 = 163.9 c3 = -2257200 c5 = -657.6 b1 = .279E-4 b5 = 444.6488 b6 = 2230000 b7 = -.18E-5 b8 = 4.04 m0 = 915000 m1 = 1.2 m2 = -130 transition = 1 type = 4 t1 = 955 t2 = 15.6 end esk EoS = 8 | H= -1128240. Cr2O3(1) GH = -1152986 S0 = 83 V0 = 2.898 c1 = 119 c2 = .9496E-2 c3 = -1442000 c5 = -3.4 b1 = .159E-4 b5 = 461.6319 b6 = 2450000 b7 = -.15E-5 b8 = 3.6 end NiO EoS = 8 | H= -239470.0 NiO(1) GH = -250799.7 S0 = 38 V0 = 1.097 c1 = 47.7 c2 = .7824E-2 c3 = -392500 b1 = .33E-4 b5 = 418.0818 b6 = 2000000 b7 = -.2E-5 b8 = 3.94 m0 = 915000 m1 = 1.2 m2 = -130 transition = 1 type = 4 t1 = 520 t2 = 5.7 end pnt EoS = 8 | H= -1361760. TiO2(1)MnO(1) GH = -1393215 S0 = 105.5 V0 = 3.288 c1 = 143.5 c2 = .3373E-2 c3 = -1940700 c5 = -407.6 b1 = .24E-4 b5 = 386.2019 b6 = 1700000 b7 = -.49E-5 b8 = 8.3 m0 = 915000 m1 = 1.2 m2 = -130 end geik EoS = 8 | H= -1568780. MgO(1)TiO2(1) GH = -1590724 S0 = 73.6 V0 = 3.086 c1 = 151 c3 = -1890400 c5 = -652.2 b1 = .215E-4 b5 = 502.6465 b6 = 1700000 b7 = -.49E-5 b8 = 8.3 m0 = 1320000 m1 = 1.7 m2 = -170 end ilm EoS = 8 | H= -1232420. TiO2(1)FeO(1) GH = -1264471 S0 = 107.5 V0 = 3.169 c1 = 138.9 c2 = .5081E-2 c3 = -1288800 c5 = -463.7 b1 = .24E-4 b5 = 380.6729 b6 = 1700000 b7 = -.49E-5 b8 = 8.3 transition = 1 type = 4 t1 = 1900 t2 = 12 t3 = .2E-1 m0= 747000 m1= 1.7 m2= -92.7048 k0= 1650000 k1= 3 k2= -204.7696 | ilm end ilm_nol EoS = 8 | H= -1230460. Ilmenite with landau transition suppressed for Ilm(WPH) model. TiO2(1)FeO(1) GH = -1264471 S0 = 107.5 V0 = 3.169 c1 = 138.9 c2 = .5081E-2 c3 = -1288800 c5 = -463.7 b1 = .24E-4 b5 = 380.6729 b6 = 1700000 b7 = -.49E-5 b8 = 8.3 m0= 747000 m1= 1.7 m2= -92.7048 k0= 1650000 k1= 3 k2= -204.7696 | ilm end bdy EoS = 8 | H= -1100310. ZrO2(1) GH = -1115337 S0 = 50.4 V0 = 2.115 c1 = 89.6 c2 = .354E-3 c3 = -853100 c5 = -413.7 b1 = .2E-4 b5 = 457.6592 b6 = 953000 b7 = -.41E-5 b8 = 3.88 m0 = 910000 m1 = 1.7 m2 = -170 end ten EoS = 8 | H= -156100.0 CuO(1) GH = -168801.2 S0 = 42.6 V0 = 1.222 c1 = 31 c2 = .1374E-1 c3 = -1258000 c5 = 369.3 b1 = .357E-4 b5 = 383.4174 b6 = 2000000 b7 = -.2E-5 b8 = 3.94 end cup EoS = 8 | H= -170600.0 O2(-.5)CuO(2) GH = -198149.1 S0 = 92.4 V0 = 2.344 c1 = 110.3 c5 = -674.8 b1 = .333E-4 b5 = 285.6069 b6 = 1310000 b7 = -.43E-5 b8 = 5.7 end sp EoS = 8 | H= -2301010. MgO(1)Al2O3(1) GH = -2325458 S0 = 82 V0 = 3.978 c1 = 222.9 c2 = .6127E-2 c3 = -1686000 c5 = -1551 b1 = .193E-4 b5 = 585.8672 b6 = 1922000 b7 = -.21E-5 b8 = 4.04 m0= 1078100 m1= 0.9158 m2= -108.1067 k0= 1962000 k1= 4 k2= -299.4689 | sp transition = 1 type = 5 t1 = 8000 t3 = 1200 t5 = 2 t6 = .5 end | 0.64d6 0.2 0. 0. 0. 0. 0. 0. 0. 0. => chang & barsch '73, G'? no dG/dT herc EoS = 8 | H= -1952620. Al2O3(1)FeO(1) GH = -1986579 S0 = 113.9 V0 = 4.075 c1 = 216.7 c2 = .5868E-2 c3 = -2430200 c5 = -1178.3 b1 = .206E-4 b5 = 468.3105 b6 = 1922000 b7 = -.21E-5 b8 = 4.04 m0= 845000 m1= 0.6738 m2= -96.6405 k0= 2090084 k1= 4 k2= -239.0376 | herc transition = 1 type = 5 t1 = 18300 t3 = 13600 t5 = 2 t6 = 1 end | 0.64d6 0.2 0. 0. 0. 0. 0. 0. 0. 0. => sp value, chang & barsch '73, no dG/dT mt EoS = 8 | H= -1114250. FeO(3)O2(.5) GH = -1158048 S0 = 146.9 V0 = 4.452 c1 = 262.5 c2 = -.7205E-2 c3 = -1926200 c5 = -1655.7 b1 = .371E-4 b5 = 387.8112 b6 = 1857000 b7 = -.22E-5 b8 = 4.05 m0= 603000 m1= 0.5265 m2= 2.4 k0= 1909000 k1= 5.2 k2= -512.0973 | mt transition = 1 type = 4 t1 = 848 t2 = 35 end mft EoS = 8 | H= -1442220. MgO(1)FeO(2)O2(.5) GH = -1478296 S0 = 121 V0 = 4.457 c1 = 270.5 c2 = -.7505E-2 c3 = -999200 c5 = -2022.4 b1 = .363E-4 b5 = 448.29 b6 = 1857000 b7 = -.22E-5 b8 = 4.05 m0= 603000 m1= 0.5265 m2= 2.4 k0= 1909000 k1= 5.2 k2= -512.0973 | mt transition = 1 type = 4 t1 = 665 t2 = 17 end usp EoS = 8 | H= -1490630. TiO2(1)FeO(2) GH = -1544297 S0 = 180 V0 = 4.682 c1 = -102.6 c2 = .14252 c3 = -9144500 c5 = 5270.7 b1 = .386E-4 b5 = 330.7802 b6 = 1857000 b7 = -.22E-5 b8 = 4.05 m0= 603000.5265 m1= 0.521616966 m2= 2.641969571 k0= 1944819.624 k1= 5.133345592 k2= -366.4946248 | mt end picr EoS = 8 | H= -1760310. MgO(1)Cr2O3(1) GH = -1795581 S0 = 118.3 V0 = 4.356 c1 = 196.1 c2 = .5398E-2 c3 = -3126000 c5 = -616.9 b1 = .18E-4 b5 = 455.6984 b6 = 1922000 b7 = -.21E-5 b8 = 4.04 transition = 1 type = 5 t1 = 8000 t3 = 1200 t5 = 2 t6 = .5 m0= 1078100 m1= 0.9158 m2= -108.1067 k0= 1962000 k1= 4 k2= -299.4689 | sp end | 0.64d6 0.2 0. 0. 0. 0. 0. 0. 0. 0. => sp value, chang & barsch '73, no dG/dT br EoS = 8 | H= -925610.0 MgO(1)H2O(1) GH = -944453.1 S0 = 63.2 V0 = 2.463 c1 = 158.4 c2 = -.4076E-2 c3 = -1052300 c5 = -1171.3 b1 = .62E-4 b5 = 557.4423 b6 = 415000 b7 = -.155E-4 b8 = 6.45 m0= 352000 m1= 3.4 m2= -106.6932 k0= 432000 k1= 6.8 k2= -130.9416 | br end dsp EoS = 8 | H= -999790.0 Al2O3(.5)H2O(.5) GH = -1010076 S0 = 34.5 V0 = 1.786 c1 = 145.1 c2 = .8709E-2 c3 = 584400 c5 = -1741.1 b1 = .357E-4 b5 = 706.0073 b6 = 2280000 b7 = -.18E-5 b8 = 4.04 m0 = 352000 m1 = 3.4 m2 = -105 end gth EoS = 8 | H= -561680.0 FeO(1)O2(.25)H2O(.5) GH = -579658.4 S0 = 60.3 V0 = 2.082 c1 = 139.3 c2 = .147E-3 c3 = -212700 c5 = -1077.8 b1 = .435E-4 b5 = 494.3528 b6 = 2500000 b7 = -.16E-5 b8 = 4.03 m0 = 352000 m1 = 3.4 m2 = -105 end cc EoS = 8 | H= -1207770. CaO(1)CO2(1) GH = -1235349 S0 = 92.5 V0 = 3.689 c1 = 140.9 c2 = .5029E-2 c3 = -950700 c5 = -858.4 b1 = .252E-4 b5 = 426.4635 b6 = 733000 b7 = -.55E-5 b8 = 4.06 m0= 320000 m1= 0.726 m2= -36.7245 k0= 734600 k1= 4 k2= -84.3056 | cc transition = 1 type = 4 t1 = 1240 t2 = 10 t3 = .4E-1 end arag EoS = 8 | H= -1207670. CaO(1)CO2(1) GH = -1234444 S0 = 89.8 V0 = 3.415 c1 = 167.1 c2 = .10695E-1 c3 = 162000 c5 = -1564.9 b1 = .614E-4 b5 = 435.9016 b6 = 614000 b7 = -.96E-5 b8 = 5.87 m0= 385000 m1= 0.9526 m2= -127.035 k0= 673584.7 k1= 4 k2= -222.2567 | arag transition = 1 type = 4 t1 = 1240 t2 = 9 t3 = .4E-1 | added from hpha02 end mag EoS = 8 | H= -1110890. MgO(1)CO2(1) GH = -1130419 S0 = 65.5 V0 = 2.803 c1 = 186.4 c2 = -.3772E-2 c5 = -1886.2 b1 = .338E-4 b5 = 544.3193 b6 = 1028000 b7 = -.53E-5 b8 = 5.41 m0= 580000 m1= 0.9955 m2= -68.327 k0= 971000 k1= 5.44 k2= -114.3889 | mag end sid EoS = 8 | H= -762160.0 FeO(1)CO2(1) GH = -789977.4 S0 = 93.3 V0 = 2.943 c1 = 168.4 c5 = -1483.6 b1 = .439E-4 b5 = 423.745 b6 = 1200000 b7 = -.34E-5 b8 = 4.07 m0= 580000.9955 m1= 0.976802367 m2= -72.9503713 k0= 983469.4306 k1= 5.407419015 k2= -52.90167863 | mag end rhc EoS = 8 | H= -892280.0 MnO(1)CO2(1) GH = -921498.7 S0 = 98 V0 = 3.107 c1 = 169.5 c5 = -1534.3 b1 = .244E-4 b5 = 408.4485 b6 = 953000 b7 = -.41E-5 b8 = 3.88 m0= 580000.9955 m1= 0.976802367 m2= -72.9503713 k0= 983469.4306 k1= 5.407419015 k2= -52.90167863 | mag end dol EoS = 8 | H= -2326220. MgO(1)CaO(1)CO2(2) GH = -2372761 S0 = 156.1 V0 = 6.429 c1 = 358.9 c2 = -.4905E-2 c5 = -3456.2 b1 = .328E-4 b5 = 482.3583 b6 = 943000 b7 = -.4E-5 b8 = 3.74 m0 = 457000 m1 = .8829 m2 = -143.88 transition = 1 type = 5 t1 = 11910 t2 = .16E-1 t3 = 11900 t4 = .16E-1 t5 = 1 t6 = 1 end ank EoS = 8 | H= -1971360. CaO(1)FeO(1)CO2(2) GH = -2027549 S0 = 188.46 V0 = 6.606 c1 = 341 c2 = -.1161E-2 c5 = -3054.8 b1 = .346E-4 b5 = 420.628 b6 = 914000 b7 = -.43E-5 b8 = 3.88 m0 = 457000 m1 = .8829 m2 = -143.88 transition = 1 type = 5 t1 = 11910 t2 = .16E-1 t3 = 11900 t4 = .16E-1 t5 = 1 t6 = 1 end syv EoS = 8 | H= -436500.0 K2O(.5)Cl2(.5)O2(-.25) GH = -461127.2 S0 = 82.6 V0 = 3.752 c1 = 46.2 c2 = .1797E-1 b1 = .1109E-3 b5 = 222.7901 b6 = 170000 b7 = -.294E-4 b8 = 5 m0 = 457000 m1 = .8829 m2 = -143.88 end hlt EoS = 8 | H= -411300.0 Na2O(.5)Cl2(.5)O2(-.25) GH = -432796.6 S0 = 72.1 V0 = 2.702 c1 = 45.2 c2 = .1797E-1 b1 = .1147E-3 b5 = 250.3177 b6 = 238000 b7 = -.21E-4 b8 = 5 m0 = 457000 m1 = .8829 m2 = -143.88 end pyr EoS = 8 | H= -171640.0 FeO(1)O2(-.5)S2(1) GH = -187412.1 S0 = 52.9 V0 = 2.394 c1 = 37.3 c2 = .26715E-1 c3 = -1817000 c5 = 649.3 b1 = .31E-4 b5 = 441.8167 b6 = 1395000 b7 = -.29E-5 b8 = 4.09 end trot EoS = 8 | H= -99030.00 FeO(1)O2(-.5)S2(.5) GH = -118558.8 S0 = 65.5 V0 = 1.819 c1 = 50.2 c2 = .11052E-1 c3 = -940000 b1 = .568E-4 b5 = 271.3958 b6 = 658000 b7 = -.63E-5 b8 = 4.17 transition = 1 type = 4 t1 = 598 t2 = 12 t3 = .41E-1 end tro EoS = 8 | H= -97760.00 FeO(1)O2(-.5)S2(.5) GH = -118869 S0 = 70.8 V0 = 1.819 c1 = 50.2 c2 = .11052E-1 c3 = -940000 b1 = .573E-4 b5 = 254.2065 b6 = 658000 b7 = -.63E-5 b8 = 4.17 transition = 1 type = 4 t1 = 598 t2 = 12 t3 = .41E-1 end lot EoS = 8 | H= -102160.0 FeO(1)O2(-.5)S2(.5) GH = -120049 S0 = 60 V0 = 1.818 c1 = 50.2 c2 = .11052E-1 c3 = -940000 b1 = .493E-4 b5 = 291.8771 b6 = 658000 b7 = -.63E-5 b8 = 4.17 transition = 1 type = 4 t1 = 420 t2 = 10 end trov EoS = 8 | H= -96020.00 FeO(.88)O2(-.44)S2(.5) GH = -113163.6 S0 = 57.5 V0 = 1.738 c1 = 51.1 c2 = .8307E-2 c3 = -669700 b1 = .594E-4 b5 = 286.6331 b6 = 658000 b7 = -.63E-5 b8 = 4.17 transition = 1 type = 4 t1 = 595 t2 = 10 t3 = .16E-1 end iron EoS = 8 | H= 0.000000 FeO(1)O2(-.5) GH = -8076.883 S0 = 27.09 V0 = .709 c1 = 46.2 c2 = .5159E-2 c3 = 723100 c5 = -556.2 b1 = .356E-4 b5 = 317.2085 b6 = 1640000 b7 = -.31E-5 b8 = 5.16 m0 = 457000 m1 = .8829 m2 = -143.88 transition = 1 type = 4 t1 = 1042 t2 = 8.3 end Ni EoS = 8 | H= 0.000000 NiO(1)O2(-.5) GH = -8905.74 S0 = 29.87 V0 = .659 c1 = 49.8 c3 = 585900 c5 = -533.9 b1 = .428E-4 b5 = 292.9221 b6 = 1905000 b7 = -.22E-5 b8 = 4.25 m0 = 457000 m1 = .8829 m2 = -143.88 transition = 1 type = 4 t1 = 631 t2 = 3 end Cu EoS = 8 | H= 0.000000 O2(-.5)CuO(1) GH = -9880.691 S0 = 33.14 V0 = .711 c1 = 12.4 c2 = .922E-2 c3 = -379900 c5 = 233.5 b1 = .358E-4 b5 = 268.7216 b6 = 1625000 b7 = -.26E-5 b8 = 4.24 m0 = 457000 m1 = .8829 m2 = -143.88 end gph EoS = 8 | H= 0.000000 O2(-1)CO2(1) GH = -1717.344 S0 = 5.76 V0 = .53 c1 = 34.3 c3 = -240700 c5 = -403.8 b1 = .165E-4 b5 = 871.8033 b6 = 312000 b7 = -.125E-4 b8 = 3.9 m0 = 457000 m1 = .8829 m2 = -143.88 end diam EoS = 8 | H= 1890.000 O2(-1)CO2(1) GH = 1186.366 S0 = 2.36 V0 = .342 c1 = 40 c3 = -28500 c5 = -580.5 b1 = .4E-5 b5 = 1208.636 b6 = 4465000 b7 = -.36E-6 b8 = 1.61 m0 = 457000 m1 = .8829 m2 = -143.88 end H2O EoS = 1 | H= -241810.0 H2O(1) GH = -298100.7 S0 = 188.8 c1 = 40.1 c2 = .8656E-2 c3 = 487500 c5 = -251.2 b5 = 153.3154 m0 = .1E-15 end CO2 EoS = 1 | H= -393510.0 CO2(1) GH = -457224.7 S0 = 213.7 c1 = 87.8 c2 = -.2644E-2 c3 = 706400 c5 = -998.9 b5 = 136.9325 m0 = .1E-15 end CO EoS = 1 | H= -110530.0 O2(-.5)CO2(1) GH = -169465.3 S0 = 197.67 c1 = 45.7 c2 = -.97E-4 c3 = 662700 c5 = -414.7 b5 = 101.0306 m0 = .1E-15 end CH4 EoS = 1 | H= -74810.00 O2(-2)H2O(2)CO2(1) GH = -130343.4 S0 = 186.26 c1 = 150.1 c2 = .2063E-2 c3 = 3427700 c5 = -2650.4 b5 = 243.4313 m0 = .1E-15 end O2 EoS = 1 | H= 0.000000 O2(1) GH = -61180.38 S0 = 205.2 c1 = 48.3 c2 = -.691E-3 c3 = 499200 c5 = -420.7 b5 = 97.54219 m0 = .1E-15 end H2 EoS = 1 | H= 0.000000 O2(-.5)H2O(1) GH = -38968.2 S0 = 130.7 c1 = 23.3 c2 = .4627E-2 c5 = 76.3 b5 = 148.1543 m0 = .1E-15 end S2 EoS = 1 | H= 128540.0 S2(1) GH = 59667.35 S0 = 231 c1 = 37.1 c2 = .2398E-2 c3 = -161000 c5 = -65 b5 = 87.22322 m0 = .1E-15 end H2S EoS = 1 | H= -20300.00 O2(-.5)H2O(1)S2(.5) GH = -81650.32 S0 = 205.77 c1 = 47.4 c2 = .1024E-1 c3 = 615900 c5 = -397.8 b5 = 141.7566 m0 = .1E-15 end syvL EoS = 9 | H= -417410.0 K2O(.5)Cl2(.5)O2(-.25) GH = -445585.2 S0 = 94.5 V0 = 3.822 c1 = 66.9 b1 = .301E-3 b5 = -20 b6 = 56000 b7 = -.83E-4 b8 = 4.65 m0 = .1E-15 end hltL EoS = 9 | H= -392990.0 Na2O(.5)Cl2(.5)O2(-.25) GH = -416871.8 S0 = 80.1 V0 = 2.938 c1 = 72 c2 = -.3223E-2 b1 = .295E-3 b5 = -15 b6 = 64000 b7 = -.72E-4 b8 = 4.61 m0 = .1E-15 end perL EoS = 9 | H= -654190.0 MgO(1) GH = -635019 S0 = -64.3 V0 = .839 c1 = 99 b1 = .226E-3 b5 = -41 b6 = 362000 b7 = -.278E-4 b8 = 10.06 m0 = .1E-15 end limL EoS = 9 | H= -692320.0 CaO(1) GH = -678157.9 S0 = -47.5 V0 = 1.303 c1 = 99 b1 = .175E-3 b5 = -41 b6 = 362000 b7 = -.278E-4 b8 = 10.06 m0 = .1E-15 end corL EoS = 9 | H= -1632150. Al2O3(1) GH = -1636592 S0 = 14.9 V0 = 3.369 c1 = 157.6 b1 = .703E-4 b5 = -35 b6 = 150000 b7 = .4E-4 b8 = 6 m0 = .1E-15 end eskL EoS = 9 | H= -1062250. Cr2O3(1) GH = -1081123 S0 = 63.3 V0 = 3.709 c1 = 157.6 b1 = .703E-4 b5 = -35 b6 = 150000 b7 = .4E-4 b8 = 6 m0 = .1E-15 end hemL EoS = 9 | H= -875140.0 FeO(2)O2(.5) GH = -865241.4 S0 = -33.2 V0 = 3.2208 c1 = 229 b1 = .1953E-3 b5 = -46 b6 = 230000 b7 = -.174E-4 b8 = 4 m0 = .1E-15 end qL EoS = 9 | H= -921080.0 SiO2(1) GH = -925939.8 S0 = 16.3 V0 = 2.73 c1 = 82.5 b5 = -35 b6 = 220000 b7 = -.43E-4 b8 = 9.46 m0 = .1E-15 end h2oL EoS = 9 | H= -295000.0 H2O(1) GH = -308565.8 S0 = 45.5 V0 = 1.39 c1 = 80 b1 = .521E-3 b5 = -3.7 b6 = 50600 b7 = -.79E-4 b8 = 4 m0 = .1E-15 end foL EoS = 9 | H= -2237250. MgO(2)SiO2(1) GH = -2218765 S0 = -62 V0 = 4.312 c1 = 269.4 b1 = .92E-4 b5 = -44 b6 = 362000 b7 = -.278E-4 b8 = 10.06 m0 = .1E-15 end faL EoS = 9 | H= -1462850. SiO2(1)FeO(2) GH = -1491472 S0 = 96 V0 = 4.677 c1 = 243.7 b1 = .1071E-3 b5 = -55 b6 = 290000 b7 = -.359E-4 b8 = 10.42 m0 = .1E-15 end woL EoS = 9 | H= -1642590. SiO2(1)CaO(1) GH = -1649298 S0 = 22.5 V0 = 3.985 c1 = 167.4 b1 = .669E-4 b5 = -20 b6 = 325000 b7 = -.308E-4 b8 = 9.38 m0 = .1E-15 end enL EoS = 9 | H= -3096450. MgO(2)SiO2(2) GH = -3095257 S0 = -4 V0 = 6.984 c1 = 353.6 b1 = .681E-4 b5 = -24 b6 = 218000 b7 = -.33E-4 b8 = 7.2 m0 = .1E-15 end diL EoS = 9 | H= -3193840. MgO(1)SiO2(2)CaO(1) GH = -3206392 S0 = 42.1 V0 = 7.288 c1 = 334 b1 = .851E-4 b5 = -37.3 b6 = 249000 b7 = -.323E-4 b8 = 8.04 m0 = .1E-15 end silL EoS = 9 | H= -2593310. Al2O3(1)SiO2(1) GH = -2596291 S0 = 10 V0 = 6.051 c1 = 253 b1 = .408E-4 b5 = -29 b6 = 220000 b7 = -.289E-4 b8 = 6.36 m0 = .1E-15 end anL EoS = 9 | H= -4277900. Al2O3(1)SiO2(2)CaO(1) GH = -4286546 S0 = 29 V0 = 10.014 c1 = 430 b1 = .514E-4 b5 = -55 b6 = 210000 b7 = -.304E-4 b8 = 6.38 m0 = .1E-15 end kspL EoS = 9 | H= -3985230. Al2O3(.5)SiO2(3)K2O(.5) GH = -4023751 S0 = 129.2 V0 = 11.431 c1 = 368 b1 = .493E-4 b5 = -9 b6 = 173000 b7 = -.393E-4 b8 = 6.84 m0 = .1E-15 end abL EoS = 9 | H= -3926390. Na2O(.5)Al2O3(.5)SiO2(3) GH = -3971083 S0 = 149.9 V0 = 10.858 c1 = 358 b1 = .337E-4 b5 = -26 b6 = 176000 b7 = -.815E-4 b8 = 14.35 m0 = .1E-15 end neL EoS = 9 | H= -2116940. Na2O(.5)Al2O3(.5)SiO2(1) GH = -2132712 S0 = 52.9 V0 = 5.2 c1 = 216.5 b1 = .137E-3 b5 = -8 b6 = 250000 b7 = -.295E-4 b8 = 7.37 m0 = .1E-15 end lcL EoS = 9 | H= -3068450. Al2O3(.5)SiO2(2)K2O(.5) GH = -3098861 S0 = 102 V0 = 8.59 c1 = 287 b1 = .67E-4 b5 = 639.1827 b6 = 175000 b7 = -.394E-4 b8 = 7 m0 = .1E-15 end