dataset of thermodynamic data for gwb programs dataset format: jul22 activity model: sit fugacity model: tsonopoulos * * ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ * ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ * * This is the NEA's SIT model thermodynamic dataset, version 1.0, released in * November 2018. The PhreeqC dataset NEA_TDB_phreeqc_Nov2018.dat, available * from oecd-nea.org/dbtdb/tdbdata/, was converted to GWB format using TEdit * in GWB Release 15. * * Countries participating in the NEA Thermochemical Database (TDB) Project: * Belgium, Canada, Czech Republic, Finland, France, Germany, Japan, Spain, * Sweden, Switzerland, United Kingdom, United States * * Please send comments to tdb@oecd-nea.org * * * Notes: * * The temperature dependence of log Ks is described with a polynomial * containing up to six coefficients a-f spread over two lines: * * log K = a + b*(Tk-Tr) + c*(Tk2-Tr2) + d*(1/Tk - 1/Tr) + e*(1/Tk2 - 1/Tr2) * + f*ln(Tk/Tr) * * where Tk is absolute temperature and Tr is 298.15 K. Hence, if c-f are * zero (or omitted), then b is the first temperature derivative. * * GWB Log K polynomial coefficients a-f were converted from coefficients * A1-A6 in PhreeqC's analytic expression as follows: * * a= log10 K(298.15 K) = A1 + A2*Tr + A3/Tr + A4*log10(Tr) + A5/Tr2 + A6*Tr2 * b= A2 * c= A6 * d= A3 * e= A5 * f= A4/ln(10) * * Lacking an analytical expression, the log K at 25 C in PhreeqC was used, * with the standard enthalpy change when available, as follows: * * a= log10 K(298.15 K) * b= 0 * c= 0 * d= -delta_h/(R*ln(10)) * e= 0 * f= 0 * * where delta_h is the standard enthalpy of reaction in kJ/mol and R is the * gas constant in kJ/(mol K). * * A temperature range of validity may optionally be set for each reaction. * If no range is set, the span of the principal temperatures is assumed. * * The principal temperatures and constants in the header section * (Debye-Huckel A and B, pressures) are taken from the GWB's thermo.tdat. The * original PhreeqC dataset does not indicate the temperature range over which * the dataset should be used. * * Species O2 has been renamed O2(aq), as expected by the GWB programs. * * Species' names have been converted to the GWB format. For example, Ca++ replaces * Ca+2. * * Several fictitious elements used in organic compounds in the basis species * section have been removed and replaced with actual elements. For example, * the basis species Cn- (cyanide) is now composed of 1 C and 1 N, rather than * 1 Cn. * * Suffixes (e.g. (aq) and (s)) have been added where species names were duplicated. * * Formulae have been added for many species and minerals (e.g. CH3COO- for Acetate-). * * Oxide components have been added. * * Factors have been added for evaluating gas fugacity coefficients. * * To the best of our knowledge, this dataset is not subject to copyright. * * ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ * ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ * temperatures 0.0000 25.0000 60.0000 100.0000 150.0000 200.0000 250.0000 300.0000 * pressures 1.0134 1.0134 1.0134 1.0134 4.7600 15.5490 39.7760 85.9270 * debye huckel a (adh) .4913 .5092 .5450 .5998 .6898 .8099 .9785 1.2555 * debye huckel b (bdh) .3247 .3283 .3343 .3422 .3533 .3655 .3792 .3965 48 elements Silver (Ag) mole wt.= 107.8682 g Aluminum (Al) mole wt.= 26.9815 g Americium (Am) mole wt.= 243.0000 g Arsenic (As) mole wt.= 74.9216 g Boron (B ) mole wt.= 10.8100 g Barium (Ba) mole wt.= 137.3270 g Bromine (Br) mole wt.= 79.9040 g Calcium (Ca) mole wt.= 40.0780 g Cadmium (Cd) mole wt.= 112.4140 g Chlorine (Cl) mole wt.= 35.4530 g Cobalt (Co) mole wt.= 58.9332 g Chromium (Cr) mole wt.= 51.9961 g Cesium (Cs) mole wt.= 132.9054 g Copper (Cu) mole wt.= 63.5460 g Fluorine (F ) mole wt.= 18.9984 g Iron (Fe) mole wt.= 55.8450 g Gallium (Ga) mole wt.= 69.7230 g Germanium (Ge) mole wt.= 72.6300 g Mercury (Hg) mole wt.= 200.5920 g Iodine (I ) mole wt.= 126.9045 g Indium (In) mole wt.= 114.8180 g Hydrogen (H ) mole wt.= 1.0079 g Potassium (K ) mole wt.= 39.0983 g Lithium (Li) mole wt.= 6.9410 g Magnesium (Mg) mole wt.= 24.3050 g Manganese (Mn) mole wt.= 54.9380 g Sodium (Na) mole wt.= 22.9898 g Nickel (Ni) mole wt.= 58.6934 g Neptunium (Np) mole wt.= 237.0000 g Oxygen (O ) mole wt.= 15.9990 g Phosphorus (P ) mole wt.= 30.9738 g Lead (Pb) mole wt.= 207.2000 g Plutonium (Pu) mole wt.= 244.0000 g Rubidium (Rb) mole wt.= 85.4678 g Carbon (C ) mole wt.= 12.0112 g Nitrogen (N ) mole wt.= 14.0070 g Sulfur (S ) mole wt.= 32.0640 g Selenium (Se) mole wt.= 78.9710 g Silicon (Si) mole wt.= 28.0860 g Tin (Sn) mole wt.= 118.7100 g Strontium (Sr) mole wt.= 87.6200 g Technetium (Tc) mole wt.= 98.0000 g Tellurium (Te) mole wt.= 127.6000 g Thorium (Th) mole wt.= 232.0377 g Thallium (Tl) mole wt.= 204.3800 g Uranium (U ) mole wt.= 238.0289 g Zinc (Zn) mole wt.= 65.3800 g Zirconium (Zr) mole wt.= 91.2240 g -end- 55 basis species H2O charge= 0 ion size= 0.0 A mole wt.= 18.0148 g 2 elements in species 2.000 H 1.000 O O2(aq) charge= 0 ion size= 0.0 A mole wt.= 31.9980 g 1 elements in species 2.000 O Ag+ charge= 1 ion size= 0.0 A mole wt.= 107.8682 g 1 elements in species 1.000 Ag Al+++ charge= 3 ion size= 0.0 A mole wt.= 26.9815 g 1 elements in species 1.000 Al Am+++ charge= 3 ion size= 0.0 A mole wt.= 243.0000 g 1 elements in species 1.000 Am AsO4--- charge= -3 ion size= 0.0 A mole wt.= 138.9176 g 2 elements in species 1.000 As 4.000 O B(OH)4- charge= -1 ion size= 0.0 A mole wt.= 78.8376 g 3 elements in species 1.000 B 4.000 H 4.000 O Ba++ charge= 2 ion size= 0.0 A mole wt.= 137.3270 g 1 elements in species 1.000 Ba Br- charge= -1 ion size= 0.0 A mole wt.= 79.9040 g 1 elements in species 1.000 Br CO3-- charge= -2 ion size= 0.0 A mole wt.= 60.0082 g 2 elements in species 1.000 C 3.000 O Ca++ charge= 2 ion size= 0.0 A mole wt.= 40.0780 g 1 elements in species 1.000 Ca Cd++ charge= 2 ion size= 0.0 A mole wt.= 112.4140 g 1 elements in species 1.000 Cd Cit--- formula= COOCH2COHCOOCH2COO--- charge= -3 ion size= 0.0 A mole wt.= 189.0997 g 3 elements in species 6.000 C 5.000 H 7.000 O Cl- charge= -1 ion size= 0.0 A mole wt.= 35.4530 g 1 elements in species 1.000 Cl Cn- formula= CN- charge= -1 ion size= 0.0 A mole wt.= 26.0182 g 2 elements in species 1.000 C 1.000 N Co++ charge= 2 ion size= 0.0 A mole wt.= 58.9332 g 1 elements in species 1.000 Co CrO4-- charge= -2 ion size= 0.0 A mole wt.= 115.9921 g 2 elements in species 1.000 Cr 4.000 O Cs+ charge= 1 ion size= 0.0 A mole wt.= 132.9054 g 1 elements in species 1.000 Cs Cu++ charge= 2 ion size= 0.0 A mole wt.= 63.5460 g 1 elements in species 1.000 Cu Edta---- formula= (CH2COO)4N(CH2)2N---- charge= -4 ion size= 0.0 A mole wt.= 288.2128 g 4 elements in species 10.000 C 12.000 H 2.000 N 8.000 O F- charge= -1 ion size= 0.0 A mole wt.= 18.9984 g 1 elements in species 1.000 F Fe++ charge= 2 ion size= 0.0 A mole wt.= 55.8450 g 1 elements in species 1.000 Fe Ga+++ charge= 3 ion size= 0.0 A mole wt.= 69.7230 g 1 elements in species 1.000 Ga Ge++ charge= 2 ion size= 0.0 A mole wt.= 72.6300 g 1 elements in species 1.000 Ge H+ charge= 1 ion size= 0.0 A mole wt.= 1.0079 g 1 elements in species 1.000 H H2(PO4)- charge= -1 ion size= 0.0 A mole wt.= 96.9856 g 3 elements in species 2.000 H 4.000 O 1.000 P Hg++ charge= 2 ion size= 0.0 A mole wt.= 200.5920 g 1 elements in species 1.000 Hg IO3- charge= -1 ion size= 0.0 A mole wt.= 174.9015 g 2 elements in species 1.000 I 3.000 O In+++ charge= 3 ion size= 0.0 A mole wt.= 114.8180 g 1 elements in species 1.000 In Isa- formula= C6H11O6- charge= -1 ion size= 0.0 A mole wt.= 179.1481 g 3 elements in species 6.000 C 11.000 H 6.000 O K+ charge= 1 ion size= 0.0 A mole wt.= 39.0983 g 1 elements in species 1.000 K Li+ charge= 1 ion size= 0.0 A mole wt.= 6.9410 g 1 elements in species 1.000 Li Mg++ charge= 2 ion size= 0.0 A mole wt.= 24.3050 g 1 elements in species 1.000 Mg Mn++ charge= 2 ion size= 0.0 A mole wt.= 54.9380 g 1 elements in species 1.000 Mn NO3- charge= -1 ion size= 0.0 A mole wt.= 62.0040 g 2 elements in species 1.000 N 3.000 O Na+ charge= 1 ion size= 0.0 A mole wt.= 22.9898 g 1 elements in species 1.000 Na Ni++ charge= 2 ion size= 0.0 A mole wt.= 58.6934 g 1 elements in species 1.000 Ni NpO2+ charge= 1 ion size= 0.0 A mole wt.= 268.9980 g 2 elements in species 1.000 Np 2.000 O Ox-- formula= (COO)2-- charge= -2 ion size= 0.0 A mole wt.= 88.0184 g 2 elements in species 2.000 C 4.000 O Pb++ charge= 2 ion size= 0.0 A mole wt.= 207.2000 g 1 elements in species 1.000 Pb PuO2++ charge= 2 ion size= 0.0 A mole wt.= 275.9980 g 2 elements in species 2.000 O 1.000 Pu Rb+ charge= 1 ion size= 0.0 A mole wt.= 85.4678 g 1 elements in species 1.000 Rb SO4-- charge= -2 ion size= 0.0 A mole wt.= 96.0600 g 2 elements in species 4.000 O 1.000 S Scn- formula= SCN- charge= -1 ion size= 0.0 A mole wt.= 58.0822 g 3 elements in species 1.000 C 1.000 N 1.000 S SeO4-- charge= -2 ion size= 0.0 A mole wt.= 142.9670 g 2 elements in species 4.000 O 1.000 Se Si(OH)4 charge= 0 ion size= 0.0 A mole wt.= 96.1136 g 3 elements in species 4.000 H 4.000 O 1.000 Si Sn++ charge= 2 ion size= 0.0 A mole wt.= 118.7100 g 1 elements in species 1.000 Sn Sr++ charge= 2 ion size= 0.0 A mole wt.= 87.6200 g 1 elements in species 1.000 Sr TcO(OH)2 charge= 0 ion size= 0.0 A mole wt.= 148.0128 g 3 elements in species 2.000 H 3.000 O 1.000 Tc Te++ charge= 2 ion size= 0.0 A mole wt.= 127.6000 g 1 elements in species 1.000 Te Th++++ charge= 4 ion size= 0.0 A mole wt.= 232.0377 g 1 elements in species 1.000 Th Tl+ charge= 1 ion size= 0.0 A mole wt.= 204.3800 g 1 elements in species 1.000 Tl UO2++ charge= 2 ion size= 0.0 A mole wt.= 270.0269 g 2 elements in species 2.000 O 1.000 U Zn++ charge= 2 ion size= 0.0 A mole wt.= 65.3800 g 1 elements in species 1.000 Zn Zr++++ charge= 4 ion size= 0.0 A mole wt.= 91.2240 g 1 elements in species 1.000 Zr -end- 34 redox couples Am++ charge= 2 ion size= 0.0 A mole wt.= 243.0000 g 2 species in reaction 1.000 Am+++ 1.000 e- * log10 K(298 K) = 38.8780 a= 38.878 b= 0 c= 0 d= 0 e= 0 f= 0 AmO2+ charge= 1 ion size= 0.0 A mole wt.= 274.9980 g 4 species in reaction -2.000 e- 2.000 H2O 1.000 Am+++ -4.000 H+ * log10 K(298 K) = 58.3706 a= 58.37062101 b= 0 c= 0 d= 20062.82 e= 0 f= 0 AmO2++ charge= 2 ion size= 0.0 A mole wt.= 274.9980 g 4 species in reaction 1.000 Am+++ -4.000 H+ -3.000 e- 2.000 H2O * log10 K(298 K) = 85.3492 a= 85.34919552 b= 0 c= 0 d= 28080.63 e= 0 f= 0 BrO- charge= -1 ion size= 0.0 A mole wt.= 95.9030 g 4 species in reaction -2.000 e- 1.000 H2O -2.000 H+ 1.000 Br- * log10 K(298 K) = 54.1160 a= 54.116 b= 0 c= 0 d= 0 e= 0 f= 0 BrO3- charge= -1 ion size= 0.0 A mole wt.= 127.9010 g 4 species in reaction -6.000 e- 3.000 H2O -6.000 H+ 1.000 Br- * log10 K(298 K) = 146.1690 a= 146.169 b= 0 c= 0 d= 0 e= 0 f= 0 ClO- charge= -1 ion size= 0.0 A mole wt.= 51.4520 g 4 species in reaction -2.000 e- 1.000 H2O -2.000 H+ 1.000 Cl- * log10 K(298 K) = 57.9340 a= 57.934 b= 0 c= 0 d= 0 e= 0 f= 0 ClO2- charge= -1 ion size= 0.0 A mole wt.= 67.4510 g 4 species in reaction -4.000 e- 2.000 H2O -4.000 H+ 1.000 Cl- * log10 K(298 K) = 107.8740 a= 107.874 b= 0 c= 0 d= 0 e= 0 f= 0 ClO3- charge= -1 ion size= 0.0 A mole wt.= 83.4500 g 4 species in reaction -6.000 e- 3.000 H2O -6.000 H+ 1.000 Cl- * log10 K(298 K) = 146.2380 a= 146.238 b= 0 c= 0 d= 0 e= 0 f= 0 ClO4- charge= -1 ion size= 0.0 A mole wt.= 99.4490 g 4 species in reaction -8.000 e- 4.000 H2O -8.000 H+ 1.000 Cl- * log10 K(298 K) = 188.0900 a= 188.09 b= 0 c= 0 d= 0 e= 0 f= 0 Fe+++ charge= 3 ion size= 0.0 A mole wt.= 55.8450 g 2 species in reaction -1.000 e- 1.000 Fe++ * log10 K(298 K) = 13.0510 a= 13.051 b= 0 c= 0 d= 0 e= 0 f= 0 H2 charge= 0 ion size= 0.0 A mole wt.= 2.0158 g 2 species in reaction 2.000 H+ 2.000 e- * log10 K(298 K) = 3.0800 a= 3.080002521 b= 0 c= 0 d= -219.381 e= 0 f= 0 I- charge= -1 ion size= 0.0 A mole wt.= 126.9045 g 4 species in reaction 1.000 IO3- 6.000 H+ 6.000 e- -3.000 H2O * log10 K(298 K) = -111.5630 a= -111.563 b= 0 c= 0 d= 0 e= 0 f= 0 N3- charge= -1 ion size= 0.0 A mole wt.= 42.0210 g 4 species in reaction 3.000 NO3- 16.000 e- -9.000 H2O 18.000 H+ * log10 K(298 K) = -254.6720 a= -254.672 b= 0 c= 0 d= 0 e= 0 f= 0 NH4+ charge= 1 ion size= 0.0 A mole wt.= 18.0386 g 4 species in reaction 1.000 NO3- 10.000 H+ 8.000 e- -3.000 H2O * log10 K(298 K) = -119.1340 a= -119.134 b= 0 c= 0 d= 0 e= 0 f= 0 Np+++ charge= 3 ion size= 0.0 A mole wt.= 237.0000 g 4 species in reaction 4.000 H+ 1.000 NpO2+ 2.000 e- -2.000 H2O * log10 K(298 K) = -13.9070 a= -13.907 b= 0 c= 0 d= 0 e= 0 f= 0 Np++++ charge= 4 ion size= 0.0 A mole wt.= 237.0000 g 4 species in reaction 4.000 H+ -2.000 H2O 1.000 NpO2+ 1.000 e- * log10 K(298 K) = -10.2120 a= -10.212 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2++ charge= 2 ion size= 0.0 A mole wt.= 268.9980 g 2 species in reaction -1.000 e- 1.000 NpO2+ * log10 K(298 K) = 19.5910 a= 19.591 b= 0 c= 0 d= 0 e= 0 f= 0 Pu+++ charge= 3 ion size= 0.0 A mole wt.= 244.0000 g 4 species in reaction 3.000 e- -2.000 H2O 4.000 H+ 1.000 PuO2++ * log10 K(298 K) = -50.9650 a= -50.965 b= 0 c= 0 d= 0 e= 0 f= 0 Pu++++ charge= 4 ion size= 0.0 A mole wt.= 244.0000 g 4 species in reaction 4.000 H+ -2.000 H2O 2.000 e- 1.000 PuO2++ * log10 K(298 K) = -33.2710 a= -33.271 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2+ charge= 1 ion size= 0.0 A mole wt.= 275.9980 g 2 species in reaction 1.000 PuO2++ 1.000 e- * log10 K(298 K) = -15.8190 a= -15.819 b= 0 c= 0 d= 0 e= 0 f= 0 S2O3-- charge= -2 ion size= 0.0 A mole wt.= 112.1250 g 4 species in reaction 2.000 SO4-- 8.000 e- -5.000 H2O 10.000 H+ * log10 K(298 K) = -38.0140 a= -38.014 b= 0 c= 0 d= 0 e= 0 f= 0 SO3-- charge= -2 ion size= 0.0 A mole wt.= 80.0610 g 4 species in reaction 2.000 e- 2.000 H+ 1.000 SO4-- -1.000 H2O * log10 K(298 K) = 3.3970 a= 3.397 b= 0 c= 0 d= 0 e= 0 f= 0 S-- charge= -2 ion size= 0.0 A mole wt.= 32.0640 g 4 species in reaction 8.000 e- -4.000 H2O 1.000 SO4-- 8.000 H+ * log10 K(298 K) = -14.6920 a= -14.692 b= 0 c= 0 d= 0 e= 0 f= 0 SeO3-- charge= -2 ion size= 0.0 A mole wt.= 126.9680 g 4 species in reaction 2.000 H+ -1.000 H2O 1.000 SeO4-- 2.000 e- * log10 K(298 K) = -28.0390 a= -28.039 b= 0 c= 0 d= 0 e= 0 f= 0 Se4-- charge= -2 ion size= 0.0 A mole wt.= 315.8840 g 4 species in reaction -16.000 H2O 26.000 e- 32.000 H+ 4.000 SeO4-- * log10 K(298 K) = -339.6470 a= -339.647 b= 0 c= 0 d= 0 e= 0 f= 0 Se3-- charge= -2 ion size= 0.0 A mole wt.= 236.9130 g 4 species in reaction -12.000 H2O 3.000 SeO4-- 24.000 H+ 20.000 e- * log10 K(298 K) = -249.9340 a= -249.934 b= 0 c= 0 d= 0 e= 0 f= 0 Se2-- charge= -2 ion size= 0.0 A mole wt.= 157.9420 g 4 species in reaction -8.000 H2O 2.000 SeO4-- 14.000 e- 16.000 H+ * log10 K(298 K) = -158.6320 a= -158.632 b= 0 c= 0 d= 0 e= 0 f= 0 HSe- charge= -1 ion size= 0.0 A mole wt.= 79.9789 g 4 species in reaction -4.000 H2O 9.000 H+ 1.000 SeO4-- 8.000 e- * log10 K(298 K) = -81.5700 a= -81.57 b= 0 c= 0 d= 0 e= 0 f= 0 Sn++++ charge= 4 ion size= 0.0 A mole wt.= 118.7100 g 2 species in reaction -2.000 e- 1.000 Sn++ * log10 K(298 K) = 12.9820 a= 12.982 b= 0 c= 0 d= 0 e= 0 f= 0 TcO4-- charge= -2 ion size= 0.0 A mole wt.= 161.9960 g 4 species in reaction 1.000 H2O -2.000 e- 1.000 TcO(OH)2 -4.000 H+ * log10 K(298 K) = 40.2290 a= 40.229 b= 0 c= 0 d= 0 e= 0 f= 0 TcO4- charge= -1 ion size= 0.0 A mole wt.= 161.9960 g 4 species in reaction 1.000 TcO(OH)2 -4.000 H+ -3.000 e- 1.000 H2O * log10 K(298 K) = 29.4290 a= 29.429 b= 0 c= 0 d= 0 e= 0 f= 0 U+++ charge= 3 ion size= 0.0 A mole wt.= 238.0289 g 4 species in reaction -2.000 H2O 1.000 UO2++ 4.000 H+ 3.000 e- * log10 K(298 K) = 0.3150 a= 0.315 b= 0 c= 0 d= 0 e= 0 f= 0 U++++ charge= 4 ion size= 0.0 A mole wt.= 238.0289 g 4 species in reaction 4.000 H+ 1.000 UO2++ -2.000 H2O 2.000 e- * log10 K(298 K) = -9.0380 a= -9.038 b= 0 c= 0 d= 0 e= 0 f= 0 UO2+ charge= 1 ion size= 0.0 A mole wt.= 270.0269 g 2 species in reaction 1.000 UO2++ 1.000 e- * log10 K(298 K) = -1.4840 a= -1.484 b= 0 c= 0 d= 0 e= 0 f= 0 -end- 406 aqueous species OH- charge= -1 ion size= 0.0 A mole wt.= 17.0069 g 2 species in reaction 1.000 H2O -1.000 H+ * log10 K(298 K) = 14.0010 a= 14.001 b= 0 c= 0 d= 0 e= 0 f= 0 HClO2 charge= 0 ion size= 0.0 A mole wt.= 68.4589 g 2 species in reaction 1.000 H+ 1.000 ClO2- * log10 K(298 K) = -1.9600 a= -1.96 b= 0 c= 0 d= 0 e= 0 f= 0 (NpO2)2(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 572.0098 g 3 species in reaction 2.000 H2O -2.000 H+ 2.000 NpO2++ * log10 K(298 K) = 6.2700 a= 6.27 b= 0 c= 0 d= 0 e= 0 f= 0 (NpO2)2CO3(OH)3- charge= -1 ion size= 0.0 A mole wt.= 649.0249 g 4 species in reaction 3.000 H2O -3.000 H+ 1.000 CO3-- 2.000 NpO2++ * log10 K(298 K) = 2.8530 a= 2.853 b= 0 c= 0 d= 0 e= 0 f= 0 (NpO2)3(CO3)6------ charge= -6 ion size= 0.0 A mole wt.= 1167.0432 g 2 species in reaction 6.000 CO3-- 3.000 NpO2++ * log10 K(298 K) = -49.8710 a= -49.871 b= 0 c= 0 d= 0 e= 0 f= 0 (NpO2)3(OH)5+ charge= 1 ion size= 0.0 A mole wt.= 892.0285 g 3 species in reaction 5.000 H2O -5.000 H+ 3.000 NpO2++ * log10 K(298 K) = 17.1200 a= 17.12 b= 0 c= 0 d= 0 e= 0 f= 0 (PuO2)2(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 586.0098 g 3 species in reaction 2.000 H2O -2.000 H+ 2.000 PuO2++ * log10 K(298 K) = 7.5000 a= 7.5 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)11(CO3)6(OH)12-- charge= -2 ion size= 0.0 A mole wt.= 3534.4279 g 4 species in reaction 12.000 H2O -12.000 H+ 6.000 CO3-- 11.000 UO2++ * log10 K(298 K) = -36.4130 a= -36.413 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)2(Cit)2-- formula= (OU2)2(COOCH2COHCOOCH2COO)2-- charge= -2 ion size= 0.0 A mole wt.= 918.2532 g 2 species in reaction 2.000 UO2++ 2.000 Cit--- * log10 K(298 K) = -21.3000 a= -21.3 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)2(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 574.0676 g 3 species in reaction 2.000 H2O -2.000 H+ 2.000 UO2++ * log10 K(298 K) = 5.6200 a= 5.62 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)2(PuO2)(CO3)6------ charge= -6 ion size= 0.0 A mole wt.= 1176.1010 g 3 species in reaction 6.000 CO3-- 2.000 UO2++ 1.000 PuO2++ * log10 K(298 K) = -53.4800 a= -53.48 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)2CO3(OH)3- charge= -1 ion size= 0.0 A mole wt.= 651.0827 g 4 species in reaction 3.000 H2O -3.000 H+ 1.000 CO3-- 2.000 UO2++ * log10 K(298 K) = 0.8580 a= 0.858 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)2Edta formula= (UO2)2(CH2COO)4N(CH2)2N charge= 0 ion size= 0.0 A mole wt.= 828.2666 g 2 species in reaction 2.000 UO2++ 1.000 Edta---- * log10 K(298 K) = -20.6000 a= -20.6 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)2OH+++ charge= 3 ion size= 0.0 A mole wt.= 557.0607 g 3 species in reaction 1.000 H2O -1.000 H+ 2.000 UO2++ * log10 K(298 K) = 2.7000 a= 2.7 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)3(CO3)6------ charge= -6 ion size= 0.0 A mole wt.= 1170.1299 g 2 species in reaction 6.000 CO3-- 3.000 UO2++ * log10 K(298 K) = -54.0000 a= -54.00000109 b= 0 c= 0 d= -3275.029 e= 0 f= 0 (UO2)3(OH)4++ charge= 2 ion size= 0.0 A mole wt.= 878.1083 g 3 species in reaction 4.000 H2O -4.000 H+ 3.000 UO2++ * log10 K(298 K) = 11.9000 a= 11.9 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)3(OH)5+ charge= 1 ion size= 0.0 A mole wt.= 895.1152 g 3 species in reaction 5.000 H2O -5.000 H+ 3.000 UO2++ * log10 K(298 K) = 15.5500 a= 15.55 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)3(OH)7- charge= -1 ion size= 0.0 A mole wt.= 929.1290 g 3 species in reaction 7.000 H2O -7.000 H+ 3.000 UO2++ * log10 K(298 K) = 32.2000 a= 32.2 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)3O(OH)2(HCO3)+ charge= 1 ion size= 0.0 A mole wt.= 921.1096 g 4 species in reaction 3.000 H2O -3.000 H+ 1.000 CO3-- 3.000 UO2++ * log10 K(298 K) = -0.6520 a= -0.652 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)4(OH)7+ charge= 1 ion size= 0.0 A mole wt.= 1199.1559 g 3 species in reaction 7.000 H2O -7.000 H+ 4.000 UO2++ * log10 K(298 K) = 21.9000 a= 21.9 b= 0 c= 0 d= 0 e= 0 f= 0 Ag(SeCn)3-- formula= Ag(SeCN)3-- charge= -2 ion size= 0.0 A mole wt.= 422.8358 g 4 species in reaction 1.000 Ag+ -3.000 e- 3.000 Cn- 1.500 Se2-- * log10 K(298 K) = -59.6920 a= -59.692 b= 0 c= 0 d= 0 e= 0 f= 0 Am(CO3)2- charge= -1 ion size= 0.0 A mole wt.= 363.0164 g 2 species in reaction 1.000 Am+++ 2.000 CO3-- * log10 K(298 K) = -12.9000 a= -12.9 b= 0 c= 0 d= 0 e= 0 f= 0 Am(CO3)3--- charge= -3 ion size= 0.0 A mole wt.= 423.0246 g 2 species in reaction 1.000 Am+++ 3.000 CO3-- * log10 K(298 K) = -15.0000 a= -15 b= 0 c= 0 d= 0 e= 0 f= 0 Am(CO3)5------ charge= -6 ion size= 0.0 A mole wt.= 543.0410 g 3 species in reaction -1.000 e- 1.000 Am+++ 5.000 CO3-- * log10 K(298 K) = 5.1000 a= 5.1 b= 0 c= 0 d= 0 e= 0 f= 0 Am(Cit)2--- formula= Am(COOCH2COHCOOCH2COO)2--- charge= -3 ion size= 0.0 A mole wt.= 621.1994 g 2 species in reaction 1.000 Am+++ 2.000 Cit--- * log10 K(298 K) = -13.9000 a= -13.9 b= 0 c= 0 d= 0 e= 0 f= 0 Am(HCit)2- formula= Am(COOHCH2COHCOOCH2COO)2- charge= -1 ion size= 0.0 A mole wt.= 623.2152 g 3 species in reaction 2.000 H+ 1.000 Am+++ 2.000 Cit--- * log10 K(298 K) = -23.5200 a= -23.52 b= 0 c= 0 d= 0 e= 0 f= 0 Am(OH)2+ charge= 1 ion size= 0.0 A mole wt.= 277.0138 g 3 species in reaction 2.000 H2O -2.000 H+ 1.000 Am+++ * log10 K(298 K) = 15.1000 a= 15.1 b= 0 c= 0 d= 0 e= 0 f= 0 Am(OH)3 charge= 0 ion size= 0.0 A mole wt.= 294.0207 g 3 species in reaction 3.000 H2O -3.000 H+ 1.000 Am+++ * log10 K(298 K) = 26.2000 a= 26.2 b= 0 c= 0 d= 0 e= 0 f= 0 Am(Ox)2- formula= Am((COO)2)2- charge= -1 ion size= 0.0 A mole wt.= 419.0368 g 2 species in reaction 1.000 Am+++ 2.000 Ox-- * log10 K(298 K) = -10.7100 a= -10.71 b= 0 c= 0 d= 0 e= 0 f= 0 Am(Ox)3--- formula= Am((COO)2)3--- charge= -3 ion size= 0.0 A mole wt.= 507.0552 g 2 species in reaction 1.000 Am+++ 3.000 Ox-- * log10 K(298 K) = -13.0000 a= -13 b= 0 c= 0 d= 0 e= 0 f= 0 Am(SO4)2- charge= -1 ion size= 0.0 A mole wt.= 435.1200 g 2 species in reaction 2.000 SO4-- 1.000 Am+++ * log10 K(298 K) = -3.7000 a= -3.7 b= 0 c= 0 d= 0 e= 0 f= 0 AmCO3+ charge= 1 ion size= 0.0 A mole wt.= 303.0082 g 2 species in reaction 1.000 Am+++ 1.000 CO3-- * log10 K(298 K) = -8.0000 a= -8 b= 0 c= 0 d= 0 e= 0 f= 0 AmCit formula= Am(COOCH2COHCOOCH2COO) charge= 0 ion size= 0.0 A mole wt.= 432.0997 g 2 species in reaction 1.000 Am+++ 1.000 Cit--- * log10 K(298 K) = -8.5500 a= -8.55 b= 0 c= 0 d= 0 e= 0 f= 0 AmCl++ charge= 2 ion size= 0.0 A mole wt.= 278.4530 g 2 species in reaction 1.000 Am+++ 1.000 Cl- * log10 K(298 K) = -0.2400 a= -0.24 b= 0 c= 0 d= 0 e= 0 f= 0 AmCl2+ charge= 1 ion size= 0.0 A mole wt.= 313.9060 g 2 species in reaction 1.000 Am+++ 2.000 Cl- * log10 K(298 K) = 0.7400 a= 0.74 b= 0 c= 0 d= 0 e= 0 f= 0 AmEdta- formula= Am(CH2COO)4N(CH2)2N- charge= -1 ion size= 0.0 A mole wt.= 531.2128 g 2 species in reaction 1.000 Am+++ 1.000 Edta---- * log10 K(298 K) = -19.6700 a= -19.66999901 b= 0 c= 0 d= -553.6732 e= 0 f= 0 AmF++ charge= 2 ion size= 0.0 A mole wt.= 261.9984 g 2 species in reaction 1.000 Am+++ 1.000 F- * log10 K(298 K) = -3.4000 a= -3.4 b= 0 c= 0 d= 0 e= 0 f= 0 AmF2+ charge= 1 ion size= 0.0 A mole wt.= 280.9968 g 2 species in reaction 1.000 Am+++ 2.000 F- * log10 K(298 K) = -5.8000 a= -5.8 b= 0 c= 0 d= 0 e= 0 f= 0 AmH2PO4++ charge= 2 ion size= 0.0 A mole wt.= 339.9856 g 2 species in reaction 1.000 Am+++ 1.000 H2(PO4)- * log10 K(298 K) = -3.0000 a= -3 b= 0 c= 0 d= 0 e= 0 f= 0 AmHCO3++ charge= 2 ion size= 0.0 A mole wt.= 304.0161 g 3 species in reaction 1.000 H+ 1.000 Am+++ 1.000 CO3-- * log10 K(298 K) = -13.4270 a= -13.427 b= 0 c= 0 d= 0 e= 0 f= 0 AmHCit+ formula= Am(COOHCH2COHCOOCH2COO)+ charge= 1 ion size= 0.0 A mole wt.= 433.1076 g 3 species in reaction 1.000 H+ 1.000 Am+++ 1.000 Cit--- * log10 K(298 K) = -12.8600 a= -12.86 b= 0 c= 0 d= 0 e= 0 f= 0 AmN3++ charge= 2 ion size= 0.0 A mole wt.= 285.0210 g 2 species in reaction 1.000 Am+++ 1.000 N3- * log10 K(298 K) = -1.6700 a= -1.67 b= 0 c= 0 d= 0 e= 0 f= 0 AmNO3++ charge= 2 ion size= 0.0 A mole wt.= 305.0040 g 2 species in reaction 1.000 Am+++ 1.000 NO3- * log10 K(298 K) = -1.3300 a= -1.33 b= 0 c= 0 d= 0 e= 0 f= 0 AmO2(CO3)2--- charge= -3 ion size= 0.0 A mole wt.= 395.0144 g 2 species in reaction 2.000 CO3-- 1.000 AmO2+ * log10 K(298 K) = -6.7000 a= -6.7 b= 0 c= 0 d= 0 e= 0 f= 0 AmO2(CO3)3---- charge= -4 ion size= 0.0 A mole wt.= 455.0226 g 2 species in reaction 1.000 AmO2++ 3.000 CO3-- * log10 K(298 K) = -18.9780 a= -18.978 b= 0 c= 0 d= 0 e= 0 f= 0 AmO2(CO3)3----- charge= -5 ion size= 0.0 A mole wt.= 455.0226 g 2 species in reaction 3.000 CO3-- 1.000 AmO2+ * log10 K(298 K) = -5.1000 a= -5.1 b= 0 c= 0 d= 0 e= 0 f= 0 AmO2CO3- charge= -1 ion size= 0.0 A mole wt.= 335.0062 g 2 species in reaction 1.000 CO3-- 1.000 AmO2+ * log10 K(298 K) = -5.1000 a= -5.1 b= 0 c= 0 d= 0 e= 0 f= 0 AmOH++ charge= 2 ion size= 0.0 A mole wt.= 260.0069 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 Am+++ * log10 K(298 K) = 7.2000 a= 7.2 b= 0 c= 0 d= 0 e= 0 f= 0 AmOx+ formula= Am(COO)2+ charge= 1 ion size= 0.0 A mole wt.= 331.0184 g 2 species in reaction 1.000 Am+++ 1.000 Ox-- * log10 K(298 K) = -6.5100 a= -6.51 b= 0 c= 0 d= 0 e= 0 f= 0 AmSO4+ charge= 1 ion size= 0.0 A mole wt.= 339.0600 g 2 species in reaction 1.000 SO4-- 1.000 Am+++ * log10 K(298 K) = -3.5000 a= -3.5 b= 0 c= 0 d= 0 e= 0 f= 0 AmScn++ formula= AmSCN++ charge= 2 ion size= 0.0 A mole wt.= 301.0822 g 2 species in reaction 1.000 Am+++ 1.000 Scn- * log10 K(298 K) = -1.3000 a= -1.3 b= 0 c= 0 d= 0 e= 0 f= 0 AmSiO(OH)3++ charge= 2 ion size= 0.0 A mole wt.= 338.1057 g 3 species in reaction -1.000 H+ 1.000 Am+++ 1.000 Si(OH)4 * log10 K(298 K) = 1.6800 a= 1.68 b= 0 c= 0 d= 0 e= 0 f= 0 CO2 charge= 0 ion size= 0.0 A mole wt.= 44.0092 g 3 species in reaction -1.000 H2O 2.000 H+ 1.000 CO3-- * log10 K(298 K) = -16.6800 a= -16.68 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(Ox)2-- formula= Ca((COO)2)2-- charge= -2 ion size= 0.0 A mole wt.= 216.1148 g 2 species in reaction 1.000 Ca++ 2.000 Ox-- * log10 K(298 K) = -4.0200 a= -4.02 b= 0 c= 0 d= 0 e= 0 f= 0 CaCit- formula= Ca(COOCH2COHCOOCH2COO)- charge= -1 ion size= 0.0 A mole wt.= 229.1777 g 2 species in reaction 1.000 Ca++ 1.000 Cit--- * log10 K(298 K) = -4.8000 a= -4.799981 b= 0 c= 0 d= 0 e= 0 f= 0 CaEdta-- formula= Ca(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 328.2908 g 2 species in reaction 1.000 Ca++ 1.000 Edta---- * log10 K(298 K) = -12.6900 a= -12.68999038 b= 0 c= 0 d= -1159.58 e= 0 f= 0 CaH2Cit+ formula= Ca(COOHCH2COHCOOHCH2COO)+ charge= 1 ion size= 0.0 A mole wt.= 231.1935 g 3 species in reaction 2.000 H+ 1.000 Ca++ 1.000 Cit--- * log10 K(298 K) = -12.6700 a= -12.67 b= 0 c= 0 d= 0 e= 0 f= 0 CaHCit formula= Ca(COOHCH2COHCOOCH2COO) charge= 0 ion size= 0.0 A mole wt.= 230.1856 g 3 species in reaction 1.000 H+ 1.000 Ca++ 1.000 Cit--- * log10 K(298 K) = -9.2800 a= -9.28 b= 0 c= 0 d= 0 e= 0 f= 0 CaIsa+ formula= CaC6H11O6+ charge= 1 ion size= 0.0 A mole wt.= 219.2261 g 2 species in reaction 1.000 Ca++ 1.000 Isa- * log10 K(298 K) = -1.7000 a= -1.7 b= 0 c= 0 d= 0 e= 0 f= 0 CaOx formula= Ca(COO)2 charge= 0 ion size= 0.0 A mole wt.= 128.0964 g 2 species in reaction 1.000 Ca++ 1.000 Ox-- * log10 K(298 K) = -3.1900 a= -3.19 b= 0 c= 0 d= 0 e= 0 f= 0 CaSeO4 charge= 0 ion size= 0.0 A mole wt.= 183.0450 g 2 species in reaction 1.000 Ca++ 1.000 SeO4-- * log10 K(298 K) = -2.0000 a= -2 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(SeCn)2 formula= Cd(SeCN)2 charge= 0 ion size= 0.0 A mole wt.= 322.3924 g 4 species in reaction -2.000 e- 1.000 Cd++ 2.000 Cn- 1.000 Se2-- * log10 K(298 K) = -33.9010 a= -33.901 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(SeCn)3- formula= Cd(SeCN)3- charge= -1 ion size= 0.0 A mole wt.= 427.3816 g 4 species in reaction -3.000 e- 1.000 Cd++ 3.000 Cn- 1.500 Se2-- * log10 K(298 K) = -49.6520 a= -49.652 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(SeCn)4-- formula= Cd(SeCN)4-- charge= -2 ion size= 0.0 A mole wt.= 532.3708 g 4 species in reaction -4.000 e- 1.000 Cd++ 4.000 Cn- 2.000 Se2-- * log10 K(298 K) = -65.7230 a= -65.723 b= 0 c= 0 d= 0 e= 0 f= 0 CdSeCn+ formula= CdSeCN+ charge= 1 ion size= 0.0 A mole wt.= 217.4032 g 4 species in reaction -1.000 e- 1.000 Cd++ 1.000 Cn- .500 Se2-- * log10 K(298 K) = -17.5210 a= -17.521 b= 0 c= 0 d= 0 e= 0 f= 0 CdSeO4 charge= 0 ion size= 0.0 A mole wt.= 255.3810 g 2 species in reaction 1.000 Cd++ 1.000 SeO4-- * log10 K(298 K) = -2.2700 a= -2.269990119 b= 0 c= 0 d= 433.5366 e= 0 f= 0 CoSeO4 charge= 0 ion size= 0.0 A mole wt.= 201.9002 g 2 species in reaction 1.000 Co++ 1.000 SeO4-- * log10 K(298 K) = -2.7000 a= -2.7 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(CO3)3--- charge= -3 ion size= 0.0 A mole wt.= 235.8696 g 2 species in reaction 3.000 CO3-- 1.000 Fe+++ * log10 K(298 K) = -24.0000 a= -24 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(OH)2+ charge= 1 ion size= 0.0 A mole wt.= 89.8588 g 3 species in reaction 2.000 H2O -2.000 H+ 1.000 Fe+++ * log10 K(298 K) = 4.8000 a= 4.8 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(OH)CO3 charge= 0 ion size= 0.0 A mole wt.= 132.8601 g 4 species in reaction 1.000 H2O -1.000 H+ 1.000 CO3-- 1.000 Fe+++ * log10 K(298 K) = -10.7000 a= -10.7 b= 0 c= 0 d= 0 e= 0 f= 0 Fe2(OH)2++++ charge= 4 ion size= 0.0 A mole wt.= 145.7038 g 3 species in reaction 2.000 H2O -2.000 H+ 2.000 Fe+++ * log10 K(298 K) = 2.8200 a= 2.820009935 b= 0 c= 0 d= 2298.266 e= 0 f= 0 FeCl++ charge= 2 ion size= 0.0 A mole wt.= 91.2980 g 2 species in reaction 1.000 Cl- 1.000 Fe+++ * log10 K(298 K) = -1.5200 a= -1.519975132 b= 0 c= 0 d= 1174.205 e= 0 f= 0 FeF+ charge= 1 ion size= 0.0 A mole wt.= 74.8434 g 2 species in reaction 1.000 F- 1.000 Fe++ * log10 K(298 K) = -1.7000 a= -1.7 b= 0 c= 0 d= 0 e= 0 f= 0 FeOH+ charge= 1 ion size= 0.0 A mole wt.= 72.8519 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 Fe++ * log10 K(298 K) = 9.1000 a= 9.1 b= 0 c= 0 d= 0 e= 0 f= 0 FeOH++ charge= 2 ion size= 0.0 A mole wt.= 72.8519 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 Fe+++ * log10 K(298 K) = 2.1500 a= 2.150008504 b= 0 c= 0 d= 1880.4 e= 0 f= 0 FeSO4 charge= 0 ion size= 0.0 A mole wt.= 151.9050 g 2 species in reaction 1.000 SO4-- 1.000 Fe++ * log10 K(298 K) = -2.4400 a= -2.439989085 b= 0 c= 0 d= 438.7599 e= 0 f= 0 FeSO4+ charge= 1 ion size= 0.0 A mole wt.= 151.9050 g 2 species in reaction 1.000 SO4-- 1.000 Fe+++ * log10 K(298 K) = -4.2500 a= -4.25 b= 0 c= 0 d= 0 e= 0 f= 0 FeSeO3+ charge= 1 ion size= 0.0 A mole wt.= 182.8130 g 2 species in reaction 1.000 Fe+++ 1.000 SeO3-- * log10 K(298 K) = -11.1500 a= -11.15 b= 0 c= 0 d= 0 e= 0 f= 0 H2Cit- formula= COOHCH2COHCOOHCH2COO- charge= -1 ion size= 0.0 A mole wt.= 191.1155 g 2 species in reaction 2.000 H+ 1.000 Cit--- * log10 K(298 K) = -11.1400 a= -11.14 b= 0 c= 0 d= 0 e= 0 f= 0 H2Ox formula= (COOH)2 charge= 0 ion size= 0.0 A mole wt.= 90.0342 g 2 species in reaction 2.000 H+ 1.000 Ox-- * log10 K(298 K) = -5.6500 a= -5.65 b= 0 c= 0 d= 0 e= 0 f= 0 H2P2O7-- charge= -2 ion size= 0.0 A mole wt.= 175.9564 g 2 species in reaction -1.000 H2O 2.000 H2(PO4)- * log10 K(298 K) = 1.7600 a= 1.76 b= 0 c= 0 d= 0 e= 0 f= 0 H2S charge= 0 ion size= 0.0 A mole wt.= 34.0798 g 2 species in reaction 1.000 S-- 2.000 H+ * log10 K(298 K) = -25.9880 a= -25.988 b= 0 c= 0 d= 0 e= 0 f= 0 H2SO3 charge= 0 ion size= 0.0 A mole wt.= 82.0768 g 2 species in reaction 2.000 H+ 1.000 SO3-- * log10 K(298 K) = -9.0600 a= -9.06 b= 0 c= 0 d= 0 e= 0 f= 0 H2SeO3 charge= 0 ion size= 0.0 A mole wt.= 128.9838 g 2 species in reaction 2.000 H+ 1.000 SeO3-- * log10 K(298 K) = -11.0000 a= -11 b= 0 c= 0 d= 0 e= 0 f= 0 H3Cit formula= COOHCH2COHCOOHCH2COOH charge= 0 ion size= 0.0 A mole wt.= 192.1234 g 2 species in reaction 3.000 H+ 1.000 Cit--- * log10 K(298 K) = -14.2700 a= -14.27 b= 0 c= 0 d= 0 e= 0 f= 0 H3P2O7- charge= -1 ion size= 0.0 A mole wt.= 176.9643 g 3 species in reaction -1.000 H2O 1.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = -0.4900 a= -0.49 b= 0 c= 0 d= 0 e= 0 f= 0 H3PO4 charge= 0 ion size= 0.0 A mole wt.= 97.9935 g 2 species in reaction 1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -2.1400 a= -2.139995656 b= 0 c= 0 d= 442.9386 e= 0 f= 0 H4P2O7 charge= 0 ion size= 0.0 A mole wt.= 177.9722 g 3 species in reaction -1.000 H2O 2.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = -1.4900 a= -1.49 b= 0 c= 0 d= 0 e= 0 f= 0 HBrO charge= 0 ion size= 0.0 A mole wt.= 96.9109 g 2 species in reaction 1.000 H+ 1.000 BrO- * log10 K(298 K) = -8.6300 a= -8.63 b= 0 c= 0 d= 0 e= 0 f= 0 HCO3- charge= -1 ion size= 0.0 A mole wt.= 61.0161 g 2 species in reaction 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -10.3290 a= -10.329 b= 0 c= 0 d= 0 e= 0 f= 0 HCit-- formula= COOHCH2COHCOOCH2COO-- charge= -2 ion size= 0.0 A mole wt.= 190.1076 g 2 species in reaction 1.000 H+ 1.000 Cit--- * log10 K(298 K) = -6.3600 a= -6.36 b= 0 c= 0 d= 0 e= 0 f= 0 HClO charge= 0 ion size= 0.0 A mole wt.= 52.4599 g 2 species in reaction 1.000 H+ 1.000 ClO- * log10 K(298 K) = -7.4200 a= -7.42 b= 0 c= 0 d= 0 e= 0 f= 0 HCn formula= HCN charge= 0 ion size= 0.0 A mole wt.= 27.0261 g 2 species in reaction 1.000 H+ 1.000 Cn- * log10 K(298 K) = -9.2100 a= -9.21 b= 0 c= 0 d= 0 e= 0 f= 0 HF charge= 0 ion size= 0.0 A mole wt.= 20.0063 g 2 species in reaction 1.000 H+ 1.000 F- * log10 K(298 K) = -3.1800 a= -3.180016766 b= 0 c= 0 d= 637.2465 e= 0 f= 0 HF2- charge= -1 ion size= 0.0 A mole wt.= 39.0047 g 2 species in reaction 1.000 H+ 2.000 F- * log10 K(298 K) = -3.6200 a= -3.62 b= 0 c= 0 d= 0 e= 0 f= 0 HIO3 charge= 0 ion size= 0.0 A mole wt.= 175.9094 g 2 species in reaction 1.000 H+ 1.000 IO3- * log10 K(298 K) = -0.7880 a= -0.788 b= 0 c= 0 d= 0 e= 0 f= 0 HIsa formula= C6H12O6 charge= 0 ion size= 0.0 A mole wt.= 180.1560 g 2 species in reaction 1.000 H+ 1.000 Isa- * log10 K(298 K) = -4.0000 a= -4 b= 0 c= 0 d= 0 e= 0 f= 0 HN3 charge= 0 ion size= 0.0 A mole wt.= 43.0289 g 2 species in reaction 1.000 H+ 1.000 N3- * log10 K(298 K) = -4.7000 a= -4.700019206 b= 0 c= 0 d= -783.4998 e= 0 f= 0 HNiP2O7- charge= -1 ion size= 0.0 A mole wt.= 233.6419 g 4 species in reaction -1.000 H2O -1.000 H+ 1.000 Ni++ 2.000 H2(PO4)- * log10 K(298 K) = 3.2700 a= 3.27 b= 0 c= 0 d= 0 e= 0 f= 0 HOx- formula= H(COO)2- charge= -1 ion size= 0.0 A mole wt.= 89.0263 g 2 species in reaction 1.000 H+ 1.000 Ox-- * log10 K(298 K) = -4.2500 a= -4.25 b= 0 c= 0 d= 0 e= 0 f= 0 HP2O7--- charge= -3 ion size= 0.0 A mole wt.= 174.9485 g 3 species in reaction -1.000 H2O -1.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 8.4100 a= 8.41 b= 0 c= 0 d= 0 e= 0 f= 0 HS2O3- charge= -1 ion size= 0.0 A mole wt.= 113.1329 g 2 species in reaction 1.000 H+ 1.000 S2O3-- * log10 K(298 K) = -1.5900 a= -1.59 b= 0 c= 0 d= 0 e= 0 f= 0 HSO3- charge= -1 ion size= 0.0 A mole wt.= 81.0689 g 2 species in reaction 1.000 H+ 1.000 SO3-- * log10 K(298 K) = -7.2199 a= -7.219947097 b= 0 c= 0 d= 3447.399 e= 0 f= 0 HSO4- charge= -1 ion size= 0.0 A mole wt.= 97.0679 g 2 species in reaction 1.000 SO4-- 1.000 H+ * log10 K(298 K) = -1.9800 a= -1.98 b= 0 c= 0 d= 0 e= 0 f= 0 HSeO3- charge= -1 ion size= 0.0 A mole wt.= 127.9759 g 2 species in reaction 1.000 H+ 1.000 SeO3-- * log10 K(298 K) = -8.3600 a= -8.36 b= 0 c= 0 d= 0 e= 0 f= 0 Hg(SeCn)2 formula= Hg(SeCN)2 charge= 0 ion size= 0.0 A mole wt.= 410.5704 g 5 species in reaction -4.000 e- -2.000 H+ 1.000 Hg++ 2.000 Cn- 2.000 HSe- * log10 K(298 K) = -48.3540 a= -48.354 b= 0 c= 0 d= 0 e= 0 f= 0 Hg(SeCn)3- formula= Hg(SeCN)3- charge= -1 ion size= 0.0 A mole wt.= 515.5596 g 5 species in reaction -6.000 e- -3.000 H+ 1.000 Hg++ 3.000 Cn- 3.000 HSe- * log10 K(298 K) = -65.8810 a= -65.881 b= 0 c= 0 d= 0 e= 0 f= 0 Hg(SeCn)4-- formula= Hg(SeCN)4-- charge= -2 ion size= 0.0 A mole wt.= 620.5488 g 5 species in reaction -8.000 e- -4.000 H+ 1.000 Hg++ 4.000 Cn- 4.000 HSe- * log10 K(298 K) = -81.4080 a= -81.408 b= 0 c= 0 d= 0 e= 0 f= 0 Hg(SeO3)2-- charge= -2 ion size= 0.0 A mole wt.= 454.5280 g 2 species in reaction 1.000 Hg++ 2.000 SeO3-- * log10 K(298 K) = -14.8500 a= -14.85 b= 0 c= 0 d= 0 e= 0 f= 0 HgSe2-- charge= -2 ion size= 0.0 A mole wt.= 358.5340 g 3 species in reaction -2.000 H+ 1.000 Hg++ 2.000 HSe- * log10 K(298 K) = -32.6340 a= -32.634 b= 0 c= 0 d= 0 e= 0 f= 0 KEdta--- formula= K(CH2COO)4N(CH2)2N--- charge= -3 ion size= 0.0 A mole wt.= 327.3111 g 2 species in reaction 1.000 K+ 1.000 Edta---- * log10 K(298 K) = -1.8000 a= -1.8 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(Ox)2-- formula= Mg((COO)2)2-- charge= -2 ion size= 0.0 A mole wt.= 200.3418 g 2 species in reaction 1.000 Mg++ 2.000 Ox-- * log10 K(298 K) = -5.1700 a= -5.17 b= 0 c= 0 d= 0 e= 0 f= 0 MgCit- formula= Mg(COOCH2COHCOOCH2COO)- charge= -1 ion size= 0.0 A mole wt.= 213.4047 g 2 species in reaction 1.000 Mg++ 1.000 Cit--- * log10 K(298 K) = -4.8100 a= -4.81 b= 0 c= 0 d= 0 e= 0 f= 0 MgEdta-- formula= Mg(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 312.5178 g 2 species in reaction 1.000 Mg++ 1.000 Edta---- * log10 K(298 K) = -10.9000 a= -10.90001912 b= 0 c= 0 d= 1034.22 e= 0 f= 0 MgH2Cit+ formula= Mg(COOHCH2COHCOOHCH2COO)+ charge= 1 ion size= 0.0 A mole wt.= 215.4205 g 3 species in reaction 2.000 H+ 1.000 Mg++ 1.000 Cit--- * log10 K(298 K) = -12.4500 a= -12.45 b= 0 c= 0 d= 0 e= 0 f= 0 MgHCit formula= Mg(COOHCH2COHCOOCH2COO) charge= 0 ion size= 0.0 A mole wt.= 214.4126 g 3 species in reaction 1.000 H+ 1.000 Mg++ 1.000 Cit--- * log10 K(298 K) = -8.9600 a= -8.96 b= 0 c= 0 d= 0 e= 0 f= 0 MgOx formula= Mg(COO)2 charge= 0 ion size= 0.0 A mole wt.= 112.3234 g 2 species in reaction 1.000 Mg++ 1.000 Ox-- * log10 K(298 K) = -3.5600 a= -3.56 b= 0 c= 0 d= 0 e= 0 f= 0 MgSeO4 charge= 0 ion size= 0.0 A mole wt.= 167.2720 g 2 species in reaction 1.000 Mg++ 1.000 SeO4-- * log10 K(298 K) = -2.2000 a= -2.2 b= 0 c= 0 d= 0 e= 0 f= 0 MnSeO4 charge= 0 ion size= 0.0 A mole wt.= 197.9050 g 2 species in reaction 1.000 SeO4-- 1.000 Mn++ * log10 K(298 K) = -2.4300 a= -2.43 b= 0 c= 0 d= 0 e= 0 f= 0 NH3 charge= 0 ion size= 0.0 A mole wt.= 17.0307 g 2 species in reaction 1.000 NH4+ -1.000 H+ * log10 K(298 K) = 9.2370 a= 9.237 b= 0 c= 0 d= 0 e= 0 f= 0 NaEdta--- formula= Na(CH2COO)4N(CH2)2N--- charge= -3 ion size= 0.0 A mole wt.= 311.2026 g 2 species in reaction 1.000 Na+ 1.000 Edta---- * log10 K(298 K) = -2.8000 a= -2.800022722 b= 0 c= 0 d= -208.9333 e= 0 f= 0 Ni(Cit)2---- formula= Ni(COOCH2COHCOOCH2COO)2---- charge= -4 ion size= 0.0 A mole wt.= 436.8928 g 2 species in reaction 1.000 Ni++ 2.000 Cit--- * log10 K(298 K) = -8.5000 a= -8.5 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(Cn)4-- formula= Ni(CN)4-- charge= -2 ion size= 0.0 A mole wt.= 162.7662 g 2 species in reaction 1.000 Ni++ 4.000 Cn- * log10 K(298 K) = -30.2000 a= -30.19998771 b= 0 c= 0 d= -9438.561 e= 0 f= 0 Ni(Cn)5--- formula= Ni(CN)5--- charge= -3 ion size= 0.0 A mole wt.= 188.7844 g 2 species in reaction 1.000 Ni++ 5.000 Cn- * log10 K(298 K) = -28.5000 a= -28.499992 b= 0 c= 0 d= -9981.788 e= 0 f= 0 Ni(OH)3- charge= -1 ion size= 0.0 A mole wt.= 109.7141 g 3 species in reaction 3.000 H2O -3.000 H+ 1.000 Ni++ * log10 K(298 K) = 29.2000 a= 29.2 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(Ox)2-- formula= Ni((COO)2)2-- charge= -2 ion size= 0.0 A mole wt.= 234.7302 g 2 species in reaction 1.000 Ni++ 2.000 Ox-- * log10 K(298 K) = -7.6400 a= -7.63997604 b= 0 c= 0 d= -407.4199 e= 0 f= 0 Ni(Scn)2 formula= Ni(SCN)2 charge= 0 ion size= 0.0 A mole wt.= 174.8578 g 2 species in reaction 1.000 Ni++ 2.000 Scn- * log10 K(298 K) = -2.6900 a= -2.689982727 b= 0 c= 0 d= -1096.9 e= 0 f= 0 Ni(Scn)3- formula= Ni(SCN)3- charge= -1 ion size= 0.0 A mole wt.= 232.9400 g 2 species in reaction 1.000 Ni++ 3.000 Scn- * log10 K(298 K) = -3.0200 a= -3.019998059 b= 0 c= 0 d= -1514.766 e= 0 f= 0 Ni(SeCn)2 formula= Ni(SeCN)2 charge= 0 ion size= 0.0 A mole wt.= 268.6718 g 5 species in reaction -4.000 e- -2.000 H+ 1.000 Ni++ 2.000 Cn- 2.000 HSe- * log10 K(298 K) = -28.2940 a= -28.294 b= 0 c= 0 d= 0 e= 0 f= 0 Ni2OH+++ charge= 3 ion size= 0.0 A mole wt.= 134.3937 g 3 species in reaction 1.000 H2O -1.000 H+ 2.000 Ni++ * log10 K(298 K) = 10.6000 a= 10.59998559 b= 0 c= 0 d= 2397.509 e= 0 f= 0 Ni4(OH)4++++ charge= 4 ion size= 0.0 A mole wt.= 302.8012 g 3 species in reaction 4.000 H2O -4.000 H+ 4.000 Ni++ * log10 K(298 K) = 27.5200 a= 27.52001928 b= 0 c= 0 d= 9924.331 e= 0 f= 0 NiCO3 charge= 0 ion size= 0.0 A mole wt.= 118.7016 g 2 species in reaction 1.000 CO3-- 1.000 Ni++ * log10 K(298 K) = -4.2000 a= -4.2 b= 0 c= 0 d= 0 e= 0 f= 0 NiCit- formula= Ni(COOCH2COHCOOCH2COO)- charge= -1 ion size= 0.0 A mole wt.= 247.7931 g 2 species in reaction 1.000 Ni++ 1.000 Cit--- * log10 K(298 K) = -6.7600 a= -6.76 b= 0 c= 0 d= 0 e= 0 f= 0 NiCl+ charge= 1 ion size= 0.0 A mole wt.= 94.1464 g 2 species in reaction 1.000 Cl- 1.000 Ni++ * log10 K(298 K) = -0.0800 a= -0.08 b= 0 c= 0 d= 0 e= 0 f= 0 NiEdta-- formula= Ni(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 346.9062 g 2 species in reaction 1.000 Ni++ 1.000 Edta---- * log10 K(298 K) = -20.5400 a= -20.54001707 b= 0 c= 0 d= -1363.29 e= 0 f= 0 NiF+ charge= 1 ion size= 0.0 A mole wt.= 77.6918 g 2 species in reaction 1.000 F- 1.000 Ni++ * log10 K(298 K) = -1.4300 a= -1.429983704 b= 0 c= 0 d= 496.2165 e= 0 f= 0 NiH2Cit+ formula= Ni(COOHCH2COHCOOHCH2COO)+ charge= 1 ion size= 0.0 A mole wt.= 249.8089 g 3 species in reaction 2.000 H+ 1.000 Ni++ 1.000 Cit--- * log10 K(298 K) = -13.1900 a= -13.19 b= 0 c= 0 d= 0 e= 0 f= 0 NiHAsO4 charge= 0 ion size= 0.0 A mole wt.= 198.6189 g 3 species in reaction 1.000 H+ 1.000 Ni++ 1.000 AsO4--- * log10 K(298 K) = -14.5030 a= -14.503 b= 0 c= 0 d= 0 e= 0 f= 0 NiHCit formula= Ni(COOHCH2COHCOOCH2COO) charge= 0 ion size= 0.0 A mole wt.= 248.8010 g 3 species in reaction 1.000 H+ 1.000 Ni++ 1.000 Cit--- * log10 K(298 K) = -10.5200 a= -10.52 b= 0 c= 0 d= 0 e= 0 f= 0 NiHPO4 charge= 0 ion size= 0.0 A mole wt.= 154.6711 g 3 species in reaction -1.000 H+ 1.000 Ni++ 1.000 H2(PO4)- * log10 K(298 K) = 4.1620 a= 4.162 b= 0 c= 0 d= 0 e= 0 f= 0 NiHS+ charge= 1 ion size= 0.0 A mole wt.= 91.7653 g 3 species in reaction 1.000 S-- 1.000 H+ 1.000 Ni++ * log10 K(298 K) = -24.1800 a= -24.18 b= 0 c= 0 d= 0 e= 0 f= 0 NiNO3+ charge= 1 ion size= 0.0 A mole wt.= 120.6974 g 2 species in reaction 1.000 NO3- 1.000 Ni++ * log10 K(298 K) = -0.5000 a= -0.5 b= 0 c= 0 d= 0 e= 0 f= 0 NiOH+ charge= 1 ion size= 0.0 A mole wt.= 75.7003 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 Ni++ * log10 K(298 K) = 9.5400 a= 9.540003746 b= 0 c= 0 d= 2810.153 e= 0 f= 0 NiOx formula= Ni(COO)2 charge= 0 ion size= 0.0 A mole wt.= 146.7118 g 2 species in reaction 1.000 Ni++ 1.000 Ox-- * log10 K(298 K) = -5.1900 a= -5.190007 b= 0 c= 0 d= 0 e= 0 f= 0 NiP2O7-- charge= -2 ion size= 0.0 A mole wt.= 232.6340 g 4 species in reaction -1.000 H2O -2.000 H+ 1.000 Ni++ 2.000 H2(PO4)- * log10 K(298 K) = 9.0800 a= 9.08 b= 0 c= 0 d= 0 e= 0 f= 0 NiSO4 charge= 0 ion size= 0.0 A mole wt.= 154.7534 g 2 species in reaction 1.000 SO4-- 1.000 Ni++ * log10 K(298 K) = -2.3500 a= -2.349990569 b= 0 c= 0 d= 295.6406 e= 0 f= 0 NiScn+ formula= NiSCN+ charge= 1 ion size= 0.0 A mole wt.= 116.7756 g 2 species in reaction 1.000 Ni++ 1.000 Scn- * log10 K(298 K) = -1.8100 a= -1.810009662 b= 0 c= 0 d= -616.3532 e= 0 f= 0 NiSeCn+ formula= NiSeCN+ charge= 1 ion size= 0.0 A mole wt.= 163.6826 g 5 species in reaction -2.000 e- -1.000 H+ 1.000 Ni++ 1.000 Cn- 1.000 HSe- * log10 K(298 K) = -14.7970 a= -14.797 b= 0 c= 0 d= 0 e= 0 f= 0 NiSeO4 charge= 0 ion size= 0.0 A mole wt.= 201.6604 g 2 species in reaction 1.000 Ni++ 1.000 SeO4-- * log10 K(298 K) = -2.6700 a= -2.67 b= 0 c= 0 d= 0 e= 0 f= 0 Np(CO3)3--- charge= -3 ion size= 0.0 A mole wt.= 417.0246 g 2 species in reaction 3.000 CO3-- 1.000 Np+++ * log10 K(298 K) = -15.6590 a= -15.659 b= 0 c= 0 d= 0 e= 0 f= 0 Np(CO3)4---- charge= -4 ion size= 0.0 A mole wt.= 477.0328 g 2 species in reaction 4.000 CO3-- 1.000 Np++++ * log10 K(298 K) = -36.6850 a= -36.685 b= 0 c= 0 d= 0 e= 0 f= 0 Np(CO3)5------ charge= -6 ion size= 0.0 A mole wt.= 537.0410 g 2 species in reaction 5.000 CO3-- 1.000 Np++++ * log10 K(298 K) = -35.6150 a= -35.615 b= 0 c= 0 d= 0 e= 0 f= 0 Np(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 271.0138 g 3 species in reaction 2.000 H2O -2.000 H+ 1.000 Np++++ * log10 K(298 K) = -0.3500 a= -0.35 b= 0 c= 0 d= 0 e= 0 f= 0 Np(OH)4 charge= 0 ion size= 0.0 A mole wt.= 305.0276 g 3 species in reaction 4.000 H2O -4.000 H+ 1.000 Np++++ * log10 K(298 K) = 8.3000 a= 8.3 b= 0 c= 0 d= 0 e= 0 f= 0 Np(SO4)2 charge= 0 ion size= 0.0 A mole wt.= 429.1200 g 2 species in reaction 2.000 SO4-- 1.000 Np++++ * log10 K(298 K) = -11.0530 a= -11.053 b= 0 c= 0 d= 0 e= 0 f= 0 Np(Scn)2++ formula= Np(SCN)2++ charge= 2 ion size= 0.0 A mole wt.= 353.1644 g 2 species in reaction 2.000 Scn- 1.000 Np++++ * log10 K(298 K) = -4.1000 a= -4.100009791 b= 0 c= 0 d= -470.0999 e= 0 f= 0 Np(Scn)3+ formula= Np(SCN)3+ charge= 1 ion size= 0.0 A mole wt.= 411.2466 g 2 species in reaction 3.000 Scn- 1.000 Np++++ * log10 K(298 K) = -4.8000 a= -4.799992512 b= 0 c= 0 d= -679.0332 e= 0 f= 0 NpCl+++ charge= 3 ion size= 0.0 A mole wt.= 272.4530 g 2 species in reaction 1.000 Cl- 1.000 Np++++ * log10 K(298 K) = -1.5000 a= -1.5 b= 0 c= 0 d= 0 e= 0 f= 0 NpEdta formula= Np(CH2COO)4N(CH2)2N charge= 0 ion size= 0.0 A mole wt.= 525.2128 g 2 species in reaction 1.000 Edta---- 1.000 Np++++ * log10 K(298 K) = -31.2000 a= -31.2 b= 0 c= 0 d= 0 e= 0 f= 0 NpF+++ charge= 3 ion size= 0.0 A mole wt.= 255.9984 g 2 species in reaction 1.000 F- 1.000 Np++++ * log10 K(298 K) = -8.9600 a= -8.960049879 b= 0 c= 0 d= 78.34998 e= 0 f= 0 NpF2++ charge= 2 ion size= 0.0 A mole wt.= 274.9968 g 2 species in reaction 2.000 F- 1.000 Np++++ * log10 K(298 K) = -15.7000 a= -15.7 b= 0 c= 0 d= 0 e= 0 f= 0 NpI+++ charge= 3 ion size= 0.0 A mole wt.= 363.9045 g 2 species in reaction 1.000 I- 1.000 Np++++ * log10 K(298 K) = -1.5000 a= -1.5 b= 0 c= 0 d= 0 e= 0 f= 0 NpNO3+++ charge= 3 ion size= 0.0 A mole wt.= 299.0040 g 2 species in reaction 1.000 NO3- 1.000 Np++++ * log10 K(298 K) = -1.9000 a= -1.9 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(CO3)2-- charge= -2 ion size= 0.0 A mole wt.= 389.0144 g 2 species in reaction 2.000 CO3-- 1.000 NpO2++ * log10 K(298 K) = -16.5160 a= -16.516 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(CO3)2--- charge= -3 ion size= 0.0 A mole wt.= 389.0144 g 2 species in reaction 2.000 CO3-- 1.000 NpO2+ * log10 K(298 K) = -6.5340 a= -6.534 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(CO3)2OH---- charge= -4 ion size= 0.0 A mole wt.= 406.0213 g 4 species in reaction 1.000 H2O -1.000 H+ 2.000 CO3-- 1.000 NpO2+ * log10 K(298 K) = 5.3060 a= 5.306 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(CO3)3---- charge= -4 ion size= 0.0 A mole wt.= 449.0226 g 2 species in reaction 3.000 CO3-- 1.000 NpO2++ * log10 K(298 K) = -19.3707 a= -19.37073987 b= 0 c= 0 d= -2188.576 e= 0 f= 0 NpO2(CO3)3----- charge= -5 ion size= 0.0 A mole wt.= 449.0226 g 2 species in reaction 3.000 CO3-- 1.000 NpO2+ * log10 K(298 K) = -5.5000 a= -5.5 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(HPO4)2-- charge= -2 ion size= 0.0 A mole wt.= 460.9534 g 3 species in reaction -2.000 H+ 2.000 H2(PO4)- 1.000 NpO2++ * log10 K(298 K) = 4.9240 a= 4.924 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(OH)2- charge= -1 ion size= 0.0 A mole wt.= 303.0118 g 3 species in reaction 2.000 H2O -2.000 H+ 1.000 NpO2+ * log10 K(298 K) = 23.6000 a= 23.6 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(Ox)2--- formula= NpO2((COO)2)2--- charge= -3 ion size= 0.0 A mole wt.= 445.0348 g 2 species in reaction 1.000 NpO2+ 2.000 Ox-- * log10 K(298 K) = -5.8000 a= -5.8 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(SO4)2-- charge= -2 ion size= 0.0 A mole wt.= 461.1180 g 2 species in reaction 2.000 SO4-- 1.000 NpO2++ * log10 K(298 K) = -4.7000 a= -4.699985317 b= 0 c= 0 d= 1358.066 e= 0 f= 0 NpO2CO3 charge= 0 ion size= 0.0 A mole wt.= 329.0062 g 2 species in reaction 1.000 CO3-- 1.000 NpO2++ * log10 K(298 K) = -9.3200 a= -9.32 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2CO3- charge= -1 ion size= 0.0 A mole wt.= 329.0062 g 2 species in reaction 1.000 CO3-- 1.000 NpO2+ * log10 K(298 K) = -4.9620 a= -4.962 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2Cit-- formula= NpO2(COOCH2COHCOOCH2COO)-- charge= -2 ion size= 0.0 A mole wt.= 458.0977 g 2 species in reaction 1.000 NpO2+ 1.000 Cit--- * log10 K(298 K) = -3.6800 a= -3.68 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2Cl+ charge= 1 ion size= 0.0 A mole wt.= 304.4510 g 2 species in reaction 1.000 Cl- 1.000 NpO2++ * log10 K(298 K) = -0.4000 a= -0.4 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2Edta--- formula= NpO2(CH2COO)4N(CH2)2N--- charge= -3 ion size= 0.0 A mole wt.= 557.2108 g 2 species in reaction 1.000 NpO2+ 1.000 Edta---- * log10 K(298 K) = -9.2300 a= -9.23 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2F charge= 0 ion size= 0.0 A mole wt.= 287.9964 g 2 species in reaction 1.000 F- 1.000 NpO2+ * log10 K(298 K) = -1.2000 a= -1.2 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2F+ charge= 1 ion size= 0.0 A mole wt.= 287.9964 g 2 species in reaction 1.000 F- 1.000 NpO2++ * log10 K(298 K) = -4.5700 a= -4.57 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2F2 charge= 0 ion size= 0.0 A mole wt.= 306.9948 g 2 species in reaction 2.000 F- 1.000 NpO2++ * log10 K(298 K) = -7.6000 a= -7.6 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2H2PO4+ charge= 1 ion size= 0.0 A mole wt.= 365.9836 g 2 species in reaction 1.000 H2(PO4)- 1.000 NpO2++ * log10 K(298 K) = -3.3200 a= -3.32 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2HPO4 charge= 0 ion size= 0.0 A mole wt.= 364.9757 g 3 species in reaction -1.000 H+ 1.000 H2(PO4)- 1.000 NpO2++ * log10 K(298 K) = 1.0120 a= 1.012 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2HPO4- charge= -1 ion size= 0.0 A mole wt.= 364.9757 g 3 species in reaction -1.000 H+ 1.000 NpO2+ 1.000 H2(PO4)- * log10 K(298 K) = 4.2620 a= 4.262 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2IO3 charge= 0 ion size= 0.0 A mole wt.= 443.8995 g 2 species in reaction 1.000 IO3- 1.000 NpO2+ * log10 K(298 K) = -0.5000 a= -0.5 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2IO3+ charge= 1 ion size= 0.0 A mole wt.= 443.8995 g 2 species in reaction 1.000 IO3- 1.000 NpO2++ * log10 K(298 K) = -1.2000 a= -1.2 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2OH charge= 0 ion size= 0.0 A mole wt.= 286.0049 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 NpO2+ * log10 K(298 K) = 11.3000 a= 11.3 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2OH+ charge= 1 ion size= 0.0 A mole wt.= 286.0049 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 NpO2++ * log10 K(298 K) = 5.1000 a= 5.1 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2Ox- formula= NpO2(COO)2- charge= -1 ion size= 0.0 A mole wt.= 357.0164 g 2 species in reaction 1.000 NpO2+ 1.000 Ox-- * log10 K(298 K) = -3.9000 a= -3.9 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2SO4 charge= 0 ion size= 0.0 A mole wt.= 365.0580 g 2 species in reaction 1.000 SO4-- 1.000 NpO2++ * log10 K(298 K) = -3.2800 a= -3.279987538 b= 0 c= 0 d= 872.2964 e= 0 f= 0 NpO2SO4- charge= -1 ion size= 0.0 A mole wt.= 365.0580 g 2 species in reaction 1.000 SO4-- 1.000 NpO2+ * log10 K(298 K) = -0.4400 a= -0.4400042822 b= 0 c= 0 d= 1211.813 e= 0 f= 0 NpOH++ charge= 2 ion size= 0.0 A mole wt.= 254.0069 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 Np+++ * log10 K(298 K) = 6.8000 a= 6.8 b= 0 c= 0 d= 0 e= 0 f= 0 NpOH+++ charge= 3 ion size= 0.0 A mole wt.= 254.0069 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 Np++++ * log10 K(298 K) = -0.5500 a= -0.55 b= 0 c= 0 d= 0 e= 0 f= 0 NpSO4++ charge= 2 ion size= 0.0 A mole wt.= 333.0600 g 2 species in reaction 1.000 SO4-- 1.000 Np++++ * log10 K(298 K) = -6.8520 a= -6.852 b= 0 c= 0 d= 0 e= 0 f= 0 NpScn+++ formula= NpSCN+++ charge= 3 ion size= 0.0 A mole wt.= 295.0822 g 2 species in reaction 1.000 Scn- 1.000 Np++++ * log10 K(298 K) = -3.0000 a= -2.999974762 b= 0 c= 0 d= -365.6332 e= 0 f= 0 P2O7---- charge= -4 ion size= 0.0 A mole wt.= 173.9406 g 3 species in reaction -1.000 H2O -2.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 17.8100 a= 17.81 b= 0 c= 0 d= 0 e= 0 f= 0 PO4--- charge= -3 ion size= 0.0 A mole wt.= 94.9698 g 2 species in reaction -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 19.5620 a= 19.562 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(CO3)4---- charge= -4 ion size= 0.0 A mole wt.= 484.0328 g 2 species in reaction 4.000 CO3-- 1.000 Pu++++ * log10 K(298 K) = -37.0000 a= -37 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(CO3)5------ charge= -6 ion size= 0.0 A mole wt.= 544.0410 g 2 species in reaction 5.000 CO3-- 1.000 Pu++++ * log10 K(298 K) = -35.6500 a= -35.65 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 278.0138 g 3 species in reaction 2.000 H2O -2.000 H+ 1.000 Pu++++ * log10 K(298 K) = -0.6000 a= -0.6 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(OH)3+ charge= 1 ion size= 0.0 A mole wt.= 295.0207 g 3 species in reaction 3.000 H2O -3.000 H+ 1.000 Pu++++ * log10 K(298 K) = 2.3000 a= 2.3 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(OH)4 charge= 0 ion size= 0.0 A mole wt.= 312.0276 g 3 species in reaction 4.000 H2O -4.000 H+ 1.000 Pu++++ * log10 K(298 K) = 8.5000 a= 8.5 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(SO4)2 charge= 0 ion size= 0.0 A mole wt.= 436.1200 g 2 species in reaction 2.000 SO4-- 1.000 Pu++++ * log10 K(298 K) = -11.1430 a= -11.143 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(SO4)2- charge= -1 ion size= 0.0 A mole wt.= 436.1200 g 2 species in reaction 2.000 SO4-- 1.000 Pu+++ * log10 K(298 K) = -5.7030 a= -5.703 b= 0 c= 0 d= 0 e= 0 f= 0 PuBr+++ charge= 3 ion size= 0.0 A mole wt.= 323.9040 g 2 species in reaction 1.000 Br- 1.000 Pu++++ * log10 K(298 K) = -1.6000 a= -1.6 b= 0 c= 0 d= 0 e= 0 f= 0 PuCl+++ charge= 3 ion size= 0.0 A mole wt.= 279.4530 g 2 species in reaction 1.000 Cl- 1.000 Pu++++ * log10 K(298 K) = -1.8000 a= -1.8 b= 0 c= 0 d= 0 e= 0 f= 0 PuEdta- formula= Pu(CH2COO)4N(CH2)2N- charge= -1 ion size= 0.0 A mole wt.= 532.2128 g 2 species in reaction 1.000 Edta---- 1.000 Pu+++ * log10 K(298 K) = -20.1800 a= -20.17997535 b= 0 c= 0 d= -454.4299 e= 0 f= 0 PuF+++ charge= 3 ion size= 0.0 A mole wt.= 262.9984 g 2 species in reaction 1.000 F- 1.000 Pu++++ * log10 K(298 K) = -8.8400 a= -8.839988175 b= 0 c= 0 d= 475.3232 e= 0 f= 0 PuF2++ charge= 2 ion size= 0.0 A mole wt.= 281.9968 g 2 species in reaction 2.000 F- 1.000 Pu++++ * log10 K(298 K) = -15.7000 a= -15.70002452 b= 0 c= 0 d= 574.5665 e= 0 f= 0 PuH3PO4++++ charge= 4 ion size= 0.0 A mole wt.= 341.9935 g 3 species in reaction 1.000 H+ 1.000 H2(PO4)- 1.000 Pu++++ * log10 K(298 K) = -4.5400 a= -4.54 b= 0 c= 0 d= 0 e= 0 f= 0 PuI++ charge= 2 ion size= 0.0 A mole wt.= 370.9045 g 2 species in reaction 1.000 I- 1.000 Pu+++ * log10 K(298 K) = -1.1000 a= -1.1 b= 0 c= 0 d= 0 e= 0 f= 0 PuNO3+++ charge= 3 ion size= 0.0 A mole wt.= 306.0040 g 2 species in reaction 1.000 NO3- 1.000 Pu++++ * log10 K(298 K) = -1.9500 a= -1.95 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(CO3)2-- charge= -2 ion size= 0.0 A mole wt.= 396.0144 g 2 species in reaction 2.000 CO3-- 1.000 PuO2++ * log10 K(298 K) = -14.7000 a= -14.69999538 b= 0 c= 0 d= -1410.3 e= 0 f= 0 PuO2(CO3)3---- charge= -4 ion size= 0.0 A mole wt.= 456.0226 g 2 species in reaction 3.000 CO3-- 1.000 PuO2++ * log10 K(298 K) = -18.0000 a= -18.00001806 b= 0 c= 0 d= -2016.206 e= 0 f= 0 PuO2(CO3)3----- charge= -5 ion size= 0.0 A mole wt.= 456.0226 g 2 species in reaction 3.000 CO3-- 1.000 PuO2+ * log10 K(298 K) = -5.0254 a= -5.0253811 b= 0 c= 0 d= -998.1788 e= 0 f= 0 PuO2(OH)2 charge= 0 ion size= 0.0 A mole wt.= 310.0118 g 3 species in reaction 2.000 H2O -2.000 H+ 1.000 PuO2++ * log10 K(298 K) = 13.2000 a= 13.2 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(SO4)2-- charge= -2 ion size= 0.0 A mole wt.= 468.1180 g 2 species in reaction 2.000 SO4-- 1.000 PuO2++ * log10 K(298 K) = -4.4000 a= -4.399988405 b= 0 c= 0 d= 2246.033 e= 0 f= 0 PuO2CO3 charge= 0 ion size= 0.0 A mole wt.= 336.0062 g 2 species in reaction 1.000 CO3-- 1.000 PuO2++ * log10 K(298 K) = -9.5000 a= -9.5 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2CO3- charge= -1 ion size= 0.0 A mole wt.= 336.0062 g 2 species in reaction 1.000 CO3-- 1.000 PuO2+ * log10 K(298 K) = -5.1200 a= -5.12 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2Cl+ charge= 1 ion size= 0.0 A mole wt.= 311.4510 g 2 species in reaction 1.000 Cl- 1.000 PuO2++ * log10 K(298 K) = -0.2300 a= -0.23 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2Cl2 charge= 0 ion size= 0.0 A mole wt.= 346.9040 g 2 species in reaction 2.000 Cl- 1.000 PuO2++ * log10 K(298 K) = 1.1500 a= 1.15 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2F+ charge= 1 ion size= 0.0 A mole wt.= 294.9964 g 2 species in reaction 1.000 F- 1.000 PuO2++ * log10 K(298 K) = -4.5600 a= -4.56 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2F2 charge= 0 ion size= 0.0 A mole wt.= 313.9948 g 2 species in reaction 2.000 F- 1.000 PuO2++ * log10 K(298 K) = -7.2500 a= -7.25 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2OH charge= 0 ion size= 0.0 A mole wt.= 293.0049 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 PuO2+ * log10 K(298 K) = 9.7300 a= 9.73 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2OH+ charge= 1 ion size= 0.0 A mole wt.= 293.0049 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 PuO2++ * log10 K(298 K) = 5.5000 a= 5.499983818 b= 0 c= 0 d= 1462.533 e= 0 f= 0 PuO2SO4 charge= 0 ion size= 0.0 A mole wt.= 372.0580 g 2 species in reaction 1.000 SO4-- 1.000 PuO2++ * log10 K(298 K) = -3.3800 a= -3.379983078 b= 0 c= 0 d= 840.9565 e= 0 f= 0 PuOH++ charge= 2 ion size= 0.0 A mole wt.= 261.0069 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 Pu+++ * log10 K(298 K) = 6.9000 a= 6.9 b= 0 c= 0 d= 0 e= 0 f= 0 PuOH+++ charge= 3 ion size= 0.0 A mole wt.= 261.0069 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 Pu++++ * log10 K(298 K) = -0.6000 a= -0.6 b= 0 c= 0 d= 0 e= 0 f= 0 PuSO4+ charge= 1 ion size= 0.0 A mole wt.= 340.0600 g 2 species in reaction 1.000 SO4-- 1.000 Pu+++ * log10 K(298 K) = -3.9110 a= -3.911 b= 0 c= 0 d= 0 e= 0 f= 0 PuSO4++ charge= 2 ion size= 0.0 A mole wt.= 340.0600 g 2 species in reaction 1.000 SO4-- 1.000 Pu++++ * log10 K(298 K) = -6.8920 a= -6.892 b= 0 c= 0 d= 0 e= 0 f= 0 PuScn++ formula= PuSCN++ charge= 2 ion size= 0.0 A mole wt.= 302.0822 g 2 species in reaction 1.000 Scn- 1.000 Pu+++ * log10 K(298 K) = -1.3000 a= -1.299983 b= 0 c= 0 d= 0 e= 0 f= 0 Se-- charge= -2 ion size= 0.0 A mole wt.= 78.9710 g 2 species in reaction -1.000 H+ 1.000 HSe- * log10 K(298 K) = 14.9140 a= 14.914 b= 0 c= 0 d= 0 e= 0 f= 0 Se2Cl2 charge= 0 ion size= 0.0 A mole wt.= 228.8480 g 3 species in reaction -4.000 e- 2.000 Cl- 1.000 Se2-- * log10 K(298 K) = 18.2060 a= 18.206 b= 0 c= 0 d= 0 e= 0 f= 0 SeCn- formula= SeCN- charge= -1 ion size= 0.0 A mole wt.= 104.9892 g 3 species in reaction -1.000 e- 1.000 Cn- .500 Se2-- * log10 K(298 K) = -15.2810 a= -15.281 b= 0 c= 0 d= 0 e= 0 f= 0 Si2O2(OH)5- charge= -1 ion size= 0.0 A mole wt.= 173.2045 g 3 species in reaction -1.000 H2O -1.000 H+ 2.000 Si(OH)4 * log10 K(298 K) = 8.1000 a= 8.1 b= 0 c= 0 d= 0 e= 0 f= 0 Si2O3(OH)4-- charge= -2 ion size= 0.0 A mole wt.= 172.1966 g 3 species in reaction -1.000 H2O -2.000 H+ 2.000 Si(OH)4 * log10 K(298 K) = 19.0000 a= 19 b= 0 c= 0 d= 0 e= 0 f= 0 Si3O5(OH)5--- charge= -3 ion size= 0.0 A mole wt.= 249.2875 g 3 species in reaction -2.000 H2O -3.000 H+ 3.000 Si(OH)4 * log10 K(298 K) = 27.5000 a= 27.5 b= 0 c= 0 d= 0 e= 0 f= 0 Si3O6(OH)3--- charge= -3 ion size= 0.0 A mole wt.= 231.2727 g 3 species in reaction -3.000 H2O -3.000 H+ 3.000 Si(OH)4 * log10 K(298 K) = 28.6000 a= 28.6 b= 0 c= 0 d= 0 e= 0 f= 0 Si4O7(OH)5--- charge= -3 ion size= 0.0 A mole wt.= 309.3715 g 3 species in reaction -4.000 H2O -3.000 H+ 4.000 Si(OH)4 * log10 K(298 K) = 25.5000 a= 25.5 b= 0 c= 0 d= 0 e= 0 f= 0 Si4O8(OH)4---- charge= -4 ion size= 0.0 A mole wt.= 308.3636 g 3 species in reaction -4.000 H2O -4.000 H+ 4.000 Si(OH)4 * log10 K(298 K) = 36.3000 a= 36.3 b= 0 c= 0 d= 0 e= 0 f= 0 SiO(OH)3- charge= -1 ion size= 0.0 A mole wt.= 95.1057 g 2 species in reaction -1.000 H+ 1.000 Si(OH)4 * log10 K(298 K) = 9.8101 a= 9.810087218 b= 0 c= 0 d= 1337.173 e= 0 f= 0 SiO2(OH)2-- charge= -2 ion size= 0.0 A mole wt.= 94.0978 g 2 species in reaction -2.000 H+ 1.000 Si(OH)4 * log10 K(298 K) = 23.1399 a= 23.13994603 b= 0 c= 0 d= 3917.499 e= 0 f= 0 Sn(NO3)2 charge= 0 ion size= 0.0 A mole wt.= 242.7180 g 2 species in reaction 2.000 NO3- 1.000 Sn++ * log10 K(298 K) = -1.3900 a= -1.39 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(OH)2 charge= 0 ion size= 0.0 A mole wt.= 152.7238 g 3 species in reaction 2.000 H2O -2.000 H+ 1.000 Sn++ * log10 K(298 K) = 7.6800 a= 7.68 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(OH)3- charge= -1 ion size= 0.0 A mole wt.= 169.7307 g 3 species in reaction 3.000 H2O -3.000 H+ 1.000 Sn++ * log10 K(298 K) = 17.0000 a= 17 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(OH)4 charge= 0 ion size= 0.0 A mole wt.= 186.7376 g 3 species in reaction 4.000 H2O -4.000 H+ 1.000 Sn++++ * log10 K(298 K) = -7.5450 a= -7.545 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(OH)5- charge= -1 ion size= 0.0 A mole wt.= 203.7445 g 3 species in reaction 5.000 H2O -5.000 H+ 1.000 Sn++++ * log10 K(298 K) = 1.0560 a= 1.056 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(OH)6-- charge= -2 ion size= 0.0 A mole wt.= 220.7514 g 3 species in reaction 6.000 H2O -6.000 H+ 1.000 Sn++++ * log10 K(298 K) = 11.1250 a= 11.125 b= 0 c= 0 d= 0 e= 0 f= 0 Sn3(OH)4++ charge= 2 ion size= 0.0 A mole wt.= 424.1576 g 3 species in reaction 4.000 H2O -4.000 H+ 3.000 Sn++ * log10 K(298 K) = 5.6000 a= 5.6 b= 0 c= 0 d= 0 e= 0 f= 0 SnBr+ charge= 1 ion size= 0.0 A mole wt.= 198.6140 g 2 species in reaction 1.000 Br- 1.000 Sn++ * log10 K(298 K) = -1.3300 a= -1.33 b= 0 c= 0 d= 0 e= 0 f= 0 SnBr2 charge= 0 ion size= 0.0 A mole wt.= 278.5180 g 2 species in reaction 2.000 Br- 1.000 Sn++ * log10 K(298 K) = -1.9700 a= -1.97 b= 0 c= 0 d= 0 e= 0 f= 0 SnBr3- charge= -1 ion size= 0.0 A mole wt.= 358.4220 g 2 species in reaction 3.000 Br- 1.000 Sn++ * log10 K(298 K) = -1.9300 a= -1.93 b= 0 c= 0 d= 0 e= 0 f= 0 SnCl+ charge= 1 ion size= 0.0 A mole wt.= 154.1630 g 2 species in reaction 1.000 Cl- 1.000 Sn++ * log10 K(298 K) = -1.5200 a= -1.519988925 b= 0 c= 0 d= 663.3632 e= 0 f= 0 SnCl2 charge= 0 ion size= 0.0 A mole wt.= 189.6160 g 2 species in reaction 2.000 Cl- 1.000 Sn++ * log10 K(298 K) = -2.1700 a= -2.169975505 b= 0 c= 0 d= 1028.996 e= 0 f= 0 SnCl3- charge= -1 ion size= 0.0 A mole wt.= 225.0690 g 2 species in reaction 3.000 Cl- 1.000 Sn++ * log10 K(298 K) = -2.1320 a= -2.132 b= 0 c= 0 d= 0 e= 0 f= 0 SnCl4-- charge= -2 ion size= 0.0 A mole wt.= 260.5220 g 2 species in reaction 4.000 Cl- 1.000 Sn++ * log10 K(298 K) = -2.0300 a= -2.03 b= 0 c= 0 d= 0 e= 0 f= 0 SnF+ charge= 1 ion size= 0.0 A mole wt.= 137.7084 g 2 species in reaction 1.000 F- 1.000 Sn++ * log10 K(298 K) = -5.2500 a= -5.25 b= 0 c= 0 d= 0 e= 0 f= 0 SnF2 charge= 0 ion size= 0.0 A mole wt.= 156.7068 g 2 species in reaction 2.000 F- 1.000 Sn++ * log10 K(298 K) = -8.8900 a= -8.89 b= 0 c= 0 d= 0 e= 0 f= 0 SnF3- charge= -1 ion size= 0.0 A mole wt.= 175.7052 g 2 species in reaction 3.000 F- 1.000 Sn++ * log10 K(298 K) = -11.5000 a= -11.5 b= 0 c= 0 d= 0 e= 0 f= 0 SnNO3+ charge= 1 ion size= 0.0 A mole wt.= 180.7140 g 2 species in reaction 1.000 NO3- 1.000 Sn++ * log10 K(298 K) = -1.2700 a= -1.27 b= 0 c= 0 d= 0 e= 0 f= 0 SnOH+ charge= 1 ion size= 0.0 A mole wt.= 135.7169 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 Sn++ * log10 K(298 K) = 3.5300 a= 3.53 b= 0 c= 0 d= 0 e= 0 f= 0 SnSO4 charge= 0 ion size= 0.0 A mole wt.= 214.7700 g 2 species in reaction 1.000 SO4-- 1.000 Sn++ * log10 K(298 K) = -3.4300 a= -3.43 b= 0 c= 0 d= 0 e= 0 f= 0 SnScn+ formula= SnSCN+ charge= 1 ion size= 0.0 A mole wt.= 176.7922 g 2 species in reaction 1.000 Sn++ 1.000 Scn- * log10 K(298 K) = -1.5000 a= -1.5 b= 0 c= 0 d= 0 e= 0 f= 0 TcCO3(OH)2 charge= 0 ion size= 0.0 A mole wt.= 192.0220 g 4 species in reaction -1.000 H2O 2.000 H+ 1.000 CO3-- 1.000 TcO(OH)2 * log10 K(298 K) = -19.2520 a= -19.252 b= 0 c= 0 d= 0 e= 0 f= 0 TcCO3(OH)3- charge= -1 ion size= 0.0 A mole wt.= 209.0289 g 3 species in reaction 1.000 H+ 1.000 CO3-- 1.000 TcO(OH)2 * log10 K(298 K) = -10.9520 a= -10.952 b= 0 c= 0 d= 0 e= 0 f= 0 TcO(OH)+ charge= 1 ion size= 0.0 A mole wt.= 131.0059 g 3 species in reaction -1.000 H2O 1.000 H+ 1.000 TcO(OH)2 * log10 K(298 K) = -2.5000 a= -2.5 b= 0 c= 0 d= 0 e= 0 f= 0 TcO(OH)3- charge= -1 ion size= 0.0 A mole wt.= 165.0197 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 TcO(OH)2 * log10 K(298 K) = 10.9000 a= 10.9 b= 0 c= 0 d= 0 e= 0 f= 0 TcO++ charge= 2 ion size= 0.0 A mole wt.= 113.9990 g 3 species in reaction -2.000 H2O 2.000 H+ 1.000 TcO(OH)2 * log10 K(298 K) = -4.0000 a= -4 b= 0 c= 0 d= 0 e= 0 f= 0 Th(CO3)5------ charge= -6 ion size= 0.0 A mole wt.= 532.0787 g 2 species in reaction 5.000 CO3-- 1.000 Th++++ * log10 K(298 K) = -31.0000 a= -31 b= 0 c= 0 d= 0 e= 0 f= 0 Th(H2PO4)2++ charge= 2 ion size= 0.0 A mole wt.= 426.0089 g 2 species in reaction 2.000 H2(PO4)- 1.000 Th++++ * log10 K(298 K) = -10.4800 a= -10.48 b= 0 c= 0 d= 0 e= 0 f= 0 Th(H3PO4)(H2PO4)+++ charge= 3 ion size= 0.0 A mole wt.= 427.0168 g 3 species in reaction 1.000 H+ 2.000 H2(PO4)- 1.000 Th++++ * log10 K(298 K) = -9.7000 a= -9.7 b= 0 c= 0 d= 0 e= 0 f= 0 Th(IO3)2++ charge= 2 ion size= 0.0 A mole wt.= 581.8407 g 2 species in reaction 2.000 IO3- 1.000 Th++++ * log10 K(298 K) = -6.9700 a= -6.97 b= 0 c= 0 d= 0 e= 0 f= 0 Th(IO3)3+ charge= 1 ion size= 0.0 A mole wt.= 756.7422 g 2 species in reaction 3.000 IO3- 1.000 Th++++ * log10 K(298 K) = -9.8700 a= -9.87 b= 0 c= 0 d= 0 e= 0 f= 0 Th(N3)2++ charge= 2 ion size= 0.0 A mole wt.= 316.0797 g 2 species in reaction 1.000 Th++++ 2.000 N3- * log10 K(298 K) = -8.5900 a= -8.59 b= 0 c= 0 d= 0 e= 0 f= 0 Th(NO3)2++ charge= 2 ion size= 0.0 A mole wt.= 356.0457 g 2 species in reaction 2.000 NO3- 1.000 Th++++ * log10 K(298 K) = -2.3000 a= -2.3 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)+++ charge= 3 ion size= 0.0 A mole wt.= 249.0446 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 Th++++ * log10 K(298 K) = 2.5000 a= 2.500019345 b= 0 c= 0 d= 2308.713 e= 0 f= 0 Th(OH)2(CO3)2-- charge= -2 ion size= 0.0 A mole wt.= 386.0679 g 4 species in reaction 2.000 H2O -2.000 H+ 2.000 CO3-- 1.000 Th++++ * log10 K(298 K) = -8.7970 a= -8.797 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 266.0515 g 3 species in reaction 2.000 H2O -2.000 H+ 1.000 Th++++ * log10 K(298 K) = 6.2000 a= 6.200002752 b= 0 c= 0 d= 4476.396 e= 0 f= 0 Th(OH)4(CO3)-- charge= -2 ion size= 0.0 A mole wt.= 360.0735 g 4 species in reaction 4.000 H2O -4.000 H+ 1.000 CO3-- 1.000 Th++++ * log10 K(298 K) = 15.6050 a= 15.605 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)4 charge= 0 ion size= 0.0 A mole wt.= 300.0653 g 3 species in reaction 4.000 H2O -4.000 H+ 1.000 Th++++ * log10 K(298 K) = 17.4000 a= 17.4 b= 0 c= 0 d= 0 e= 0 f= 0 Th(SO4)2 charge= 0 ion size= 0.0 A mole wt.= 424.1577 g 2 species in reaction 2.000 SO4-- 1.000 Th++++ * log10 K(298 K) = -9.6900 a= -9.690002262 b= 0 c= 0 d= 2109.181 e= 0 f= 0 Th(SO4)3-- charge= -2 ion size= 0.0 A mole wt.= 520.2177 g 2 species in reaction 3.000 SO4-- 1.000 Th++++ * log10 K(298 K) = -10.7480 a= -10.748 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Scn)2++ formula= Th(SCN)2++ charge= 2 ion size= 0.0 A mole wt.= 348.2021 g 2 species in reaction 1.000 Th++++ 2.000 Scn- * log10 K(298 K) = -3.4000 a= -3.4 b= 0 c= 0 d= 0 e= 0 f= 0 Th2(OH)2++++++ charge= 6 ion size= 0.0 A mole wt.= 498.0892 g 3 species in reaction 2.000 H2O -2.000 H+ 2.000 Th++++ * log10 K(298 K) = 5.9000 a= 5.900023909 b= 0 c= 0 d= 3045.203 e= 0 f= 0 Th2(OH)3+++++ charge= 5 ion size= 0.0 A mole wt.= 515.0961 g 3 species in reaction 3.000 H2O -3.000 H+ 2.000 Th++++ * log10 K(298 K) = 6.8000 a= 6.8 b= 0 c= 0 d= 0 e= 0 f= 0 Th4(OH)12++++ charge= 4 ion size= 0.0 A mole wt.= 1132.2336 g 3 species in reaction 12.000 H2O -12.000 H+ 4.000 Th++++ * log10 K(298 K) = 26.6000 a= 26.6 b= 0 c= 0 d= 0 e= 0 f= 0 Th4(OH)8++++++++ charge= 8 ion size= 0.0 A mole wt.= 1064.2060 g 3 species in reaction 8.000 H2O -8.000 H+ 4.000 Th++++ * log10 K(298 K) = 20.4000 a= 20.3999944 b= 0 c= 0 d= 12692.7 e= 0 f= 0 Th6(OH)14++++++++++ charge= 10 ion size= 0.0 A mole wt.= 1630.3228 g 3 species in reaction 14.000 H2O -14.000 H+ 6.000 Th++++ * log10 K(298 K) = 36.8000 a= 36.8 b= 0 c= 0 d= 0 e= 0 f= 0 Th6(OH)15+++++++++ charge= 9 ion size= 0.0 A mole wt.= 1647.3297 g 3 species in reaction 15.000 H2O -15.000 H+ 6.000 Th++++ * log10 K(298 K) = 36.8000 a= 36.79997801 b= 0 c= 0 d= 24695.91 e= 0 f= 0 ThBr+++ charge= 3 ion size= 0.0 A mole wt.= 311.9417 g 2 species in reaction 1.000 Br- 1.000 Th++++ * log10 K(298 K) = -1.3800 a= -1.38 b= 0 c= 0 d= 0 e= 0 f= 0 ThBrO3+++ charge= 3 ion size= 0.0 A mole wt.= 359.9387 g 2 species in reaction 1.000 BrO3- 1.000 Th++++ * log10 K(298 K) = -1.9000 a= -1.9 b= 0 c= 0 d= 0 e= 0 f= 0 ThCl+++ charge= 3 ion size= 0.0 A mole wt.= 267.4907 g 2 species in reaction 1.000 Cl- 1.000 Th++++ * log10 K(298 K) = -1.7000 a= -1.7 b= 0 c= 0 d= 0 e= 0 f= 0 ThClO3+++ charge= 3 ion size= 0.0 A mole wt.= 315.4877 g 2 species in reaction 1.000 ClO3- 1.000 Th++++ * log10 K(298 K) = -1.5500 a= -1.55 b= 0 c= 0 d= 0 e= 0 f= 0 ThF+++ charge= 3 ion size= 0.0 A mole wt.= 251.0361 g 2 species in reaction 1.000 F- 1.000 Th++++ * log10 K(298 K) = -8.8700 a= -8.869980572 b= 0 c= 0 d= -20.89333 e= 0 f= 0 ThF2++ charge= 2 ion size= 0.0 A mole wt.= 270.0345 g 2 species in reaction 2.000 F- 1.000 Th++++ * log10 K(298 K) = -15.6300 a= -15.63000181 b= 0 c= 0 d= -172.37 e= 0 f= 0 ThF3+ charge= 1 ion size= 0.0 A mole wt.= 289.0329 g 2 species in reaction 3.000 F- 1.000 Th++++ * log10 K(298 K) = -20.6700 a= -20.67 b= 0 c= 0 d= 0 e= 0 f= 0 ThF4 charge= 0 ion size= 0.0 A mole wt.= 308.0313 g 2 species in reaction 4.000 F- 1.000 Th++++ * log10 K(298 K) = -25.5800 a= -25.58 b= 0 c= 0 d= 0 e= 0 f= 0 ThH2PO4+++ charge= 3 ion size= 0.0 A mole wt.= 329.0233 g 2 species in reaction 1.000 H2(PO4)- 1.000 Th++++ * log10 K(298 K) = -5.5900 a= -5.59 b= 0 c= 0 d= 0 e= 0 f= 0 ThH3PO4++++ charge= 4 ion size= 0.0 A mole wt.= 330.0312 g 3 species in reaction 1.000 H+ 1.000 H2(PO4)- 1.000 Th++++ * log10 K(298 K) = -4.0300 a= -4.03 b= 0 c= 0 d= 0 e= 0 f= 0 ThIO3+++ charge= 3 ion size= 0.0 A mole wt.= 406.9392 g 2 species in reaction 1.000 IO3- 1.000 Th++++ * log10 K(298 K) = -4.1400 a= -4.14 b= 0 c= 0 d= 0 e= 0 f= 0 ThN3+++ charge= 3 ion size= 0.0 A mole wt.= 274.0587 g 2 species in reaction 1.000 Th++++ 1.000 N3- * log10 K(298 K) = -4.4400 a= -4.44 b= 0 c= 0 d= 0 e= 0 f= 0 ThNO3+++ charge= 3 ion size= 0.0 A mole wt.= 294.0417 g 2 species in reaction 1.000 NO3- 1.000 Th++++ * log10 K(298 K) = -1.3000 a= -1.3 b= 0 c= 0 d= 0 e= 0 f= 0 ThOH(CO3)4----- charge= -5 ion size= 0.0 A mole wt.= 489.0774 g 4 species in reaction 1.000 H2O -1.000 H+ 4.000 CO3-- 1.000 Th++++ * log10 K(298 K) = -21.5980 a= -21.598 b= 0 c= 0 d= 0 e= 0 f= 0 ThSO4++ charge= 2 ion size= 0.0 A mole wt.= 328.0977 g 2 species in reaction 1.000 SO4-- 1.000 Th++++ * log10 K(298 K) = -6.1701 a= -6.170111807 b= 0 c= 0 d= 1092.721 e= 0 f= 0 ThScn+++ formula= ThSCN+++ charge= 3 ion size= 0.0 A mole wt.= 290.1199 g 2 species in reaction 1.000 Th++++ 1.000 Scn- * log10 K(298 K) = -2.0000 a= -2 b= 0 c= 0 d= 0 e= 0 f= 0 TlSeCn formula= TlSeCN charge= 0 ion size= 0.0 A mole wt.= 309.3692 g 4 species in reaction -1.000 e- 1.000 Cn- 1.000 Tl+ .500 Se2-- * log10 K(298 K) = -17.0310 a= -17.031 b= 0 c= 0 d= 0 e= 0 f= 0 U(CO3)4---- charge= -4 ion size= 0.0 A mole wt.= 478.0617 g 2 species in reaction 4.000 CO3-- 1.000 U++++ * log10 K(298 K) = -35.1200 a= -35.12 b= 0 c= 0 d= 0 e= 0 f= 0 U(CO3)5------ charge= -6 ion size= 0.0 A mole wt.= 538.0699 g 2 species in reaction 5.000 CO3-- 1.000 U++++ * log10 K(298 K) = -34.0000 a= -33.99998693 b= 0 c= 0 d= -1044.666 e= 0 f= 0 U(NO3)2++ charge= 2 ion size= 0.0 A mole wt.= 362.0369 g 2 species in reaction 2.000 NO3- 1.000 U++++ * log10 K(298 K) = -2.3000 a= -2.3 b= 0 c= 0 d= 0 e= 0 f= 0 U(OH)4 charge= 0 ion size= 0.0 A mole wt.= 306.0565 g 3 species in reaction 4.000 H2O -4.000 H+ 1.000 U++++ * log10 K(298 K) = 10.0050 a= 10.005 b= 0 c= 0 d= 0 e= 0 f= 0 U(OH)5- charge= -1 ion size= 0.0 A mole wt.= 323.0634 g 3 species in reaction 5.000 H2O -5.000 H+ 1.000 U++++ * log10 K(298 K) = 16.5410 a= 16.541 b= 0 c= 0 d= 0 e= 0 f= 0 U(SO4)2 charge= 0 ion size= 0.0 A mole wt.= 430.1489 g 2 species in reaction 2.000 SO4-- 1.000 U++++ * log10 K(298 K) = -10.5100 a= -10.50999931 b= 0 c= 0 d= 1708.03 e= 0 f= 0 U(Scn)2++ formula= U(SCN)2++ charge= 2 ion size= 0.0 A mole wt.= 354.1933 g 2 species in reaction 2.000 Scn- 1.000 U++++ * log10 K(298 K) = -4.2600 a= -4.260008581 b= 0 c= 0 d= -940.1998 e= 0 f= 0 UBr+++ charge= 3 ion size= 0.0 A mole wt.= 317.9329 g 2 species in reaction 1.000 Br- 1.000 U++++ * log10 K(298 K) = -1.4600 a= -1.46 b= 0 c= 0 d= 0 e= 0 f= 0 UCl+++ charge= 3 ion size= 0.0 A mole wt.= 273.4819 g 2 species in reaction 1.000 Cl- 1.000 U++++ * log10 K(298 K) = -1.7200 a= -1.720006928 b= 0 c= 0 d= -992.4331 e= 0 f= 0 UEdta formula= U(CH2COO)4N(CH2)2N charge= 0 ion size= 0.0 A mole wt.= 526.2417 g 2 species in reaction 1.000 Edta---- 1.000 U++++ * log10 K(298 K) = -29.5000 a= -29.5 b= 0 c= 0 d= 0 e= 0 f= 0 UF+++ charge= 3 ion size= 0.0 A mole wt.= 257.0273 g 2 species in reaction 1.000 F- 1.000 U++++ * log10 K(298 K) = -9.4200 a= -9.419991944 b= 0 c= 0 d= -292.5066 e= 0 f= 0 UF2++ charge= 2 ion size= 0.0 A mole wt.= 276.0257 g 2 species in reaction 2.000 F- 1.000 U++++ * log10 K(298 K) = -16.5600 a= -16.55999988 b= 0 c= 0 d= -182.8166 e= 0 f= 0 UF3+ charge= 1 ion size= 0.0 A mole wt.= 295.0241 g 2 species in reaction 3.000 F- 1.000 U++++ * log10 K(298 K) = -21.8900 a= -21.88999429 b= 0 c= 0 d= 26.11666 e= 0 f= 0 UF4 charge= 0 ion size= 0.0 A mole wt.= 314.0225 g 2 species in reaction 4.000 F- 1.000 U++++ * log10 K(298 K) = -26.3399 a= -26.33992366 b= 0 c= 0 d= -440.3269 e= 0 f= 0 UF5- charge= -1 ion size= 0.0 A mole wt.= 333.0209 g 2 species in reaction 5.000 F- 1.000 U++++ * log10 K(298 K) = -27.7300 a= -27.73 b= 0 c= 0 d= 0 e= 0 f= 0 UF6-- charge= -2 ion size= 0.0 A mole wt.= 352.0193 g 2 species in reaction 6.000 F- 1.000 U++++ * log10 K(298 K) = -29.8000 a= -29.8 b= 0 c= 0 d= 0 e= 0 f= 0 UI+++ charge= 3 ion size= 0.0 A mole wt.= 364.9334 g 2 species in reaction 1.000 I- 1.000 U++++ * log10 K(298 K) = -1.2500 a= -1.25 b= 0 c= 0 d= 0 e= 0 f= 0 UNO3+++ charge= 3 ion size= 0.0 A mole wt.= 300.0329 g 2 species in reaction 1.000 NO3- 1.000 U++++ * log10 K(298 K) = -1.4700 a= -1.47 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(CO3)2-- charge= -2 ion size= 0.0 A mole wt.= 390.0433 g 2 species in reaction 2.000 CO3-- 1.000 UO2++ * log10 K(298 K) = -16.6100 a= -16.61001891 b= 0 c= 0 d= 966.3164 e= 0 f= 0 UO2(CO3)3---- charge= -4 ion size= 0.0 A mole wt.= 450.0515 g 2 species in reaction 3.000 CO3-- 1.000 UO2++ * log10 K(298 K) = -21.8400 a= -21.83997293 b= 0 c= 0 d= -2047.546 e= 0 f= 0 UO2(CO3)3----- charge= -5 ion size= 0.0 A mole wt.= 450.0515 g 2 species in reaction 3.000 CO3-- 1.000 UO2+ * log10 K(298 K) = -6.9500 a= -6.95 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(H2AsO4)2 charge= 0 ion size= 0.0 A mole wt.= 551.8937 g 3 species in reaction 4.000 H+ 1.000 UO2++ 2.000 AsO4--- * log10 K(298 K) = -41.5300 a= -41.53 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(H2PO4)(H3PO4)+ charge= 1 ion size= 0.0 A mole wt.= 465.0060 g 3 species in reaction 1.000 H+ 2.000 H2(PO4)- 1.000 UO2++ * log10 K(298 K) = -5.9300 a= -5.93 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(H2PO4)2 charge= 0 ion size= 0.0 A mole wt.= 463.9981 g 2 species in reaction 2.000 H2(PO4)- 1.000 UO2++ * log10 K(298 K) = -4.9200 a= -4.92 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(IO3)2 charge= 0 ion size= 0.0 A mole wt.= 619.8299 g 2 species in reaction 2.000 IO3- 1.000 UO2++ * log10 K(298 K) = -3.5900 a= -3.59 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(N3)2 charge= 0 ion size= 0.0 A mole wt.= 354.0689 g 2 species in reaction 1.000 UO2++ 2.000 N3- * log10 K(298 K) = -4.3300 a= -4.33 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(N3)3- charge= -1 ion size= 0.0 A mole wt.= 396.0899 g 2 species in reaction 1.000 UO2++ 3.000 N3- * log10 K(298 K) = -5.7400 a= -5.74 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(N3)4-- charge= -2 ion size= 0.0 A mole wt.= 438.1109 g 2 species in reaction 1.000 UO2++ 4.000 N3- * log10 K(298 K) = -4.9200 a= -4.92 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(OH)2 charge= 0 ion size= 0.0 A mole wt.= 304.0407 g 3 species in reaction 2.000 H2O -2.000 H+ 1.000 UO2++ * log10 K(298 K) = 12.1500 a= 12.15 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(OH)3- charge= -1 ion size= 0.0 A mole wt.= 321.0476 g 3 species in reaction 3.000 H2O -3.000 H+ 1.000 UO2++ * log10 K(298 K) = 20.2500 a= 20.25 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(OH)4-- charge= -2 ion size= 0.0 A mole wt.= 338.0545 g 3 species in reaction 4.000 H2O -4.000 H+ 1.000 UO2++ * log10 K(298 K) = 32.4000 a= 32.4 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(Ox)2-- formula= UO2((COO)2)2-- charge= -2 ion size= 0.0 A mole wt.= 446.0637 g 2 species in reaction 1.000 UO2++ 2.000 Ox-- * log10 K(298 K) = -11.6500 a= -11.65 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(Ox)3---- formula= UO2((COO)2)3---- charge= -4 ion size= 0.0 A mole wt.= 534.0821 g 2 species in reaction 1.000 UO2++ 3.000 Ox-- * log10 K(298 K) = -13.8000 a= -13.8 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(SO4)2-- charge= -2 ion size= 0.0 A mole wt.= 462.1469 g 2 species in reaction 2.000 SO4-- 1.000 UO2++ * log10 K(298 K) = -4.1400 a= -4.140009809 b= 0 c= 0 d= 1833.39 e= 0 f= 0 UO2(SO4)3---- charge= -4 ion size= 0.0 A mole wt.= 558.2069 g 2 species in reaction 3.000 SO4-- 1.000 UO2++ * log10 K(298 K) = -3.0200 a= -3.02 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(Scn)2 formula= UO2(SCN)2 charge= 0 ion size= 0.0 A mole wt.= 386.1913 g 2 species in reaction 1.000 UO2++ 2.000 Scn- * log10 K(298 K) = -1.2400 a= -1.239980244 b= 0 c= 0 d= 464.8766 e= 0 f= 0 UO2(Scn)3- formula= UO2(SCN)3- charge= -1 ion size= 0.0 A mole wt.= 444.2735 g 2 species in reaction 1.000 UO2++ 3.000 Scn- * log10 K(298 K) = -2.1000 a= -2.099983585 b= 0 c= 0 d= 313.3999 e= 0 f= 0 UO2Br+ charge= 1 ion size= 0.0 A mole wt.= 349.9309 g 2 species in reaction 1.000 Br- 1.000 UO2++ * log10 K(298 K) = -0.2200 a= -0.22 b= 0 c= 0 d= 0 e= 0 f= 0 UO2BrO3+ charge= 1 ion size= 0.0 A mole wt.= 397.9279 g 2 species in reaction 1.000 BrO3- 1.000 UO2++ * log10 K(298 K) = -0.6300 a= -0.63 b= 0 c= 0 d= 0 e= 0 f= 0 UO2CO3 charge= 0 ion size= 0.0 A mole wt.= 330.0351 g 2 species in reaction 1.000 CO3-- 1.000 UO2++ * log10 K(298 K) = -9.9400 a= -9.939992931 b= 0 c= 0 d= 261.1666 e= 0 f= 0 UO2CO3F- charge= -1 ion size= 0.0 A mole wt.= 349.0335 g 3 species in reaction 1.000 CO3-- 1.000 F- 1.000 UO2++ * log10 K(298 K) = -13.7500 a= -13.75 b= 0 c= 0 d= 0 e= 0 f= 0 UO2CO3F2-- charge= -2 ion size= 0.0 A mole wt.= 368.0319 g 3 species in reaction 1.000 CO3-- 2.000 F- 1.000 UO2++ * log10 K(298 K) = -15.5700 a= -15.57 b= 0 c= 0 d= 0 e= 0 f= 0 UO2CO3F3--- charge= -3 ion size= 0.0 A mole wt.= 387.0303 g 3 species in reaction 1.000 CO3-- 3.000 F- 1.000 UO2++ * log10 K(298 K) = -16.3800 a= -16.38 b= 0 c= 0 d= 0 e= 0 f= 0 UO2Cit- formula= UO2(COOCH2COHCOOCH2COO)- charge= -1 ion size= 0.0 A mole wt.= 459.1266 g 2 species in reaction 1.000 UO2++ 1.000 Cit--- * log10 K(298 K) = -8.9600 a= -8.96 b= 0 c= 0 d= 0 e= 0 f= 0 UO2Cl+ charge= 1 ion size= 0.0 A mole wt.= 305.4799 g 2 species in reaction 1.000 Cl- 1.000 UO2++ * log10 K(298 K) = -0.1700 a= -0.1700125561 b= 0 c= 0 d= 417.8666 e= 0 f= 0 UO2Cl2 charge= 0 ion size= 0.0 A mole wt.= 340.9329 g 2 species in reaction 2.000 Cl- 1.000 UO2++ * log10 K(298 K) = 1.1000 a= 1.099994206 b= 0 c= 0 d= 783.4998 e= 0 f= 0 UO2ClO3+ charge= 1 ion size= 0.0 A mole wt.= 353.4769 g 2 species in reaction 1.000 ClO3- 1.000 UO2++ * log10 K(298 K) = -0.5000 a= -0.5 b= 0 c= 0 d= 0 e= 0 f= 0 UO2Edta-- formula= UO2(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 558.2397 g 2 species in reaction 1.000 UO2++ 1.000 Edta---- * log10 K(298 K) = -13.7000 a= -13.7 b= 0 c= 0 d= 0 e= 0 f= 0 UO2F+ charge= 1 ion size= 0.0 A mole wt.= 289.0253 g 2 species in reaction 1.000 F- 1.000 UO2++ * log10 K(298 K) = -5.1600 a= -5.15998161 b= 0 c= 0 d= 88.79664 e= 0 f= 0 UO2F2 charge= 0 ion size= 0.0 A mole wt.= 308.0237 g 2 species in reaction 2.000 F- 1.000 UO2++ * log10 K(298 K) = -8.8300 a= -8.830019937 b= 0 c= 0 d= 109.69 e= 0 f= 0 UO2F3- charge= -1 ion size= 0.0 A mole wt.= 327.0221 g 2 species in reaction 3.000 F- 1.000 UO2++ * log10 K(298 K) = -10.9000 a= -10.90000018 b= 0 c= 0 d= 122.7483 e= 0 f= 0 UO2F4-- charge= -2 ion size= 0.0 A mole wt.= 346.0205 g 2 species in reaction 4.000 F- 1.000 UO2++ * log10 K(298 K) = -11.8400 a= -11.8400045 b= 0 c= 0 d= 15.14766 e= 0 f= 0 UO2H2AsO4+ charge= 1 ion size= 0.0 A mole wt.= 410.9603 g 3 species in reaction 2.000 H+ 1.000 UO2++ 1.000 AsO4--- * log10 K(298 K) = -21.9600 a= -21.96 b= 0 c= 0 d= 0 e= 0 f= 0 UO2H2PO4+ charge= 1 ion size= 0.0 A mole wt.= 367.0125 g 2 species in reaction 1.000 H2(PO4)- 1.000 UO2++ * log10 K(298 K) = -3.2600 a= -3.26 b= 0 c= 0 d= 0 e= 0 f= 0 UO2H3PO4++ charge= 2 ion size= 0.0 A mole wt.= 368.0204 g 3 species in reaction 1.000 H+ 1.000 H2(PO4)- 1.000 UO2++ * log10 K(298 K) = -2.9000 a= -2.9 b= 0 c= 0 d= 0 e= 0 f= 0 UO2HAsO4 charge= 0 ion size= 0.0 A mole wt.= 409.9524 g 3 species in reaction 1.000 H+ 1.000 UO2++ 1.000 AsO4--- * log10 K(298 K) = -18.7600 a= -18.76 b= 0 c= 0 d= 0 e= 0 f= 0 UO2HCit formula= UO2(COOHCH2COHCOOCH2COO) charge= 0 ion size= 0.0 A mole wt.= 460.1345 g 3 species in reaction 1.000 H+ 1.000 UO2++ 1.000 Cit--- * log10 K(298 K) = -11.3600 a= -11.36 b= 0 c= 0 d= 0 e= 0 f= 0 UO2HPO4 charge= 0 ion size= 0.0 A mole wt.= 366.0046 g 3 species in reaction -1.000 H+ 1.000 H2(PO4)- 1.000 UO2++ * log10 K(298 K) = -0.0280 a= -0.028 b= 0 c= 0 d= 0 e= 0 f= 0 UO2IO3+ charge= 1 ion size= 0.0 A mole wt.= 444.9284 g 2 species in reaction 1.000 IO3- 1.000 UO2++ * log10 K(298 K) = -2.0000 a= -1.999995266 b= 0 c= 0 d= 511.8865 e= 0 f= 0 UO2N3+ charge= 1 ion size= 0.0 A mole wt.= 312.0479 g 2 species in reaction 1.000 UO2++ 1.000 N3- * log10 K(298 K) = -2.5800 a= -2.58 b= 0 c= 0 d= 0 e= 0 f= 0 UO2NO3+ charge= 1 ion size= 0.0 A mole wt.= 332.0309 g 2 species in reaction 1.000 NO3- 1.000 UO2++ * log10 K(298 K) = -0.3000 a= -0.3 b= 0 c= 0 d= 0 e= 0 f= 0 UO2OH+ charge= 1 ion size= 0.0 A mole wt.= 287.0338 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 UO2++ * log10 K(298 K) = 5.2500 a= 5.25 b= 0 c= 0 d= 0 e= 0 f= 0 UO2Ox formula= UO2(COO)2 charge= 0 ion size= 0.0 A mole wt.= 358.0453 g 2 species in reaction 1.000 UO2++ 1.000 Ox-- * log10 K(298 K) = -7.1300 a= -7.13 b= 0 c= 0 d= 0 e= 0 f= 0 UO2PO4- charge= -1 ion size= 0.0 A mole wt.= 364.9967 g 3 species in reaction -2.000 H+ 1.000 H2(PO4)- 1.000 UO2++ * log10 K(298 K) = 6.3320 a= 6.332 b= 0 c= 0 d= 0 e= 0 f= 0 UO2S2O3 charge= 0 ion size= 0.0 A mole wt.= 382.1519 g 2 species in reaction 1.000 UO2++ 1.000 S2O3-- * log10 K(298 K) = -2.8000 a= -2.8 b= 0 c= 0 d= 0 e= 0 f= 0 UO2SO3 charge= 0 ion size= 0.0 A mole wt.= 350.0879 g 2 species in reaction 1.000 UO2++ 1.000 SO3-- * log10 K(298 K) = -6.6000 a= -6.6 b= 0 c= 0 d= 0 e= 0 f= 0 UO2SO4 charge= 0 ion size= 0.0 A mole wt.= 366.0869 g 2 species in reaction 1.000 SO4-- 1.000 UO2++ * log10 K(298 K) = -3.1500 a= -3.15001756 b= 0 c= 0 d= 1018.55 e= 0 f= 0 UO2Scn+ formula= UO2SCN+ charge= 1 ion size= 0.0 A mole wt.= 328.1091 g 2 species in reaction 1.000 UO2++ 1.000 Scn- * log10 K(298 K) = -1.4000 a= -1.400013616 b= 0 c= 0 d= 168.1913 e= 0 f= 0 UO2SeO4 charge= 0 ion size= 0.0 A mole wt.= 412.9939 g 2 species in reaction 1.000 UO2++ 1.000 SeO4-- * log10 K(298 K) = -2.7400 a= -2.74 b= 0 c= 0 d= 0 e= 0 f= 0 UO2SiO(OH)3+ charge= 1 ion size= 0.0 A mole wt.= 365.1326 g 3 species in reaction -1.000 H+ 1.000 Si(OH)4 1.000 UO2++ * log10 K(298 K) = 1.8400 a= 1.84 b= 0 c= 0 d= 0 e= 0 f= 0 UOH+++ charge= 3 ion size= 0.0 A mole wt.= 255.0358 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 U++++ * log10 K(298 K) = 0.5399 a= 0.5399310793 b= 0 c= 0 d= 2450.265 e= 0 f= 0 USO4++ charge= 2 ion size= 0.0 A mole wt.= 334.0889 g 2 species in reaction 1.000 SO4-- 1.000 U++++ * log10 K(298 K) = -6.5800 a= -6.579981556 b= 0 c= 0 d= 417.8666 e= 0 f= 0 UScn+++ formula= USCN+++ charge= 3 ion size= 0.0 A mole wt.= 296.1111 g 2 species in reaction 1.000 Scn- 1.000 U++++ * log10 K(298 K) = -2.9700 a= -2.970011378 b= 0 c= 0 d= -1410.3 e= 0 f= 0 Zn(SeCn)2 formula= Zn(SeCN)2 charge= 0 ion size= 0.0 A mole wt.= 275.3584 g 4 species in reaction -2.000 e- 1.000 Zn++ 2.000 Cn- 1.000 Se2-- * log10 K(298 K) = -32.2410 a= -32.241 b= 0 c= 0 d= 0 e= 0 f= 0 ZnSeCn+ formula= ZnSeCN+ charge= 1 ion size= 0.0 A mole wt.= 170.3692 g 4 species in reaction -1.000 e- 1.000 Zn++ 1.000 Cn- .500 Se2-- * log10 K(298 K) = -16.4910 a= -16.491 b= 0 c= 0 d= 0 e= 0 f= 0 ZnSeO4 charge= 0 ion size= 0.0 A mole wt.= 208.3470 g 2 species in reaction 1.000 Zn++ 1.000 SeO4-- * log10 K(298 K) = -2.1600 a= -2.159979403 b= 0 c= 0 d= 240.2733 e= 0 f= 0 Zr(CO3)4---- charge= -4 ion size= 0.0 A mole wt.= 331.2568 g 2 species in reaction 4.000 CO3-- 1.000 Zr++++ * log10 K(298 K) = -42.9000 a= -42.9 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(NO3)2++ charge= 2 ion size= 0.0 A mole wt.= 215.2320 g 2 species in reaction 2.000 NO3- 1.000 Zr++++ * log10 K(298 K) = -2.6400 a= -2.64 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 125.2378 g 3 species in reaction 2.000 H2O -2.000 H+ 1.000 Zr++++ * log10 K(298 K) = -0.9800 a= -0.98 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(OH)4 charge= 0 ion size= 0.0 A mole wt.= 159.2516 g 3 species in reaction 4.000 H2O -4.000 H+ 1.000 Zr++++ * log10 K(298 K) = 2.1900 a= 2.19 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(OH)6-- charge= -2 ion size= 0.0 A mole wt.= 193.2654 g 3 species in reaction 6.000 H2O -6.000 H+ 1.000 Zr++++ * log10 K(298 K) = 29.0000 a= 29 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(SO4)2 charge= 0 ion size= 0.0 A mole wt.= 283.3440 g 2 species in reaction 2.000 SO4-- 1.000 Zr++++ * log10 K(298 K) = -11.5400 a= -11.54 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(SO4)3-- charge= -2 ion size= 0.0 A mole wt.= 379.4040 g 2 species in reaction 3.000 SO4-- 1.000 Zr++++ * log10 K(298 K) = -14.3000 a= -14.3 b= 0 c= 0 d= 0 e= 0 f= 0 Zr3(OH)4++++++++ charge= 8 ion size= 0.0 A mole wt.= 341.6996 g 3 species in reaction 4.000 H2O -4.000 H+ 3.000 Zr++++ * log10 K(298 K) = -0.4000 a= -0.4 b= 0 c= 0 d= 0 e= 0 f= 0 Zr3(OH)9+++ charge= 3 ion size= 0.0 A mole wt.= 426.7341 g 3 species in reaction 9.000 H2O -9.000 H+ 3.000 Zr++++ * log10 K(298 K) = -12.1900 a= -12.19 b= 0 c= 0 d= 0 e= 0 f= 0 Zr4(OH)15+ charge= 1 ion size= 0.0 A mole wt.= 619.9995 g 3 species in reaction 15.000 H2O -15.000 H+ 4.000 Zr++++ * log10 K(298 K) = -12.5800 a= -12.58 b= 0 c= 0 d= 0 e= 0 f= 0 Zr4(OH)16 charge= 0 ion size= 0.0 A mole wt.= 637.0064 g 3 species in reaction 16.000 H2O -16.000 H+ 4.000 Zr++++ * log10 K(298 K) = -8.3900 a= -8.39 b= 0 c= 0 d= 0 e= 0 f= 0 Zr4(OH)8++++++++ charge= 8 ion size= 0.0 A mole wt.= 500.9512 g 3 species in reaction 8.000 H2O -8.000 H+ 4.000 Zr++++ * log10 K(298 K) = -6.5200 a= -6.52 b= 0 c= 0 d= 0 e= 0 f= 0 ZrCl+++ charge= 3 ion size= 0.0 A mole wt.= 126.6770 g 2 species in reaction 1.000 Cl- 1.000 Zr++++ * log10 K(298 K) = -1.5900 a= -1.59 b= 0 c= 0 d= 0 e= 0 f= 0 ZrCl2++ charge= 2 ion size= 0.0 A mole wt.= 162.1300 g 2 species in reaction 2.000 Cl- 1.000 Zr++++ * log10 K(298 K) = -2.1700 a= -2.17 b= 0 c= 0 d= 0 e= 0 f= 0 ZrF+++ charge= 3 ion size= 0.0 A mole wt.= 110.2224 g 2 species in reaction 1.000 F- 1.000 Zr++++ * log10 K(298 K) = -10.1200 a= -10.12001174 b= 0 c= 0 d= -914.0831 e= 0 f= 0 ZrF2++ charge= 2 ion size= 0.0 A mole wt.= 129.2208 g 2 species in reaction 2.000 F- 1.000 Zr++++ * log10 K(298 K) = -18.5500 a= -18.55000583 b= 0 c= 0 d= -877.5198 e= 0 f= 0 ZrF3+ charge= 1 ion size= 0.0 A mole wt.= 148.2192 g 2 species in reaction 3.000 F- 1.000 Zr++++ * log10 K(298 K) = -24.7200 a= -24.71999389 b= 0 c= 0 d= -585.0132 e= 0 f= 0 ZrF4 charge= 0 ion size= 0.0 A mole wt.= 167.2176 g 2 species in reaction 4.000 F- 1.000 Zr++++ * log10 K(298 K) = -30.1100 a= -30.11002097 b= 0 c= 0 d= -1149.133 e= 0 f= 0 ZrF5- charge= -1 ion size= 0.0 A mole wt.= 186.2160 g 2 species in reaction 5.000 F- 1.000 Zr++++ * log10 K(298 K) = -34.6000 a= -34.6 b= 0 c= 0 d= 0 e= 0 f= 0 ZrF6-- charge= -2 ion size= 0.0 A mole wt.= 205.2144 g 2 species in reaction 6.000 F- 1.000 Zr++++ * log10 K(298 K) = -38.1100 a= -38.11 b= 0 c= 0 d= 0 e= 0 f= 0 ZrNO3+++ charge= 3 ion size= 0.0 A mole wt.= 153.2280 g 2 species in reaction 1.000 NO3- 1.000 Zr++++ * log10 K(298 K) = -1.5900 a= -1.59 b= 0 c= 0 d= 0 e= 0 f= 0 ZrOH+++ charge= 3 ion size= 0.0 A mole wt.= 108.2309 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 Zr++++ * log10 K(298 K) = -0.3200 a= -0.32 b= 0 c= 0 d= 0 e= 0 f= 0 ZrSO4++ charge= 2 ion size= 0.0 A mole wt.= 187.2840 g 2 species in reaction 1.000 SO4-- 1.000 Zr++++ * log10 K(298 K) = -7.0400 a= -7.04 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(SO4)2- charge= -1 ion size= 0.0 A mole wt.= 247.9650 g 2 species in reaction 2.000 SO4-- 1.000 Fe+++ * log10 K(298 K) = -6.2200 a= -6.22 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Cn)6--- formula= Fe(CN)6--- charge= -3 ion size= 0.0 A mole wt.= 211.9542 g 2 species in reaction 6.000 Cn- 1.000 Fe+++ * log10 K(298 K) = -47.3870 a= -47.387 b= 0 c= 0 d= 0 e= 0 f= 0 -end- 1 free electron e- charge= -1 ion size= 0.0 A mole wt.= 0.0000 g 3 species in reaction -.250 O2(aq) -1.000 H+ .500 H2O * log10 K(298 K) = 21.4950 a= 21.49497108 b= 0 c= 0 d= 7306.5 e= 0 f= 0 -end- 121 minerals (NH4)2SeO4(cr) type= formula= (NH4)2SeO4 mole vol.= 0.0000 cc mole wt.= 179.0442 g 2 species in reaction 2.000 NH4+ 1.000 SeO4-- * log10 K(298 K) = 0.9110 a= 0.911 b= 0 c= 0 d= 0 e= 0 f= 0 (NH4)4NpO2(CO3)3(cr) type= formula= (NH4)4NpO2(CO3)3 mole vol.= 0.0000 cc mole wt.= 521.1770 g 6 species in reaction 31.000 e- -12.000 H2O 40.000 H+ 3.000 CO3-- 4.000 NO3- 1.000 NpO2+ * log10 K(298 K) = -483.7600 a= -483.76 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)3(PO4)2:4H2O(cr) type= formula= (UO2)3(PO4)2:4H2O mole vol.= 0.0000 cc mole wt.= 1072.0795 g 4 species in reaction 4.000 H2O -4.000 H+ 2.000 H2(PO4)- 3.000 UO2++ * log10 K(298 K) = -10.2400 a= -10.24 b= 0 c= 0 d= 0 e= 0 f= 0 Ag2SeO3(cr) type= formula= Ag2SeO3 mole vol.= 0.0000 cc mole wt.= 342.7044 g 2 species in reaction 2.000 Ag+ 1.000 SeO3-- * log10 K(298 K) = -15.8000 a= -15.8 b= 0 c= 0 d= 0 e= 0 f= 0 Ag2SeO4(cr) type= formula= Ag2SeO4 mole vol.= 0.0000 cc mole wt.= 358.7034 g 2 species in reaction 2.000 Ag+ 1.000 SeO4-- * log10 K(298 K) = -7.8600 a= -7.86 b= 0 c= 0 d= 0 e= 0 f= 0 AgSeCn(cr) type= formula= AgSeCN mole vol.= 0.0000 cc mole wt.= 212.8574 g 4 species in reaction 1.000 Ag+ -1.000 e- 1.000 Cn- .500 Se2-- * log10 K(298 K) = -29.2790 a= -29.279 b= 0 c= 0 d= 0 e= 0 f= 0 AgTcO4(cr) type= formula= AgTcO4 mole vol.= 0.0000 cc mole wt.= 269.8642 g 2 species in reaction 1.000 Ag+ 1.000 TcO4- * log10 K(298 K) = -3.2700 a= -3.27 b= 0 c= 0 d= 0 e= 0 f= 0 Am(OH)3(am) type= formula= Am(OH)3 mole vol.= 0.0000 cc mole wt.= 294.0207 g 3 species in reaction 3.000 H2O -3.000 H+ 1.000 Am+++ * log10 K(298 K) = 16.9000 a= 16.9 b= 0 c= 0 d= 0 e= 0 f= 0 Am(OH)3(cr) type= formula= Am(OH)3 mole vol.= 0.0000 cc mole wt.= 294.0207 g 3 species in reaction 3.000 H2O -3.000 H+ 1.000 Am+++ * log10 K(298 K) = 15.6000 a= 15.6 b= 0 c= 0 d= 0 e= 0 f= 0 Am2(CO3)3(cr) type= formula= Am2(CO3)3 mole vol.= 0.0000 cc mole wt.= 666.0246 g 2 species in reaction 2.000 Am+++ 3.000 CO3-- * log10 K(298 K) = -33.4000 a= -33.4 b= 0 c= 0 d= 0 e= 0 f= 0 AmCO3OH(am,hyd) type= formula= AmCO3OH mole vol.= 0.0000 cc mole wt.= 320.0151 g 4 species in reaction 1.000 H2O -1.000 H+ 1.000 Am+++ 1.000 CO3-- * log10 K(298 K) = -6.1990 a= -6.199 b= 0 c= 0 d= 0 e= 0 f= 0 AmCO3OH:0.5H2O(cr) type= formula= AmCO3OH:0.5H2O mole vol.= 0.0000 cc mole wt.= 329.0225 g 4 species in reaction 1.500 H2O -1.000 H+ 1.000 Am+++ 1.000 CO3-- * log10 K(298 K) = -8.3990 a= -8.399 b= 0 c= 0 d= 0 e= 0 f= 0 AmO2OH(am) type= formula= AmO2OH mole vol.= 0.0000 cc mole wt.= 292.0049 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 AmO2+ * log10 K(298 K) = 5.3000 a= 5.3 b= 0 c= 0 d= 0 e= 0 f= 0 AmOBr(cr) type= formula= AmOBr mole vol.= 0.0000 cc mole wt.= 338.9030 g 4 species in reaction 1.000 H2O -2.000 H+ 1.000 Am+++ 1.000 Br- * log10 K(298 K) = 15.9780 a= 15.978 b= 0 c= 0 d= 0 e= 0 f= 0 AmOCl(cr) type= formula= AmOCl mole vol.= 0.0000 cc mole wt.= 294.4520 g 4 species in reaction 1.000 H2O -2.000 H+ 1.000 Am+++ 1.000 Cl- * log10 K(298 K) = 12.2640 a= 12.264 b= 0 c= 0 d= 0 e= 0 f= 0 AmPO4(am,hyd) type= formula= AmPO4 mole vol.= 0.0000 cc mole wt.= 337.9698 g 3 species in reaction -2.000 H+ 1.000 Am+++ 1.000 H2(PO4)- * log10 K(298 K) = -5.2280 a= -5.228 b= 0 c= 0 d= 0 e= 0 f= 0 BaSeO3(cr) type= formula= BaSeO3 mole vol.= 0.0000 cc mole wt.= 264.2950 g 2 species in reaction 1.000 Ba++ 1.000 SeO3-- * log10 K(298 K) = -6.5000 a= -6.5 b= 0 c= 0 d= 0 e= 0 f= 0 BaSeO4(cr) type= formula= BaSeO4 mole vol.= 0.0000 cc mole wt.= 280.2940 g 2 species in reaction 1.000 Ba++ 1.000 SeO4-- * log10 K(298 K) = -7.5600 a= -7.56 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(Isa)2(cr) type= formula= Ca(C6H11O6)2 mole vol.= 0.0000 cc mole wt.= 398.3742 g 2 species in reaction 1.000 Ca++ 2.000 Isa- * log10 K(298 K) = -6.4000 a= -6.4 b= 0 c= 0 d= 0 e= 0 f= 0 Ca3(Cit)2:4H2O(cr) type= formula= Ca3(COOCH2COHCOOCH2COO)2:4H2O mole vol.= 0.0000 cc mole wt.= 570.4926 g 3 species in reaction 4.000 H2O 3.000 Ca++ 2.000 Cit--- * log10 K(298 K) = -17.9000 a= -17.9 b= 0 c= 0 d= 0 e= 0 f= 0 CaOx:2H2O(cr) type= formula= Ca(COO)2:2H2O mole vol.= 0.0000 cc mole wt.= 164.1260 g 3 species in reaction 2.000 H2O 1.000 Ca++ 1.000 Ox-- * log10 K(298 K) = -8.3000 a= -8.299991753 b= 0 c= 0 d= -1316.28 e= 0 f= 0 CaOx:3H2O(cr) type= formula= Ca(COO)2:3H2O mole vol.= 0.0000 cc mole wt.= 182.1408 g 3 species in reaction 3.000 H2O 1.000 Ca++ 1.000 Ox-- * log10 K(298 K) = -8.1900 a= -8.189992316 b= 0 c= 0 d= -1551.33 e= 0 f= 0 CaOx:H2O(cr) type= formula= Ca(COO)2:H2O mole vol.= 0.0000 cc mole wt.= 146.1112 g 3 species in reaction 1.000 H2O 1.000 Ca++ 1.000 Ox-- * log10 K(298 K) = -8.7300 a= -8.72998112 b= 0 c= 0 d= -1123.016 e= 0 f= 0 CaSeO3:H2O(cr) type= formula= CaSeO3:H2O mole vol.= 0.0000 cc mole wt.= 185.0608 g 3 species in reaction 1.000 H2O 1.000 Ca++ 1.000 SeO3-- * log10 K(298 K) = -6.4000 a= -6.4 b= 0 c= 0 d= 0 e= 0 f= 0 CaSeO4:2H2O(cr) type= formula= CaSeO4:2H2O mole vol.= 0.0000 cc mole wt.= 219.0746 g 3 species in reaction 2.000 H2O 1.000 Ca++ 1.000 SeO4-- * log10 K(298 K) = -2.6800 a= -2.68 b= 0 c= 0 d= 0 e= 0 f= 0 CaU6O19:11H2O(cr) type= formula= CaU6O19:11H2O mole vol.= 0.0000 cc mole wt.= 1970.3952 g 4 species in reaction 18.000 H2O -14.000 H+ 1.000 Ca++ 6.000 UO2++ * log10 K(298 K) = 40.5000 a= 40.5 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(SeCn)2(cr) type= formula= Cd(SeCN)2 mole vol.= 0.0000 cc mole wt.= 322.3924 g 4 species in reaction -2.000 e- 1.000 Cd++ 2.000 Cn- 1.000 Se2-- * log10 K(298 K) = -36.2610 a= -36.261 b= 0 c= 0 d= 0 e= 0 f= 0 CoSeO3:2H2O(cr) type= formula= CoSeO3:2H2O mole vol.= 0.0000 cc mole wt.= 221.9308 g 3 species in reaction 2.000 H2O 1.000 Co++ 1.000 SeO3-- * log10 K(298 K) = -7.9000 a= -7.9 b= 0 c= 0 d= 0 e= 0 f= 0 CoSeO4:6H2O(cr) type= formula= CoSeO4:6H2O mole vol.= 0.0000 cc mole wt.= 309.9890 g 3 species in reaction 6.000 H2O 1.000 Co++ 1.000 SeO4-- * log10 K(298 K) = -1.7590 a= -1.759 b= 0 c= 0 d= 0 e= 0 f= 0 Cs2SeO4(cr) type= formula= Cs2SeO4 mole vol.= 0.0000 cc mole wt.= 408.7778 g 2 species in reaction 2.000 Cs+ 1.000 SeO4-- * log10 K(298 K) = 0.6360 a= 0.636 b= 0 c= 0 d= 0 e= 0 f= 0 Cs3PuCl6(cr) type= formula= Cs3PuCl6 mole vol.= 0.0000 cc mole wt.= 855.4342 g 3 species in reaction 6.000 Cl- 3.000 Cs+ 1.000 Pu+++ * log10 K(298 K) = 5.7130 a= 5.713 b= 0 c= 0 d= 0 e= 0 f= 0 CsPu2Cl7(cr) type= formula= CsPu2Cl7 mole vol.= 0.0000 cc mole wt.= 869.0764 g 3 species in reaction 7.000 Cl- 1.000 Cs+ 2.000 Pu+++ * log10 K(298 K) = 23.2700 a= 23.27 b= 0 c= 0 d= 0 e= 0 f= 0 CsTcO4(cr) type= formula= CsTcO4 mole vol.= 0.0000 cc mole wt.= 294.9014 g 2 species in reaction 1.000 Cs+ 1.000 TcO4- * log10 K(298 K) = -3.6170 a= -3.617 b= 0 c= 0 d= 0 e= 0 f= 0 CuSeO4:5H2O(cr) type= formula= CuSeO4:5H2O mole vol.= 0.0000 cc mole wt.= 296.5870 g 3 species in reaction 5.000 H2O 1.000 Cu++ 1.000 SeO4-- * log10 K(298 K) = -2.4400 a= -2.44 b= 0 c= 0 d= 0 e= 0 f= 0 Fe2(SeO3)3:6H2O(cr) type= formula= Fe2(SeO3)3:6H2O mole vol.= 0.0000 cc mole wt.= 600.6828 g 3 species in reaction 6.000 H2O 2.000 Fe+++ 3.000 SeO3-- * log10 K(298 K) = -41.5800 a= -41.58 b= 0 c= 0 d= 0 e= 0 f= 0 FeSO4:7H2O(cr) type= formula= FeSO4:7H2O mole vol.= 0.0000 cc mole wt.= 278.0086 g 3 species in reaction 7.000 H2O 1.000 SO4-- 1.000 Fe++ * log10 K(298 K) = -2.2785 a= -2.278535961 b= 0 c= 0 d= -630.3517 e= 0 f= 0 Ga2(SeO3)3:6H2O(cr) type= formula= Ga2(SeO3)3:6H2O mole vol.= 0.0000 cc mole wt.= 628.4388 g 3 species in reaction 6.000 H2O 2.000 Ga+++ 3.000 SeO3-- * log10 K(298 K) = -37.0000 a= -37 b= 0 c= 0 d= 0 e= 0 f= 0 H3Cit(cr) type= formula= COOHCH2COHCOOHCH2COOH mole vol.= 0.0000 cc mole wt.= 192.1234 g 2 species in reaction 3.000 H+ 1.000 Cit--- * log10 K(298 K) = -13.0410 a= -13.041 b= 0 c= 0 d= 0 e= 0 f= 0 Hg2SeO3(cr) type= formula= Hg2SeO3 mole vol.= 0.0000 cc mole wt.= 528.1520 g 3 species in reaction 2.000 e- 2.000 Hg++ 1.000 SeO3-- * log10 K(298 K) = -45.9930 a= -45.993 b= 0 c= 0 d= 0 e= 0 f= 0 HgSeO3(cr) type= formula= HgSeO3 mole vol.= 0.0000 cc mole wt.= 327.5600 g 2 species in reaction 1.000 Hg++ 1.000 SeO3-- * log10 K(298 K) = -16.2000 a= -16.2 b= 0 c= 0 d= 0 e= 0 f= 0 In2(SeO3)3:6H2O(cr) type= formula= In2(SeO3)3:6H2O mole vol.= 0.0000 cc mole wt.= 718.6288 g 3 species in reaction 6.000 H2O 2.000 In+++ 3.000 SeO3-- * log10 K(298 K) = -39.0000 a= -39 b= 0 c= 0 d= 0 e= 0 f= 0 K2SeO4(cr) type= formula= K2SeO4 mole vol.= 0.0000 cc mole wt.= 221.1636 g 2 species in reaction 2.000 K+ 1.000 SeO4-- * log10 K(298 K) = 0.9040 a= 0.904 b= 0 c= 0 d= 0 e= 0 f= 0 K2U6O19:11H2O(cr) type= formula= K2U6O19:11H2O mole vol.= 0.0000 cc mole wt.= 2008.5138 g 4 species in reaction 18.000 H2O -14.000 H+ 2.000 K+ 6.000 UO2++ * log10 K(298 K) = 37.1000 a= 37.1 b= 0 c= 0 d= 0 e= 0 f= 0 K3NpO2(CO3)2(cr) type= formula= K3NpO2(CO3)2 mole vol.= 0.0000 cc mole wt.= 506.3093 g 3 species in reaction 2.000 CO3-- 3.000 K+ 1.000 NpO2+ * log10 K(298 K) = -15.4600 a= -15.46 b= 0 c= 0 d= 0 e= 0 f= 0 K4NpO2(CO3)3(cr) type= formula= K4NpO2(CO3)3 mole vol.= 0.0000 cc mole wt.= 605.4158 g 3 species in reaction 3.000 CO3-- 4.000 K+ 1.000 NpO2++ * log10 K(298 K) = -26.4040 a= -26.404 b= 0 c= 0 d= 0 e= 0 f= 0 KNpO2CO3(cr) type= formula= KNpO2CO3 mole vol.= 0.0000 cc mole wt.= 368.1045 g 3 species in reaction 1.000 CO3-- 1.000 K+ 1.000 NpO2+ * log10 K(298 K) = -13.1500 a= -13.15 b= 0 c= 0 d= 0 e= 0 f= 0 KTcO4(cr) type= formula= KTcO4 mole vol.= 0.0000 cc mole wt.= 201.0943 g 2 species in reaction 1.000 K+ 1.000 TcO4- * log10 K(298 K) = -2.2880 a= -2.287995883 b= 0 c= 0 d= -2800.751 e= 0 f= 0 Li2SeO4:H2O(cr) type= formula= Li2SeO4:H2O mole vol.= 0.0000 cc mole wt.= 174.8638 g 3 species in reaction 1.000 H2O 2.000 Li+ 1.000 SeO4-- * log10 K(298 K) = 1.7620 a= 1.762 b= 0 c= 0 d= 0 e= 0 f= 0 MgSeO3:6H2O(cr) type= formula= MgSeO3:6H2O mole vol.= 0.0000 cc mole wt.= 259.3618 g 3 species in reaction 6.000 H2O 1.000 Mg++ 1.000 SeO3-- * log10 K(298 K) = -5.8200 a= -5.82 b= 0 c= 0 d= 0 e= 0 f= 0 MgSeO4:6H2O(cr) type= formula= MgSeO4:6H2O mole vol.= 0.0000 cc mole wt.= 275.3608 g 3 species in reaction 6.000 H2O 1.000 Mg++ 1.000 SeO4-- * log10 K(298 K) = -1.1330 a= -1.133 b= 0 c= 0 d= 0 e= 0 f= 0 MnSeO3:2H2O(cr) type= formula= MnSeO3:2H2O mole vol.= 0.0000 cc mole wt.= 217.9356 g 3 species in reaction 2.000 H2O 1.000 Mn++ 1.000 SeO3-- * log10 K(298 K) = -7.6000 a= -7.6 b= 0 c= 0 d= 0 e= 0 f= 0 NH4HSe(cr) type= formula= NH4HSe mole vol.= 0.0000 cc mole wt.= 98.0175 g 5 species in reaction 8.000 e- -3.000 H2O 10.000 H+ 1.000 NO3- 1.000 HSe- * log10 K(298 K) = -117.0730 a= -117.073 b= 0 c= 0 d= 0 e= 0 f= 0 NH4TcO4(cr) type= formula= NH4TcO4 mole vol.= 0.0000 cc mole wt.= 180.0346 g 2 species in reaction 1.000 NH4+ 1.000 TcO4- * log10 K(298 K) = -0.9100 a= -0.91 b= 0 c= 0 d= 0 e= 0 f= 0 Na2SeO4:10H2O(cr) type= formula= Na2SeO4:10H2O mole vol.= 0.0000 cc mole wt.= 369.0946 g 3 species in reaction 10.000 H2O 2.000 Na+ 1.000 SeO4-- * log10 K(298 K) = -0.6810 a= -0.681 b= 0 c= 0 d= 0 e= 0 f= 0 Na3NpF8(cr) type= formula= Na3NpF8 mole vol.= 0.0000 cc mole wt.= 457.9566 g 5 species in reaction -2.000 H2O 4.000 H+ 8.000 F- 3.000 Na+ 1.000 NpO2+ * log10 K(298 K) = -8.7090 a= -8.709 b= 0 c= 0 d= 0 e= 0 f= 0 Na3NpO2(CO3)2(cr) type= formula= Na3NpO2(CO3)2 mole vol.= 0.0000 cc mole wt.= 457.9838 g 3 species in reaction 2.000 CO3-- 3.000 Na+ 1.000 NpO2+ * log10 K(298 K) = -14.2200 a= -14.22 b= 0 c= 0 d= 0 e= 0 f= 0 Na4UO2(CO3)3(cr) type= formula= Na4UO2(CO3)3 mole vol.= 0.0000 cc mole wt.= 542.0107 g 3 species in reaction 3.000 CO3-- 4.000 Na+ 1.000 UO2++ * log10 K(298 K) = -27.1800 a= -27.18 b= 0 c= 0 d= 0 e= 0 f= 0 Na6Th(CO3)5:12H2O(cr) type= formula= Na6Th(CO3)5:12H2O mole vol.= 0.0000 cc mole wt.= 886.1951 g 4 species in reaction 12.000 H2O 5.000 CO3-- 6.000 Na+ 1.000 Th++++ * log10 K(298 K) = -42.2000 a= -42.2 b= 0 c= 0 d= 0 e= 0 f= 0 NaAm(CO3)2:5H2O(cr) type= formula= NaAm(CO3)2:5H2O mole vol.= 0.0000 cc mole wt.= 476.0802 g 4 species in reaction 5.000 H2O 1.000 Am+++ 2.000 CO3-- 1.000 Na+ * log10 K(298 K) = -21.0000 a= -21 b= 0 c= 0 d= 0 e= 0 f= 0 NaAmO2CO3(cr) type= formula= NaAmO2CO3 mole vol.= 0.0000 cc mole wt.= 357.9960 g 3 species in reaction 1.000 CO3-- 1.000 Na+ 1.000 AmO2+ * log10 K(298 K) = -10.9000 a= -10.9 b= 0 c= 0 d= 0 e= 0 f= 0 NaNpO2CO3:3.5H2O(cr) type= formula= NaNpO2CO3:3.5H2O mole vol.= 0.0000 cc mole wt.= 415.0478 g 4 species in reaction 3.500 H2O 1.000 CO3-- 1.000 Na+ 1.000 NpO2+ * log10 K(298 K) = -11.0000 a= -11 b= 0 c= 0 d= 0 e= 0 f= 0 NaTcO4:4H2O(cr) type= formula= NaTcO4:4H2O mole vol.= 0.0000 cc mole wt.= 257.0450 g 3 species in reaction 4.000 H2O 1.000 Na+ 1.000 TcO4- * log10 K(298 K) = 0.7900 a= 0.79 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(IO3)2(beta) type= formula= Ni(IO3)2 mole vol.= 0.0000 cc mole wt.= 408.4964 g 2 species in reaction 2.000 IO3- 1.000 Ni++ * log10 K(298 K) = -4.4300 a= -4.429995801 b= 0 c= 0 d= 381.3032 e= 0 f= 0 Ni(IO3)2:2H2O(cr) type= formula= Ni(IO3)2:2H2O mole vol.= 0.0000 cc mole wt.= 444.5260 g 3 species in reaction 2.000 H2O 2.000 IO3- 1.000 Ni++ * log10 K(298 K) = -5.1400 a= -5.140008502 b= 0 c= 0 d= -1128.24 e= 0 f= 0 Ni3(AsO3)2(cr,hyd) type= formula= Ni3(AsO3)2 mole vol.= 0.0000 cc mole wt.= 421.9174 g 5 species in reaction 4.000 e- -2.000 H2O 4.000 H+ 3.000 Ni++ 2.000 AsO4--- * log10 K(298 K) = -51.4830 a= -51.483 b= 0 c= 0 d= 0 e= 0 f= 0 Ni3(AsO4)2:8H2O(cr) type= formula= Ni3(AsO4)2:8H2O mole vol.= 0.0000 cc mole wt.= 598.0338 g 3 species in reaction 8.000 H2O 3.000 Ni++ 2.000 AsO4--- * log10 K(298 K) = -28.1000 a= -28.1 b= 0 c= 0 d= 0 e= 0 f= 0 NiCO3(cr) type= formula= NiCO3 mole vol.= 0.0000 cc mole wt.= 118.7016 g 2 species in reaction 1.000 CO3-- 1.000 Ni++ * log10 K(298 K) = -10.9920 a= -10.992 b= 0 c= 0 d= 0 e= 0 f= 0 NiCO3:5.5H2O(cr) type= formula= NiCO3:5.5H2O mole vol.= 0.0000 cc mole wt.= 217.7830 g 3 species in reaction 5.500 H2O 1.000 CO3-- 1.000 Ni++ * log10 K(298 K) = -7.5220 a= -7.522 b= 0 c= 0 d= 0 e= 0 f= 0 NiCl2:2H2O(cr) type= formula= NiCl2:2H2O mole vol.= 0.0000 cc mole wt.= 165.6290 g 3 species in reaction 2.000 H2O 2.000 Cl- 1.000 Ni++ * log10 K(298 K) = 4.9240 a= 4.924 b= 0 c= 0 d= 0 e= 0 f= 0 NiCl2:4H2O(cr) type= formula= NiCl2:4H2O mole vol.= 0.0000 cc mole wt.= 201.6586 g 3 species in reaction 4.000 H2O 2.000 Cl- 1.000 Ni++ * log10 K(298 K) = 3.8220 a= 3.822 b= 0 c= 0 d= 0 e= 0 f= 0 NiCl2:6H2O(cr) type= formula= NiCl2:6H2O mole vol.= 0.0000 cc mole wt.= 237.6882 g 3 species in reaction 6.000 H2O 2.000 Cl- 1.000 Ni++ * log10 K(298 K) = 3.0450 a= 3.045 b= 0 c= 0 d= 0 e= 0 f= 0 NiSO4:6H2O(beta) type= formula= NiSO4:6H2O mole vol.= 0.0000 cc mole wt.= 262.8422 g 3 species in reaction 6.000 H2O 1.000 SO4-- 1.000 Ni++ * log10 K(298 K) = -2.1550 a= -2.155 b= 0 c= 0 d= 0 e= 0 f= 0 NiSO4:7H2O(cr) type= formula= NiSO4:7H2O mole vol.= 0.0000 cc mole wt.= 280.8570 g 3 species in reaction 7.000 H2O 1.000 SO4-- 1.000 Ni++ * log10 K(298 K) = -2.2670 a= -2.266994916 b= 0 c= 0 d= -635.5228 e= 0 f= 0 NiSeO3:2H2O(cr) type= formula= NiSeO3:2H2O mole vol.= 0.0000 cc mole wt.= 221.6910 g 3 species in reaction 2.000 H2O 1.000 Ni++ 1.000 SeO3-- * log10 K(298 K) = -5.8000 a= -5.8 b= 0 c= 0 d= 0 e= 0 f= 0 NiSeO4:6H2O(cr) type= formula= NiSeO4:6H2O mole vol.= 0.0000 cc mole wt.= 309.7492 g 3 species in reaction 6.000 H2O 1.000 Ni++ 1.000 SeO4-- * log10 K(298 K) = -1.3810 a= -1.381 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(am,hyd) type= formula= NpO2 mole vol.= 0.0000 cc mole wt.= 268.9980 g 3 species in reaction 2.000 H2O -4.000 H+ 1.000 Np++++ * log10 K(298 K) = 1.5300 a= 1.53 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2CO3(cr) type= formula= NpO2CO3 mole vol.= 0.0000 cc mole wt.= 329.0062 g 2 species in reaction 1.000 CO3-- 1.000 NpO2++ * log10 K(298 K) = -14.5960 a= -14.596 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2OH(am,aged) type= formula= NpO2OH mole vol.= 0.0000 cc mole wt.= 286.0049 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 NpO2+ * log10 K(298 K) = 4.7000 a= 4.7 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2OH(am,fresh) type= formula= NpO2OH mole vol.= 0.0000 cc mole wt.= 286.0049 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 NpO2+ * log10 K(298 K) = 5.3000 a= 5.3 b= 0 c= 0 d= 0 e= 0 f= 0 NpO3:H2O(cr) type= formula= NpO3:H2O mole vol.= 0.0000 cc mole wt.= 303.0118 g 3 species in reaction 2.000 H2O -2.000 H+ 1.000 NpO2++ * log10 K(298 K) = 5.4700 a= 5.47 b= 0 c= 0 d= 0 e= 0 f= 0 PbSeO3(cr) type= formula= PbSeO3 mole vol.= 0.0000 cc mole wt.= 334.1680 g 2 species in reaction 1.000 Pb++ 1.000 SeO3-- * log10 K(298 K) = -12.5000 a= -12.5 b= 0 c= 0 d= 0 e= 0 f= 0 PbSeO4(cr) type= formula= PbSeO4 mole vol.= 0.0000 cc mole wt.= 350.1670 g 2 species in reaction 1.000 Pb++ 1.000 SeO4-- * log10 K(298 K) = -6.9000 a= -6.900019572 b= 0 c= 0 d= -246.5413 e= 0 f= 0 Pu(HPO4)2(am,hyd) type= formula= Pu(HPO4)2 mole vol.= 0.0000 cc mole wt.= 435.9554 g 3 species in reaction -2.000 H+ 2.000 H2(PO4)- 1.000 Pu++++ * log10 K(298 K) = -16.0260 a= -16.026 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(OH)3(cr) type= formula= Pu(OH)3 mole vol.= 0.0000 cc mole wt.= 295.0207 g 3 species in reaction 3.000 H2O -3.000 H+ 1.000 Pu+++ * log10 K(298 K) = 15.8000 a= 15.8 b= 0 c= 0 d= 0 e= 0 f= 0 PuF6(cr) type= formula= PuF6 mole vol.= 0.0000 cc mole wt.= 357.9904 g 4 species in reaction -2.000 H2O 4.000 H+ 6.000 F- 1.000 PuO2++ * log10 K(298 K) = 43.3340 a= 43.334 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(OH)2:H2O(cr) type= formula= PuO2(OH)2:H2O mole vol.= 0.0000 cc mole wt.= 328.0266 g 3 species in reaction 3.000 H2O -2.000 H+ 1.000 PuO2++ * log10 K(298 K) = 5.5000 a= 5.5 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(am,hyd) type= formula= PuO2 mole vol.= 0.0000 cc mole wt.= 275.9980 g 3 species in reaction 2.000 H2O -4.000 H+ 1.000 Pu++++ * log10 K(298 K) = -2.3250 a= -2.325 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2CO3(cr) type= formula= PuO2CO3 mole vol.= 0.0000 cc mole wt.= 336.0062 g 2 species in reaction 1.000 CO3-- 1.000 PuO2++ * log10 K(298 K) = -14.6500 a= -14.65 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2OH(am) type= formula= PuO2OH mole vol.= 0.0000 cc mole wt.= 293.0049 g 3 species in reaction 1.000 H2O -1.000 H+ 1.000 PuO2+ * log10 K(298 K) = 5.0000 a= 5 b= 0 c= 0 d= 0 e= 0 f= 0 PuOBr(cr) type= formula= PuOBr mole vol.= 0.0000 cc mole wt.= 339.9030 g 4 species in reaction 1.000 H2O -2.000 H+ 1.000 Br- 1.000 Pu+++ * log10 K(298 K) = 14.2990 a= 14.299 b= 0 c= 0 d= 0 e= 0 f= 0 PuOCl(cr) type= formula= PuOCl mole vol.= 0.0000 cc mole wt.= 295.4520 g 4 species in reaction 1.000 H2O -2.000 H+ 1.000 Cl- 1.000 Pu+++ * log10 K(298 K) = 11.3760 a= 11.376 b= 0 c= 0 d= 0 e= 0 f= 0 PuPO4(s,hyd) type= formula= PuPO4 mole vol.= 0.0000 cc mole wt.= 338.9698 g 3 species in reaction -2.000 H+ 1.000 H2(PO4)- 1.000 Pu+++ * log10 K(298 K) = -5.0380 a= -5.038 b= 0 c= 0 d= 0 e= 0 f= 0 Sn21Cl16(OH)14O6(cr) type= formula= Sn21Cl16(OH)14O6 mole vol.= 0.0000 cc mole wt.= 3394.2486 g 4 species in reaction 20.000 H2O -26.000 H+ 16.000 Cl- 21.000 Sn++ * log10 K(298 K) = -34.0200 a= -34.02 b= 0 c= 0 d= 0 e= 0 f= 0 SrSeO3(cr) type= formula= SrSeO3 mole vol.= 0.0000 cc mole wt.= 214.5880 g 2 species in reaction 1.000 Sr++ 1.000 SeO3-- * log10 K(298 K) = -6.3000 a= -6.3 b= 0 c= 0 d= 0 e= 0 f= 0 Tc2O7:H2O(cr) type= formula= Tc2O7:H2O mole vol.= 0.0000 cc mole wt.= 326.0078 g 2 species in reaction 2.000 H+ 2.000 TcO4- * log10 K(298 K) = 14.1050 a= 14.105 b= 0 c= 0 d= 0 e= 0 f= 0 TcO2:1.6H2O(cr) type= formula= TcO2:1.6H2O mole vol.= 0.0000 cc mole wt.= 158.8217 g 4 species in reaction 3.000 e- -.400 H2O 4.000 H+ 1.000 TcO4- * log10 K(298 K) = -37.8290 a= -37.829 b= 0 c= 0 d= 0 e= 0 f= 0 Th(SO4)2:9H2O(cr) type= formula= Th(SO4)2:9H2O mole vol.= 0.0000 cc mole wt.= 586.2909 g 3 species in reaction 9.000 H2O 2.000 SO4-- 1.000 Th++++ * log10 K(298 K) = -11.2500 a= -11.25 b= 0 c= 0 d= 0 e= 0 f= 0 ThF4(cr) type= formula= ThF4 mole vol.= 0.0000 cc mole wt.= 308.0313 g 2 species in reaction 4.000 F- 1.000 Th++++ * log10 K(298 K) = -30.6340 a= -30.634 b= 0 c= 0 d= 0 e= 0 f= 0 ThO2(am,hydr,aged) type= formula= ThO2 mole vol.= 0.0000 cc mole wt.= 264.0357 g 3 species in reaction 2.000 H2O -4.000 H+ 1.000 Th++++ * log10 K(298 K) = 8.5050 a= 8.505 b= 0 c= 0 d= 0 e= 0 f= 0 ThO2(am,hydr,fresh) type= formula= ThO2 mole vol.= 0.0000 cc mole wt.= 264.0357 g 3 species in reaction 2.000 H2O -4.000 H+ 1.000 Th++++ * log10 K(298 K) = 9.3050 a= 9.305 b= 0 c= 0 d= 0 e= 0 f= 0 Tl2SeO4(cr) type= formula= Tl2SeO4 mole vol.= 0.0000 cc mole wt.= 551.7270 g 2 species in reaction 1.000 SeO4-- 2.000 Tl+ * log10 K(298 K) = -3.9000 a= -3.899986595 b= 0 c= 0 d= -2246.033 e= 0 f= 0 TlTcO4(cr) type= formula= TlTcO4 mole vol.= 0.0000 cc mole wt.= 366.3760 g 2 species in reaction 1.000 Tl+ 1.000 TcO4- * log10 K(298 K) = -5.3200 a= -5.32 b= 0 c= 0 d= 0 e= 0 f= 0 U(HPO4)2:4H2O(cr) type= formula= U(HPO4)2:4H2O mole vol.= 0.0000 cc mole wt.= 502.0435 g 4 species in reaction 4.000 H2O -2.000 H+ 2.000 H2(PO4)- 1.000 U++++ * log10 K(298 K) = -16.0700 a= -16.07 b= 0 c= 0 d= 0 e= 0 f= 0 U(OH)2SO4(cr) type= formula= U(OH)2SO4 mole vol.= 0.0000 cc mole wt.= 368.1027 g 4 species in reaction 2.000 H2O 1.000 SO4-- -2.000 H+ 1.000 U++++ * log10 K(298 K) = -3.1670 a= -3.167 b= 0 c= 0 d= 0 e= 0 f= 0 U2O3F6(cr) type= formula= U2O3F6 mole vol.= 0.0000 cc mole wt.= 638.0452 g 4 species in reaction -1.000 H2O 2.000 H+ 6.000 F- 2.000 UO2++ * log10 K(298 K) = -2.7380 a= -2.738 b= 0 c= 0 d= 0 e= 0 f= 0 U3O5F8(cr) type= formula= U3O5F8 mole vol.= 0.0000 cc mole wt.= 946.0689 g 4 species in reaction -1.000 H2O 2.000 H+ 8.000 F- 3.000 UO2++ * log10 K(298 K) = -3.0550 a= -3.055 b= 0 c= 0 d= 0 e= 0 f= 0 UF4:2.5H2O(cr) type= formula= UF4:2.5H2O mole vol.= 0.0000 cc mole wt.= 359.0595 g 3 species in reaction 2.500 H2O 4.000 F- 1.000 U++++ * log10 K(298 K) = -33.5460 a= -33.546 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(IO3)2(cr) type= formula= UO2(IO3)2 mole vol.= 0.0000 cc mole wt.= 619.8299 g 2 species in reaction 2.000 IO3- 1.000 UO2++ * log10 K(298 K) = -7.8800 a= -7.88 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(am,hyd) type= formula= UO2 mole vol.= 0.0000 cc mole wt.= 270.0269 g 3 species in reaction 2.000 H2O -4.000 H+ 1.000 U++++ * log10 K(298 K) = 1.5050 a= 1.505 b= 0 c= 0 d= 0 e= 0 f= 0 UO2CO3(cr) type= formula= UO2CO3 mole vol.= 0.0000 cc mole wt.= 330.0351 g 2 species in reaction 1.000 CO3-- 1.000 UO2++ * log10 K(298 K) = -14.7600 a= -14.76 b= 0 c= 0 d= 0 e= 0 f= 0 UO2F2:3H2O(cr) type= formula= UO2F2:3H2O mole vol.= 0.0000 cc mole wt.= 362.0681 g 5 species in reaction -2.000 e- 5.000 H2O -4.000 H+ 2.000 F- 1.000 U++++ * log10 K(298 K) = 1.5680 a= 1.568 b= 0 c= 0 d= 0 e= 0 f= 0 UO2FOH:2H2O(cr) type= formula= UO2FOH:2H2O mole vol.= 0.0000 cc mole wt.= 342.0618 g 4 species in reaction 3.000 H2O -1.000 H+ 1.000 F- 1.000 UO2++ * log10 K(298 K) = -2.7220 a= -2.722 b= 0 c= 0 d= 0 e= 0 f= 0 UO2HPO4:4H2O(cr) type= formula= UO2HPO4:4H2O mole vol.= 0.0000 cc mole wt.= 438.0638 g 4 species in reaction 4.000 H2O -1.000 H+ 1.000 H2(PO4)- 1.000 UO2++ * log10 K(298 K) = -4.6400 a= -4.64 b= 0 c= 0 d= 0 e= 0 f= 0 UO2Ox:3H2O(cr) type= formula= UO2(COO)2:3H2O mole vol.= 0.0000 cc mole wt.= 412.0897 g 3 species in reaction 3.000 H2O 1.000 UO2++ 1.000 Ox-- * log10 K(298 K) = -8.9300 a= -8.93 b= 0 c= 0 d= 0 e= 0 f= 0 UO2SO4:2.5H2O(cr) type= formula= UO2SO4:2.5H2O mole vol.= 0.0000 cc mole wt.= 411.1239 g 3 species in reaction 2.500 H2O 1.000 SO4-- 1.000 UO2++ * log10 K(298 K) = -1.5890 a= -1.589 b= 0 c= 0 d= 0 e= 0 f= 0 UO2SO4:3.5H2O(cr) type= formula= UO2SO4:3.5H2O mole vol.= 0.0000 cc mole wt.= 429.1387 g 3 species in reaction 3.500 H2O 1.000 SO4-- 1.000 UO2++ * log10 K(298 K) = -1.5850 a= -1.585 b= 0 c= 0 d= 0 e= 0 f= 0 UO2SO4:3H2O(cr) type= formula= UO2SO4:3H2O mole vol.= 0.0000 cc mole wt.= 420.1313 g 3 species in reaction 3.000 H2O 1.000 SO4-- 1.000 UO2++ * log10 K(298 K) = -1.5040 a= -1.504 b= 0 c= 0 d= 0 e= 0 f= 0 ZnSeO4:6H2O(cr) type= formula= ZnSeO4:6H2O mole vol.= 0.0000 cc mole wt.= 316.4358 g 3 species in reaction 6.000 H2O 1.000 Zn++ 1.000 SeO4-- * log10 K(298 K) = -1.5380 a= -1.538 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(HPO4)2:H2O(cr) type= formula= Zr(HPO4)2:H2O mole vol.= 0.0000 cc mole wt.= 301.1942 g 4 species in reaction 1.000 H2O -2.000 H+ 2.000 H2(PO4)- 1.000 Zr++++ * log10 K(298 K) = -27.0800 a= -27.08 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(OH)4(am,fresh) type= formula= Zr(OH)4 mole vol.= 0.0000 cc mole wt.= 159.2516 g 3 species in reaction 4.000 H2O -4.000 H+ 1.000 Zr++++ * log10 K(298 K) = -3.2400 a= -3.24 b= 0 c= 0 d= 0 e= 0 f= 0 ZrN(cr) type= formula= ZrN mole vol.= 0.0000 cc mole wt.= 105.2310 g 5 species in reaction 9.000 e- -3.000 H2O 6.000 H+ 1.000 NO3- 1.000 Zr++++ * log10 K(298 K) = -72.5240 a= -72.524 b= 0 c= 0 d= 0 e= 0 f= 0 -end- * Use TEdit to add solid solutions here globally, or add them locally * from the Solid Solutions... dialog in any of the GWB modeling apps. 0 solid solutions -end- 57 gases Am(g) mole wt.= 243.0000 g 2 species in reaction 3.000 e- 1.000 Am+++ * log10 K(298 K) = 147.3380 a= 147.338 b= 0 c= 0 d= 0 e= 0 f= 0 AmF3(g) mole wt.= 299.9952 g 2 species in reaction 1.000 Am+++ 3.000 F- * log10 K(298 K) = 51.7640 a= 51.764 b= 0 c= 0 d= 0 e= 0 f= 0 CSe2(g) mole wt.= 169.9532 g 5 species in reaction 2.000 e- -3.000 H2O 6.000 H+ 1.000 CO3-- 1.000 Se2-- * log10 K(298 K) = -16.1620 a= -16.162 b= 0 c= 0 d= 0 e= 0 f= 0 H2(g) mole wt.= 2.0158 g chi= -12.5908 .259789 -7.2473e-5 .00471947 -2.69962e-5 2.15622e-8 Pcrit= 12.93 bar Tcrit= 32.98 K omega= -.217 2 species in reaction 2.000 H+ 2.000 e- * log10 K(298 K) = 0.0000 a= 0 b= 0 c= 0 d= 0 e= 0 f= 0 Np(g) mole wt.= 237.0000 g 2 species in reaction 3.000 e- 1.000 Np+++ * log10 K(298 K) = 163.6390 a= 163.639 b= 0 c= 0 d= 0 e= 0 f= 0 NpCl3(g) mole wt.= 343.3590 g 2 species in reaction 3.000 Cl- 1.000 Np+++ * log10 K(298 K) = 56.7900 a= 56.79 b= 0 c= 0 d= 0 e= 0 f= 0 NpCl4(g) mole wt.= 378.8120 g 2 species in reaction 4.000 Cl- 1.000 Np++++ * log10 K(298 K) = 44.0770 a= 44.077 b= 0 c= 0 d= 0 e= 0 f= 0 NpF4(g) mole wt.= 312.9936 g 2 species in reaction 4.000 F- 1.000 Np++++ * log10 K(298 K) = 14.4670 a= 14.467 b= 0 c= 0 d= 0 e= 0 f= 0 NpF6(g) mole wt.= 350.9904 g 4 species in reaction -2.000 H2O 4.000 H+ 6.000 F- 1.000 NpO2++ * log10 K(298 K) = 30.3560 a= 30.356 b= 0 c= 0 d= 0 e= 0 f= 0 O2(g) mole wt.= 31.9980 g Pcrit= 50.43 bar Tcrit= 154.58 K omega= .025 3 species in reaction 2.000 H2O -4.000 H+ -4.000 e- * log10 K(298 K) = 83.0900 a= 83.09 b= 0 c= 0 d= 7.136475767 e= 0 f= 0 PbSe(g) mole wt.= 286.1710 g 3 species in reaction -1.000 H+ 1.000 Pb++ 1.000 HSe- * log10 K(298 K) = 11.1480 a= 11.148 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(g) mole wt.= 244.0000 g 2 species in reaction 3.000 e- 1.000 Pu+++ * log10 K(298 K) = 156.1650 a= 156.165 b= 0 c= 0 d= 0 e= 0 f= 0 PuBr3(g) mole wt.= 483.7120 g 2 species in reaction 3.000 Br- 1.000 Pu+++ * log10 K(298 K) = 63.1960 a= 63.196 b= 0 c= 0 d= 0 e= 0 f= 0 PuCl3(g) mole wt.= 350.3590 g 2 species in reaction 3.000 Cl- 1.000 Pu+++ * log10 K(298 K) = 58.0470 a= 58.047 b= 0 c= 0 d= 0 e= 0 f= 0 PuCl4(g) mole wt.= 385.8120 g 2 species in reaction 4.000 Cl- 1.000 Pu++++ * log10 K(298 K) = 41.7260 a= 41.726 b= 0 c= 0 d= 0 e= 0 f= 0 PuF3(g) mole wt.= 300.9952 g 2 species in reaction 3.000 F- 1.000 Pu+++ * log10 K(298 K) = 45.9830 a= 45.983 b= 0 c= 0 d= 0 e= 0 f= 0 PuF4(g) mole wt.= 319.9936 g 2 species in reaction 4.000 F- 1.000 Pu++++ * log10 K(298 K) = 15.1030 a= 15.103 b= 0 c= 0 d= 0 e= 0 f= 0 PuF6(g) mole wt.= 357.9904 g 4 species in reaction -2.000 H2O 4.000 H+ 6.000 F- 1.000 PuO2++ * log10 K(298 K) = 44.1740 a= 44.174 b= 0 c= 0 d= 0 e= 0 f= 0 Se(g) mole wt.= 78.9710 g 4 species in reaction 4.000 e- -3.000 H2O 6.000 H+ 1.000 SeO3-- * log10 K(298 K) = -26.8220 a= -26.822 b= 0 c= 0 d= 0 e= 0 f= 0 SeBr2(g) mole wt.= 238.7790 g 5 species in reaction 2.000 e- -3.000 H2O 6.000 H+ 2.000 Br- 1.000 SeO3-- * log10 K(298 K) = -25.5620 a= -25.562 b= 0 c= 0 d= 0 e= 0 f= 0 SeCl2(g) mole wt.= 149.8770 g 5 species in reaction 2.000 e- -3.000 H2O 6.000 H+ 2.000 Cl- 1.000 SeO3-- * log10 K(298 K) = -19.7160 a= -19.716 b= 0 c= 0 d= 0 e= 0 f= 0 SeF4(g) mole wt.= 154.9646 g 4 species in reaction -3.000 H2O 6.000 H+ 4.000 F- 1.000 SeO3-- * log10 K(298 K) = 2.0170 a= 2.017 b= 0 c= 0 d= 0 e= 0 f= 0 SeO2(g) mole wt.= 110.9690 g 3 species in reaction -1.000 H2O 2.000 H+ 1.000 SeO3-- * log10 K(298 K) = 1.7670 a= 1.767 b= 0 c= 0 d= 0 e= 0 f= 0 SeOCl2(g) mole wt.= 165.8760 g 4 species in reaction -2.000 H2O 4.000 H+ 2.000 Cl- 1.000 SeO3-- * log10 K(298 K) = 6.3630 a= 6.363 b= 0 c= 0 d= 0 e= 0 f= 0 SeOF2(g) mole wt.= 132.9668 g 4 species in reaction -2.000 H2O 4.000 H+ 2.000 F- 1.000 SeO3-- * log10 K(298 K) = -11.2580 a= -11.258 b= 0 c= 0 d= 0 e= 0 f= 0 SeS(g) mole wt.= 111.0350 g 5 species in reaction 8.000 e- -6.000 H2O 12.000 H+ 1.000 SO3-- 1.000 SeO3-- * log10 K(298 K) = -84.2010 a= -84.201 b= 0 c= 0 d= 0 e= 0 f= 0 SnBr2(g) mole wt.= 278.5180 g 2 species in reaction 2.000 Br- 1.000 Sn++ * log10 K(298 K) = 13.9000 a= 13.9 b= 0 c= 0 d= 0 e= 0 f= 0 SnBr4(g) mole wt.= 438.3260 g 2 species in reaction 4.000 Br- 1.000 Sn++++ * log10 K(298 K) = 4.7860 a= 4.786 b= 0 c= 0 d= 0 e= 0 f= 0 SnCl2(g) mole wt.= 189.6160 g 2 species in reaction 2.000 Cl- 1.000 Sn++ * log10 K(298 K) = 14.5220 a= 14.522 b= 0 c= 0 d= 0 e= 0 f= 0 SnCl4(g) mole wt.= 260.5220 g 2 species in reaction 4.000 Cl- 1.000 Sn++++ * log10 K(298 K) = 6.7530 a= 6.753 b= 0 c= 0 d= 0 e= 0 f= 0 SnF2(g) mole wt.= 156.7068 g 2 species in reaction 2.000 F- 1.000 Sn++ * log10 K(298 K) = 8.2430 a= 8.243 b= 0 c= 0 d= 0 e= 0 f= 0 SnI2(g) mole wt.= 372.5190 g 5 species in reaction 12.000 e- -6.000 H2O 12.000 H+ 2.000 IO3- 1.000 Sn++ * log10 K(298 K) = -210.7840 a= -210.784 b= 0 c= 0 d= 0 e= 0 f= 0 SnI4(g) mole wt.= 626.3280 g 5 species in reaction 24.000 e- -12.000 H2O 24.000 H+ 4.000 IO3- 1.000 Sn++++ * log10 K(298 K) = -447.6500 a= -447.65 b= 0 c= 0 d= 0 e= 0 f= 0 SnSe(g) mole wt.= 197.6810 g 5 species in reaction 6.000 e- -3.000 H2O 6.000 H+ 1.000 Sn++ 1.000 SeO3-- * log10 K(298 K) = -45.5110 a= -45.511 b= 0 c= 0 d= 0 e= 0 f= 0 Tc(g) mole wt.= 98.0000 g 4 species in reaction 6.000 e- -4.000 H2O 8.000 H+ 1.000 TcO4-- * log10 K(298 K) = 45.1840 a= 45.184 b= 0 c= 0 d= 0 e= 0 f= 0 Tc2O7(g) mole wt.= 307.9930 g 3 species in reaction -1.000 H2O 2.000 H+ 2.000 TcO4- * log10 K(298 K) = 23.2750 a= 23.275 b= 0 c= 0 d= 0 e= 0 f= 0 Th(g) mole wt.= 232.0377 g 2 species in reaction 4.000 e- 1.000 Th++++ * log10 K(298 K) = 221.7530 a= 221.753 b= 0 c= 0 d= 0 e= 0 f= 0 ThBr4(g) mole wt.= 551.6537 g 2 species in reaction 4.000 Br- 1.000 Th++++ * log10 K(298 K) = 61.5200 a= 61.52 b= 0 c= 0 d= 0 e= 0 f= 0 ThCl4(g) mole wt.= 373.8497 g 2 species in reaction 4.000 Cl- 1.000 Th++++ * log10 K(298 K) = 53.7300 a= 53.73 b= 0 c= 0 d= 0 e= 0 f= 0 ThF4(g) mole wt.= 308.0313 g 2 species in reaction 4.000 F- 1.000 Th++++ * log10 K(298 K) = 19.5420 a= 19.542 b= 0 c= 0 d= 0 e= 0 f= 0 ThI4(g) mole wt.= 739.6557 g 5 species in reaction 24.000 e- -12.000 H2O 24.000 H+ 4.000 IO3- 1.000 Th++++ * log10 K(298 K) = -377.3380 a= -377.338 b= 0 c= 0 d= 0 e= 0 f= 0 ThO2(g) mole wt.= 264.0357 g 3 species in reaction 2.000 H2O -4.000 H+ 1.000 Th++++ * log10 K(298 K) = 125.6010 a= 125.601 b= 0 c= 0 d= 0 e= 0 f= 0 UBr4(g) mole wt.= 557.6449 g 2 species in reaction 4.000 Br- 1.000 U++++ * log10 K(298 K) = 54.4240 a= 54.424 b= 0 c= 0 d= 0 e= 0 f= 0 UBr5(g) mole wt.= 637.5489 g 4 species in reaction -2.000 H2O 4.000 H+ 5.000 Br- 1.000 UO2+ * log10 K(298 K) = 59.1760 a= 59.176 b= 0 c= 0 d= 0 e= 0 f= 0 UCl4(g) mole wt.= 379.8409 g 2 species in reaction 4.000 Cl- 1.000 U++++ * log10 K(298 K) = 46.4760 a= 46.476 b= 0 c= 0 d= 0 e= 0 f= 0 UCl6(g) mole wt.= 450.7469 g 4 species in reaction -2.000 H2O 4.000 H+ 6.000 Cl- 1.000 UO2++ * log10 K(298 K) = 63.7670 a= 63.767 b= 0 c= 0 d= 0 e= 0 f= 0 UF4(g) mole wt.= 314.0225 g 2 species in reaction 4.000 F- 1.000 U++++ * log10 K(298 K) = 13.8580 a= 13.858 b= 0 c= 0 d= 0 e= 0 f= 0 UF6(g) mole wt.= 352.0193 g 4 species in reaction -2.000 H2O 4.000 H+ 6.000 F- 1.000 UO2++ * log10 K(298 K) = 18.0390 a= 18.039 b= 0 c= 0 d= 0 e= 0 f= 0 UI4(g) mole wt.= 745.6469 g 5 species in reaction 24.000 e- -12.000 H2O 24.000 H+ 4.000 IO3- 1.000 U++++ * log10 K(298 K) = -381.9270 a= -381.927 b= 0 c= 0 d= 0 e= 0 f= 0 UO2F2(g) mole wt.= 308.0237 g 2 species in reaction 2.000 F- 1.000 UO2++ * log10 K(298 K) = 34.6030 a= 34.603 b= 0 c= 0 d= 0 e= 0 f= 0 ZrBr4(g) mole wt.= 410.8400 g 2 species in reaction 4.000 Br- 1.000 Zr++++ * log10 K(298 K) = 48.9200 a= 48.92 b= 0 c= 0 d= 0 e= 0 f= 0 ZrCl2(g) mole wt.= 162.1300 g 3 species in reaction 2.000 e- 2.000 Cl- 1.000 Zr++++ * log10 K(298 K) = 111.5320 a= 111.532 b= 0 c= 0 d= 0 e= 0 f= 0 ZrCl4(g) mole wt.= 233.0360 g 2 species in reaction 4.000 Cl- 1.000 Zr++++ * log10 K(298 K) = 38.0080 a= 38.008 b= 0 c= 0 d= 0 e= 0 f= 0 ZrF4(g) mole wt.= 167.2176 g 2 species in reaction 4.000 F- 1.000 Zr++++ * log10 K(298 K) = 3.5080 a= 3.508 b= 0 c= 0 d= 0 e= 0 f= 0 ZrI4(g) mole wt.= 598.8420 g 5 species in reaction 24.000 e- -12.000 H2O 24.000 H+ 4.000 IO3- 1.000 Zr++++ * log10 K(298 K) = -388.5360 a= -388.536 b= 0 c= 0 d= 0 e= 0 f= 0 ZrO(g) mole wt.= 107.2230 g 4 species in reaction 2.000 e- 1.000 H2O -2.000 H+ 1.000 Zr++++ * log10 K(298 K) = 139.4920 a= 139.492 b= 0 c= 0 d= 0 e= 0 f= 0 ZrO2(g) mole wt.= 123.2220 g 3 species in reaction 2.000 H2O -4.000 H+ 1.000 Zr++++ * log10 K(298 K) = 123.4050 a= 123.405 b= 0 c= 0 d= 0 e= 0 f= 0 -end- 44 oxides Ag2O(ox) mole wt.= 231.7354 g 3 species in reaction -2.000 H+ 2.000 Ag+ 1.000 H2O Al2O3(ox) mole wt.= 101.9600 g 3 species in reaction -6.000 H+ 2.000 Al+++ 3.000 H2O Am2O3(ox) mole wt.= 533.9970 g 3 species in reaction -6.000 H+ 2.000 Am+++ 3.000 H2O As2O5(ox) mole wt.= 229.8382 g 3 species in reaction -3.000 H2O 2.000 AsO4--- 6.000 H+ B2O3(ox) mole wt.= 69.6170 g 3 species in reaction 2.000 B(OH)4- -5.000 H2O 2.000 H+ BaO(ox) mole wt.= 153.3260 g 3 species in reaction -2.000 H+ 1.000 Ba++ 1.000 H2O CaO(ox) mole wt.= 56.0770 g 3 species in reaction -2.000 H+ 1.000 Ca++ 1.000 H2O CdO(ox) mole wt.= 128.4130 g 3 species in reaction 1.000 Cd++ 1.000 H2O -2.000 H+ CoO(ox) mole wt.= 74.9322 g 3 species in reaction 1.000 Co++ 1.000 H2O -2.000 H+ CrO3(ox) mole wt.= 99.9931 g 3 species in reaction 1.000 CrO4-- -1.000 H2O 2.000 H+ Cs2O(ox) mole wt.= 281.8098 g 3 species in reaction -2.000 H+ 2.000 Cs+ 1.000 H2O CuO(ox) mole wt.= 79.5450 g 3 species in reaction 1.000 H2O -2.000 H+ 1.000 Cu++ FeO(ox) mole wt.= 71.8440 g 3 species in reaction -2.000 H+ 1.000 Fe++ 1.000 H2O Ga2O3(ox) mole wt.= 187.4430 g 3 species in reaction 2.000 Ga+++ 3.000 H2O -6.000 H+ GeO(ox) mole wt.= 88.6290 g 3 species in reaction 1.000 Ge++ 1.000 H2O -2.000 H+ HBr(ox) mole wt.= 80.9119 g 2 species in reaction 1.000 H+ 1.000 Br- HCl(ox) mole wt.= 36.4609 g 2 species in reaction 1.000 H+ 1.000 Cl- HF(ox) mole wt.= 20.0063 g 2 species in reaction 1.000 H+ 1.000 F- HgO(ox) mole wt.= 216.5910 g 3 species in reaction 1.000 Hg++ 1.000 H2O -2.000 H+ HIO3(ox) mole wt.= 175.9094 g 2 species in reaction 1.000 IO3- 1.000 H+ In2O3(ox) mole wt.= 277.6330 g 3 species in reaction 2.000 In+++ 3.000 H2O -6.000 H+ K2O(ox) mole wt.= 94.1956 g 3 species in reaction -2.000 H+ 2.000 K+ 1.000 H2O Li2O(ox) mole wt.= 29.8810 g 3 species in reaction -2.000 H+ 2.000 Li+ 1.000 H2O MgO(ox) mole wt.= 40.3040 g 3 species in reaction -2.000 H+ 1.000 Mg++ 1.000 H2O MnO(ox) mole wt.= 70.9370 g 3 species in reaction -2.000 H+ 1.000 Mn++ 1.000 H2O Na2O(ox) mole wt.= 61.9786 g 3 species in reaction -2.000 H+ 2.000 Na+ 1.000 H2O NiO(ox) mole wt.= 74.6924 g 3 species in reaction -2.000 H+ 1.000 Ni++ 1.000 H2O Np2O5(ox) mole wt.= 553.9950 g 3 species in reaction 2.000 NpO2+ 1.000 H2O -2.000 H+ P2O5(ox) mole wt.= 141.9426 g 3 species in reaction -3.000 H2O 2.000 H+ 2.000 H2(PO4)- PbO(ox) mole wt.= 223.1990 g 3 species in reaction -2.000 H+ 1.000 Pb++ 1.000 H2O PuO3(ox) mole wt.= 291.9970 g 3 species in reaction 1.000 PuO2++ 1.000 H2O -2.000 H+ Rb2O(ox) mole wt.= 186.9346 g 3 species in reaction -2.000 H+ 2.000 Rb+ 1.000 H2O SeO3(ox) mole wt.= 126.9680 g 3 species in reaction 1.000 SeO4-- -1.000 H2O 2.000 H+ SiO2(ox) mole wt.= 60.0840 g 2 species in reaction 1.000 Si(OH)4 -2.000 H2O SnO(ox) mole wt.= 134.7090 g 3 species in reaction 1.000 Sn++ 1.000 H2O -2.000 H+ SO3(ox) mole wt.= 80.0610 g 3 species in reaction -1.000 H2O 1.000 SO4-- 2.000 H+ SrO(ox) mole wt.= 103.6190 g 3 species in reaction -2.000 H+ 1.000 Sr++ 1.000 H2O TcO2(ox) mole wt.= 129.9980 g 2 species in reaction 1.000 TcO(OH)2 -1.000 H2O TeO(ox) mole wt.= 143.5990 g 3 species in reaction 1.000 Te++ 1.000 H2O -2.000 H+ ThO2(ox) mole wt.= 264.0357 g 3 species in reaction -4.000 H+ 1.000 Th++++ 2.000 H2O Tl2O(ox) mole wt.= 424.7590 g 3 species in reaction 2.000 Tl+ 1.000 H2O -2.000 H+ UO3(ox) mole wt.= 286.0259 g 3 species in reaction 1.000 UO2++ 1.000 H2O -2.000 H+ ZnO(ox) mole wt.= 81.3790 g 3 species in reaction -2.000 H+ 1.000 Zn++ 1.000 H2O ZrO2(ox) mole wt.= 123.2220 g 3 species in reaction 1.000 Zr++++ 2.000 H2O -4.000 H+ -end- * SIT epsilon coefficients for cation-anion pairs. * * The first value on a data line ("a= ") is the interaction coefficient * value at 25 C. * * The temperature dependence of the epsilon interaction coefficient * may be specified by appending as many as five coefficients b-f * to a data line. The new correlation equation, used in this dataset, is * * epsilon = a + b*(Tk-Tr) + c*(Tk2-Tr2) + d*(1/Tk - 1/Tr) + e*(1/Tk2 - 1/Tr2) * + f*ln(Tk/Tr) * * where Tk is absolute temperature and Tr is 298.15 K. Hence, if c-f are * zero (or omitted), then b is the first temperature derivative. * * The legacy correlation equation described in the Thermo Datasets chapter * of the GWB Reference Manual is also acceptable. * * A temperature range of validity may optionally be set for each species pair, * regardless of the temperature expansion chosen. If no range is set, the span * of the principal temperatures is assumed. * * SIT coefficients in the current dataset do not vary from their 25 C values. * * You can account for the variation of epsilon with ionic strength by * specifying an epsilon2 value in addition to epsilon (or epsilon1). In that * case, epsilon varies with ionic strength according to the relationship: * * epsilon = epsilon1 + epsilon2*log10(IS) * * where IS is the true ionic strength in molal units. The method is not * currently recommended by the NEA and is not used in this dataset. * * A second block of interaction coefficiets is allotted for interaction * coefficients between uncharged species and cations, anions, or other * uncharged species, including self-interaction. * * Such interactions with uncharged species are typically small and are * often ignored. The current dataset includes no interaction coefficients * involving uncharged species. * * Input is parsed word-by-word; therefore, there is no need to align data * by column. (NpO2)2(OH)2++ ClO4- epsilon a= .57 (NpO2)3(OH)5+ ClO4- epsilon a= .45 (UO2)2(OH)2++ Cl- epsilon a= .69 (UO2)2(OH)2++ ClO4- epsilon a= .57 (UO2)2(OH)2++ NO3- epsilon a= .49 (UO2)3(OH)4++ Cl- epsilon a= .5 (UO2)3(OH)4++ ClO4- epsilon a= .89 (UO2)3(OH)4++ NO3- epsilon a= .72 (UO2)3(OH)5+ Cl- epsilon a= .81 (UO2)3(OH)5+ ClO4- epsilon a= .45 (UO2)3(OH)5+ NO3- epsilon a= .41 Ag+ ClO4- epsilon a= 0.0 Ag+ NO3- epsilon a= -.12 Al+++ Cl- epsilon a= .33 Am(OH)2+ Cl- epsilon a= -.27 Am(OH)2+ ClO4- epsilon a= .17 AmOx+ ClO4- epsilon a= .08 AmScn++ ClO4- epsilon a= .39 Am+++ Cl- epsilon a= .23 Am+++ ClO4- epsilon a= .49 AmCl++ ClO4- epsilon a= .39 AmCO3+ Cl- epsilon a= .01 AmCO3+ ClO4- epsilon a= .17 AmF++ ClO4- epsilon a= .39 AmF2+ ClO4- epsilon a= .17 AmH2PO4++ ClO4- epsilon a= .39 AmN3++ ClO4- epsilon a= .39 AmNO3++ ClO4- epsilon a= .39 AmOH++ Cl- epsilon a= -.04 AmOH++ ClO4- epsilon a= .39 AmSO4+ ClO4- epsilon a= .22 Ba++ Cl- epsilon a= .07 Ba++ ClO4- epsilon a= .15 Ba++ NO3- epsilon a= -.28 Ca++ Cl- epsilon a= .14 Ca++ ClO4- epsilon a= .27 Ca++ NO3- epsilon a= .02 Cd++ NO3- epsilon a= .09 Cl- Co++ epsilon a= .16 ClO4- Co++ epsilon a= .34 Co++ NO3- epsilon a= .14 Cl- Cu++ epsilon a= .08 ClO4- Cu++ epsilon a= .32 Cu++ NO3- epsilon a= .11 ClO4- Fe(OH)2+ epsilon a= .37 Cl- Fe++ epsilon a= .17 ClO4- Fe++ epsilon a= .37 Cl- Fe+++ epsilon a= .76 ClO4- Fe+++ epsilon a= .73 ClO4- Fe2(OH)2++++ epsilon a= 1.04 Cl- FeCl++ epsilon a= .64 ClO4- FeCl++ epsilon a= .63 ClO4- FeF+ epsilon a= .34 ClO4- FeOH++ epsilon a= .46 ClO4- FeSO4+ epsilon a= .4 Cl- H+ epsilon a= .12 ClO4- H+ epsilon a= .14 H+ NO3- epsilon a= .07 ClO4- Hg++ epsilon a= .34 Hg++ NO3- epsilon a= -.1 Cit--- K+ epsilon a= .02 Edta---- K+ epsilon a= 1.07 K+ Ox-- epsilon a= .07 K+ Scn- epsilon a= -.01 AmEdta- K+ epsilon a= .01 Br- K+ epsilon a= .01 Ca(Ox)2-- K+ epsilon a= -.15 Cl- K+ epsilon a= 0.0 CO3-- K+ epsilon a= .02 CrO4-- K+ epsilon a= -.08 F- K+ epsilon a= .03 HCit-- K+ epsilon a= -.01 HOx- K+ epsilon a= -.01 H2(PO4)- K+ epsilon a= -.14 H2Cit- K+ epsilon a= -.04 HCO3- K+ epsilon a= -.06 K+ Mg(Ox)2-- epsilon a= -.15 K+ NO3- epsilon a= -.11 K+ Np(CO3)3--- epsilon a= -.15 K+ Np(CO3)5------ epsilon a= -.73 K+ NpO2(CO3)3---- epsilon a= -.62 K+ NpO2(CO3)3----- epsilon a= -.22 K+ OH- epsilon a= .09 K+ P2O7---- epsilon a= -.15 K+ PO4--- epsilon a= -.09 K+ PuEdta- epsilon a= .01 K+ SO4-- epsilon a= -.06 K+ Th(SO4)3-- epsilon a= -.091 K+ U(CO3)5------ epsilon a= -.7 Cit--- Li+ epsilon a= -.44 Li+ Ox-- epsilon a= -.51 Br- Li+ epsilon a= .13 Cl- Li+ epsilon a= .1 ClO4- Li+ epsilon a= .15 HCit-- Li+ epsilon a= -.17 HOx- Li+ epsilon a= -.28 H2Cit- Li+ epsilon a= -.11 Li+ NO3- epsilon a= .08 Li+ OH- epsilon a= -.02 Li+ SO4-- epsilon a= -.03 Li+ Th(SO4)3-- epsilon a= -.068 Cl- Mg++ epsilon a= .19 ClO4- Mg++ epsilon a= .33 Mg++ NO3- epsilon a= .17 Cl- Mn++ epsilon a= .13 (NpO2)2CO3(OH)3- Na+ epsilon a= 0.0 (NpO2)3(CO3)6------ Na+ epsilon a= -.46 (UO2)2CO3(OH)3- Na+ epsilon a= 0.0 (UO2)3(CO3)6------ Na+ epsilon a= .37 Cit--- Na+ epsilon a= -.076 Cn- Na+ epsilon a= .07 Edta---- Na+ epsilon a= .32 Na+ Ox-- epsilon a= -.08 Na+ Scn- epsilon a= .05 Am(Ox)2- Na+ epsilon a= -.21 Am(Ox)3--- Na+ epsilon a= -.23 Am(CO3)2- Na+ epsilon a= -.14 Am(CO3)3--- Na+ epsilon a= -.23 Am(SO4)2- Na+ epsilon a= -.05 AmEdta- Na+ epsilon a= .01 B(OH)4- Na+ epsilon a= -.07 Br- Na+ epsilon a= .05 Ca(Ox)2-- Na+ epsilon a= -.15 Cl- Na+ epsilon a= .03 ClO4- Na+ epsilon a= .01 CO3-- Na+ epsilon a= -.08 CrO4-- Na+ epsilon a= -.06 F- Na+ epsilon a= .02 Fe(CO3)3--- Na+ epsilon a= -.23 HCit-- Na+ epsilon a= -.04 HOx- Na+ epsilon a= -.07 H2(PO4)- Na+ epsilon a= -.08 H2Cit- Na+ epsilon a= -.05 HCO3- Na+ epsilon a= 0.0 HF2- Na+ epsilon a= -.11 HSO4- Na+ epsilon a= -.01 IO3- Na+ epsilon a= -.06 Mg(Ox)2-- Na+ epsilon a= -.15 MgCit- Na+ epsilon a= .03 MgEdta-- Na+ epsilon a= -.01 N3- Na+ epsilon a= .015 Na+ Ni(Cn)4-- epsilon a= .185 Na+ Ni(Cn)5--- epsilon a= .25 Na+ Ni(Ox)2-- epsilon a= -.26 Na+ Ni(Scn)3- epsilon a= .66 Na+ NiCit- epsilon a= .22 Na+ NO3- epsilon a= -.04 Na+ NpO2(Ox)2--- epsilon a= -.03 Na+ NpO2(CO3)2-- epsilon a= -.02 Na+ NpO2(CO3)2--- epsilon a= -.33 Na+ NpO2(CO3)3---- epsilon a= -.4 Na+ NpO2(CO3)3----- epsilon a= -.53 Na+ NpO2(HPO4)2-- epsilon a= -.1 Na+ NpO2(OH)2- epsilon a= -.01 Na+ NpO2Cit-- epsilon a= -.06 Na+ NpO2Edta--- epsilon a= .2 Na+ NpO2Ox- epsilon a= -.4 Na+ NpO2CO3- epsilon a= -.18 Na+ OH- epsilon a= .04 Na+ P2O7---- epsilon a= -.26 Na+ PO4--- epsilon a= -.25 Na+ PuO2CO3- epsilon a= -.18 Na+ S2O3-- epsilon a= -.08 Na+ Si2O2(OH)5- epsilon a= -.08 Na+ Si2O3(OH)4-- epsilon a= -.15 Na+ Si3O5(OH)5--- epsilon a= -.25 Na+ Si3O6(OH)3--- epsilon a= -.25 Na+ Si4O7(OH)5--- epsilon a= -.25 Na+ SiO(OH)3- epsilon a= -.08 Na+ SiO2(OH)2-- epsilon a= -.1 Na+ Sn(OH)3- epsilon a= .22 Na+ SnBr3- epsilon a= .16 Na+ SnCl3- epsilon a= .04 Na+ SO3-- epsilon a= -.08 Na+ SO4-- epsilon a= -.12 Na+ Th(CO3)5------ epsilon a= -.03 Na+ Th(OH)2(CO3)2-- epsilon a= -.1 Na+ Th(OH)4(CO3)-- epsilon a= -.1 Na+ Th(SO4)3-- epsilon a= -.091 Na+ ThOH(CO3)4----- epsilon a= -.22 Na+ U(CO3)4---- epsilon a= -.09 Na+ U(CO3)5------ epsilon a= -.3 Na+ UO2(Ox)2-- epsilon a= -.18 Na+ UO2(Ox)3---- epsilon a= -.01 Na+ UO2(CO3)2-- epsilon a= -.02 Na+ UO2(CO3)3---- epsilon a= -.01 Na+ UO2(CO3)3----- epsilon a= -.62 Na+ UO2(N3)3- epsilon a= 0.0 Na+ UO2(N3)4-- epsilon a= -.1 Na+ UO2(OH)3- epsilon a= -.09 Na+ UO2(SO4)2-- epsilon a= -.12 Na+ UO2Cit- epsilon a= -.11 Na+ UO2Edta-- epsilon a= -.22 Na+ UO2F3- epsilon a= -.14 Na+ UO2F4-- epsilon a= -.3 Na+ Zr(CO3)4---- epsilon a= -.09 Na+ Zr(OH)6-- epsilon a= -.1 Na+ ZrF5- epsilon a= -.14 Na+ ZrF6-- epsilon a= -.15 ClO4- NiScn+ epsilon a= .31 Cl- Ni++ epsilon a= .17 ClO4- Ni++ epsilon a= .37 Ni++ NO3- epsilon a= .182 ClO4- Ni2OH+++ epsilon a= .59 ClO4- Ni4(OH)4++++ epsilon a= 1.08 ClO4- NiCl+ epsilon a= .47 ClO4- NiF+ epsilon a= .34 ClO4- NiH2Cit+ epsilon a= .12 ClO4- NiHS+ epsilon a= -.85 ClO4- NiNO3+ epsilon a= .44 Cl- NiOH+ epsilon a= -.01 ClO4- NiOH+ epsilon a= .14 ClO4- Np(Scn)2++ epsilon a= .38 ClO4- Np(Scn)3+ epsilon a= .17 ClO4- NpScn+++ epsilon a= .76 ClO4- Np+++ epsilon a= .49 ClO4- Np++++ epsilon a= .84 ClO4- NpCl+++ epsilon a= .81 ClO4- NpF+++ epsilon a= .58 ClO4- NpF2++ epsilon a= .38 ClO4- NpI+++ epsilon a= .77 Cl- NpO2+ epsilon a= .09 ClO4- NpO2+ epsilon a= .25 ClO4- NpO2++ epsilon a= .46 ClO4- NpO2Cl+ epsilon a= .5 ClO4- NpO2F+ epsilon a= .29 ClO4- NpO2IO3+ epsilon a= .33 ClO4- NpO2OH+ epsilon a= -.06 ClO4- NpOH+++ epsilon a= .5 ClO4- NpSO4++ epsilon a= .48 ClO4- Pb++ epsilon a= .15 NO3- Pb++ epsilon a= -.2 ClO4- PuScn++ epsilon a= .39 ClO4- Pu+++ epsilon a= .49 Cl- Pu++++ epsilon a= .37 ClO4- Pu++++ epsilon a= .82 ClO4- PuBr+++ epsilon a= .58 ClO4- PuCl+++ epsilon a= .85 ClO4- PuF+++ epsilon a= .56 ClO4- PuF2++ epsilon a= .36 ClO4- PuI++ epsilon a= .39 ClO4- PuO2+ epsilon a= .24 ClO4- PuO2++ epsilon a= .46 ClO4- PuO2Cl+ epsilon a= .5 ClO4- PuO2F+ epsilon a= .29 ClO4- PuOH+++ epsilon a= .5 ClO4- SnScn+ epsilon a= .17 Cl- Sn++ epsilon a= .19 ClO4- Sn++ epsilon a= .19 ClO4- Sn++++ epsilon a= .7 ClO4- Sn3(OH)4++ epsilon a= -.02 ClO4- SnBr+ epsilon a= .15 ClO4- SnCl+ epsilon a= .08 ClO4- SnF+ epsilon a= .14 ClO4- SnNO3+ epsilon a= .17 ClO4- SnOH+ epsilon a= -.07 ClO4- Th(Scn)2++ epsilon a= .38 ClO4- Th(H2PO4)2++ epsilon a= .4 ClO4- Th(N3)2++ epsilon a= .4 ClO4- Th(NO3)2++ epsilon a= .43 NO3- Th(NO3)2++ epsilon a= .43 Cl- Th(OH)+++ epsilon a= .19 ClO4- Th(OH)+++ epsilon a= .48 NO3- Th(OH)+++ epsilon a= .2 Cl- Th(OH)2++ epsilon a= .13 ClO4- Th(OH)2++ epsilon a= .33 NO3- Th(OH)2++ epsilon a= .1 ClO4- ThScn+++ epsilon a= .5 Cl- Th++++ epsilon a= .25 ClO4- Th++++ epsilon a= .7 NO3- Th++++ epsilon a= .31 Cl- Th2(OH)2++++++ epsilon a= .4 ClO4- Th2(OH)2++++++ epsilon a= 1.22 NO3- Th2(OH)2++++++ epsilon a= .69 Cl- Th2(OH)3+++++ epsilon a= .29 ClO4- Th2(OH)3+++++ epsilon a= .91 NO3- Th2(OH)3+++++ epsilon a= .69 Cl- Th4(OH)12++++ epsilon a= .25 ClO4- Th4(OH)12++++ epsilon a= .56 NO3- Th4(OH)12++++ epsilon a= .42 Cl- Th4(OH)8++++++++ epsilon a= .7 ClO4- Th4(OH)8++++++++ epsilon a= 1.69 NO3- Th4(OH)8++++++++ epsilon a= 1.59 Cl- Th6(OH)14++++++++++ epsilon a= .83 ClO4- Th6(OH)14++++++++++ epsilon a= 2.2 NO3- Th6(OH)14++++++++++ epsilon a= 2.9 Cl- Th6(OH)15+++++++++ epsilon a= .72 ClO4- Th6(OH)15+++++++++ epsilon a= 1.85 NO3- Th6(OH)15+++++++++ epsilon a= 2.2 ClO4- ThBr+++ epsilon a= .62 ClO4- ThBrO3+++ epsilon a= .62 Cl- ThCl+++ epsilon a= .62 ClO4- ThCl+++ epsilon a= .62 ClO4- ThClO3+++ epsilon a= .62 ClO4- ThF+++ epsilon a= .48 NO3- ThF+++ epsilon a= .25 ClO4- ThF2++ epsilon a= .3 NO3- ThF2++ epsilon a= .15 ClO4- ThF3+ epsilon a= .1 NO3- ThF3+ epsilon a= 0.0 ClO4- ThH2PO4+++ epsilon a= .5 ClO4- ThH3PO4++++ epsilon a= .7 ClO4- ThN3+++ epsilon a= .55 ClO4- ThNO3+++ epsilon a= .56 NO3- ThNO3+++ epsilon a= .56 Cl- ThSO4++ epsilon a= .14 ClO4- ThSO4++ epsilon a= .3 ClO4- Tl+ epsilon a= -.21 ClO4- U(NO3)2++ epsilon a= .49 ClO4- U+++ epsilon a= .49 ClO4- U++++ epsilon a= .76 ClO4- UBr+++ epsilon a= .52 ClO4- UCl+++ epsilon a= .5 ClO4- UF+++ epsilon a= .48 ClO4- UF2++ epsilon a= .3 Cl- UF3+ epsilon a= .1 ClO4- UF3+ epsilon a= .1 ClO4- UI+++ epsilon a= .55 ClO4- UNO3+++ epsilon a= .62 ClO4- UO2Scn+ epsilon a= .22 ClO4- UO2+ epsilon a= .26 Cl- UO2++ epsilon a= .21 ClO4- UO2++ epsilon a= .46 NO3- UO2++ epsilon a= .24 ClO4- UO2Br+ epsilon a= .24 ClO4- UO2BrO3+ epsilon a= .33 ClO4- UO2Cl+ epsilon a= .33 ClO4- UO2ClO3+ epsilon a= .33 Cl- UO2F+ epsilon a= .04 ClO4- UO2F+ epsilon a= .28 ClO4- UO2IO3+ epsilon a= .33 ClO4- UO2N3+ epsilon a= .3 ClO4- UO2NO3+ epsilon a= .33 ClO4- UO2OH+ epsilon a= -.06 NO3- UO2OH+ epsilon a= .51 ClO4- UOH+++ epsilon a= .48 ClO4- USO4++ epsilon a= .3 ClO4- Zn++ epsilon a= .33 NO3- Zn++ epsilon a= .16 ClO4- Zr(NO3)2++ epsilon a= .84 ClO4- Zr(OH)2++ epsilon a= .62 Cl- Zr++++ epsilon a= .33 ClO4- Zr++++ epsilon a= .89 NO3- Zr++++ epsilon a= .33 Cl- Zr3(OH)4++++++++ epsilon a= .33 ClO4- Zr3(OH)4++++++++ epsilon a= 1.89 NO3- Zr3(OH)4++++++++ epsilon a= 2.28 ClO4- Zr3(OH)9+++ epsilon a= .93 ClO4- Zr4(OH)15+ epsilon a= .09 NO3- Zr4(OH)15+ epsilon a= -.02 ClO4- Zr4(OH)8++++++++ epsilon a= 3.61 ClO4- ZrCl+++ epsilon a= .87 ClO4- ZrCl2++ epsilon a= .84 ClO4- ZrF+++ epsilon a= .63 ClO4- ZrF2++ epsilon a= .47 ClO4- ZrF3+ epsilon a= .2 ClO4- ZrNO3+++ epsilon a= .88 ClO4- ZrOH+++ epsilon a= .57 -end- end of cation-anion set, begin neutral-ion epsilon -end- end of epsilon set * * Key References from the NEA. Additional references available * from oecd-nea.org/dbtdb/. * * Chemical Thermodynamics Series Volume 13a (2013) * Chemical Thermodynamics of Iron, Part 1 * By Robert J. Lemire (Chair), Urs Berner, Claude Musikas, * Donald A. Palmer, Peter Taylor and Osamu Tochiyama * https://www.oecd-nea.org/dbtdb/pubs/6355-vol13a-iron.pdf * * Chemical Thermodynamics Series Volume 12 (2012) * Chemical Thermodynamics of Tin * By Heinz Gamsjager (Chair), Tamas Gajda, James Sangster, * Surendra K. Saxena, and Wolfgang Voigt * https://www.oecd-nea.org/dbtdb/pubs/tin.pdf * * Chemical Thermodynamics Series Volume 11 (2009) * Chemical thermodynamics of Thorium * By Malcom Rand (Chair), Jean Fuger, Ingmar Grenthe, * Volker Neck and Dhanpat Rai * https://www.oecd-nea.org/science/pubs/2007/6254-DB-chemical-thermodyn-11.pdf * * Chemical Thermodynamics Series Volume 10 (2007) * Chemical Thermodynamics of Solid Solutions of interest in Nuclear Waste Management * By Jordi Bruno (Chair), Dirk Bosbach, Dmitrii Kulik and Alexandra Navrotsky * https://www.oecd-nea.org/science/pubs/2007/6255-DB-chemical-thermodyn-10.pdf * * Chemical Thermodynamics Series Volume 9 (2005) * Chemical Thermodynamics of Compounds and Complexes of U, Np, Pu, * Am, Tc, Se, Ni and Zr with Selected Organic Ligands * By Wolfgang Hummel (Chair), Giorgio Anderegg, Ignasi Puigdomenech, * Linfeng Rao and Osamu Tochiyama * https://www.oecd-nea.org/dbtdb/pubs/vol9-organic-ligands.pdf * * Chemical Thermodynamics Series Volume 8 (2005) * Chemical Thermodynamics of Zirconium * By Paul L. Brown (Chair), Enzo Curti and Bernd Grambow * With the collaboration of Christian Ekberg * https://www.oecd-nea.org/dbtdb/pubs/vol8-zirconium.pdf * * Chemical Thermodynamics Series Volume 7 (2005) * Chemical Thermodynamics of Selenium * By Ake Olin (Chair), Bengt Nolang, Lars-Olof Ohman, Evgeniy Osadchii and Erik Rosen * https://www.oecd-nea.org/dbtdb/pubs/vol7-selenium.pdf * * Chemical Thermodynamics Series Volume 6 (2005) * Chemical Thermodynamics of Nickel * By Heinz Gamsjager (Chair), Jerzy Bugajski, Tamas Gajda, Robert Lemire and Wolfgang Preis * https://www.oecd-nea.org/dbtdb/pubs/vol6-nickel.pdf * * Chemical Thermodynamics Series Volume 5 (2003) * Update on the Chemical Thermodynamics of Uranium, Neptunium, * Plutonium, Americium and Technetium * By Robert Guillaumont (Chair), Thomas Fanghanel, Jean Fuger, * Ingmar Grenthe, Volker Neck, Donald A. Palmer and Malcolm H. Rand * https://www.oecd-nea.org/dbtdb/pubs/vol5-update-combo.pdf * * Chemical Thermodynamics Series Volume 4 (2001) * Chemical Thermodynamics of Neptunium and Plutonium * By Robert J. Lemire (Chair), Jean Fuger, Heino Nitsche, Paul Potter, * Malcolm H. Rand, Jan Rydberg, Kastriot Spahiu, James C. Sullivan, * William J. Ullman, Pierre Vitorge and Hans Wanner * https://www.oecd-nea.org/dbtdb/pubs/vol4-neptunium-plutonium.pdf * * Chemical Thermodynamics Series Volume 3 (1999) * Chemical Thermodynamics of Technetium * By Joseph A. Rard (Chair), Malcolm H. Rand, Giorgio Anderegg and Hans Wanner * https://www.oecd-nea.org/dbtdb/pubs/vol3-technetium.pdf * * Chemical Thermodynamics Series Volume 2 (1995) * Chemical Thermodynamics of Americium * By Robert J. Silva (Chair), Giovanni Bidoglio, Malcolm H. Rand, * Piotr B. Robouch, Hans Wanner and Ignasi Puigdomenech * With an Appendix on Uranium by Ingmar Grenthe, M. C. Amaia Sandino, * Ignasi Puigdomenech and Malcolm H. Rand * https://www.oecd-nea.org/dbtdb/pubs/americium.pdf * * Chemical Thermodynamics Series Volume 1 (1992) * Chemical Thermodynamics of Uranium * By Ingmar Grenthe (Chair), Jean Fuger, Rudy J. M. Konings, Robert J. Lemire, * Anthony B. Muller, Chinh Nguyen-Trung and Hans Wanner * https://www.oecd-nea.org/dbtdb/pubs/uranium.pdf * * TDB-0-TDB-6, TDB project guidelines * TDB-1 Guidelines for the review procedure and data selection * TDB-2 Guidelines on the extrapolation to zero ionic strength * TDB-3 Guidelines on the assignment of uncertainties * TDB-4 Guidelines for temperature corrections * TDB-5 Standards and conventions in TDB publications * TDB-6 Guidelines for the independent peer review of TDB reports * https://www.oecd-nea.org/dbtdb/guidelines/ * * * Sources for gas fugacity coefficient calculations. * * Reid, R.C., J.M. Prausnitz and B.E. Poling, 1987, The Properties of * Gases and Liquids. McGraw Hill, 741 p. * * Spycher, N.F. and M.H. Reed, Fugacity coefficients of H2, CO2, CH4, * H2O and of H2O-CO2-CH4 mixtures: A virial equation treatment for * moderate pressures and temperatures applicable to calculations of * hydrothermal boiling. Geochimica et Cosmochimica Acta 52, 739-749. * * Tsonopoulos, C., 1974, An empirical correlation of second virial * coefficients. AIChE Journal 20, 263-272. *