Chemical Thermodynamics of Tin - Volume 12 - OECD Nuclear ...

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xxii List of figures Figure A-35: SIT analysis of the data of [1973VAS/GLA] at 35 °C. .................... 339 Figure A-36: Figure A-37: Figure A-38: Figure A-39: Figure A-40: ο Determination of Δ H (Sn 2+ , 298.15 K). ....................................... 340 f m Determination of the enthalpy of dissolution of SnCl 2 (cr) according to the reaction SnCl 2 (cr) Sn 2+ + 2 Cl – in HClO 4 medium at 25 °C. .............................................................................. 355 Determination of the enthalpy of dissolution of SnCl 2 (cr) according to the reaction SnCl 2 (cr) Sn 2+ + 2 Cl – in HClO 4 medium at 25 °C. Extrapolation to infinite dilution according to [1997ALL/BAN]. ............................................................................. 355 Determination of the enthalpy of dissolution of SnCl 2·2H 2 O(cr) according to the reaction SnCl 2·2H 2 O(cr) Sn 2+ + 2 Cl – + 2 H 2 O(l) in HClO 4 medium at 25 °C. Extrapolation to infinite dilution according to [1967VAS]. .................................................... 356 Determination of the enthalpy of dissolution of SnCl 2·2H 2 O(cr) according to the reaction SnCl 2·2H 2 O(cr) Sn 2+ + 2 Cl – + 2 H 2 O(l) in HClO 4 medium at 25 °C. Extrapolation to infinite dilution according to [1997ALL/BAN]. ........................................... 356 Figure A-41: SIT analysis of data from [1979VAS/GLA]. ................................... 368 Figure A-42: Experimental cell-potential values reported in [1980AND/SAM] as a function of the nitrate concentration. ........... 370 Figure A-43: Heat-capacity function of Sn 2 S 3 (cr). ................................................ 377 Figure A-44: Entropy function of Sn 2 S 3 (cr). .......................................................... 378 Figure A-45: Heat capacity data for β-SnBr 4 . ........................................................ 386 Figure A-46: Speciation curves in the tin(II)-pyrophosphate system ([Sn 2+ ] T = 10 –4 3 M, [ PO − 4 ] T = 10 –3 M, T = 298 K). a) curves calculated using the data reported in [1991DUF/WIL] for I = 0.15 M NaCl, b) speciation suggested by Tur'yan et al. [1986TUR/KRA], [1986TUR/KRA2], [1987TUR/KRA] for I = 1.0 M NaClO 4 ................................................................................... 397 Figure A-47: Sn(OH) 2 solubility in 3.0 M NaCl. ................................................... 407 Figure A-48: Stoichiometric solubility constant for Sn 3 (OH) 2 OSO 4 . .................... 409 Figure A-49: High-temperature heat capacity of SnO 2 (tetr.). ............................... 423 Figure A-50: 4−x Extrapolation to I = 0 of the formation constants of SnClx complexes using SIT (x = 1(A), 6(E)). ............................................. 429 CHEMICAL THERMODYNAMICS OF TIN, ISBN 978-92-64-99206-1, © OECD 2012
List of figures xxiii Figure A-51: The observed E values of cell III as a function of log 10 ([Sn 4+ free]/[Sn 2+ free]) at I m = 4.73 (A), 6.22 (B) and 7.88 (C). ................................................................................................... 430 Figure A-52: Extended SIT analysis of log10 γ H + vs. m − ClO .................................. 432 4 Figure B-1: Plot of log10 β1 + 4 D versus I m for Reaction (B.13), at 25°C and 1 bar. .......................................................................................... 446 Figure C-1: Illustration for Example C.2 ............................................................. 490 CHEMICAL THERMODYNAMICS OF TIN, ISBN 978-92-64-99206-1, © OECD 2012
Page 3 and 4: CHEMICAL THERMODYNAMICS OF TIN Hein
Page 5: CHEMICAL THERMODYNAMICS Vol. 1. Che
Page 8 and 9: vi Preface of the successive drafts
Page 10 and 11: viii Acknowledgements for peer revi
Page 12 and 13: x How to contact the NEA TDB Projec
Page 14 and 15: xii Contents III Selected tin data
Page 16 and 17: xiv Contents VIII.3 Aqueous halide
Page 18 and 19: xvi Contents B.1.3.2 Estimations ba
Page 20 and 21: xviii List of figures Figure VII-12
Page 22 and 23: xx List of figures Figure IX-3: Hea
Page 27 and 28: List of tables Table II-1: Abbrevia
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Page 35 and 36: List of tables xxxiii Table A-64: T
Page 37: Part 1 Introductory material
Page 40 and 41: 4 I Introduction and Ti. In 1976, t
Page 42 and 43: 6 I Introduction The present review
Page 44 and 45: 8 I Introduction subjective choice
Page 46 and 47: 10 II Standards, conventions and co
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38 II Standards, conventions and co
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Part 2 Tables of selected data
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44 III Selected tin data Table III-
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50 III Selected tin data Species Re
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Chapter IV Selected auxiliary data
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IV Selected auxiliary data 57 Table
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IV Selected auxiliary data 75 Speci
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IV Selected auxiliary data 77 Speci
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Part 3 Discussion of data selection
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82 V Elemental tin transition, call
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84 V Elemental tin ο Table V-3: Co
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86 V Elemental tin Table V-6: Param
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Chapter VI VI Simple tin aqua ionsE
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VI.2 Sn 2+ 91 at 24.5 °C in aqueou
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VI.2 Sn 2+ 93 Reference Table VI-1:
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VI.2 Sn 2+ 95 As only three data pa
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VI.2 Sn 2+ 97 Figures A-37 to A-40.
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VI.3 Sn 4+ 99 Sn 4+ + H 2 (g) Sn 2
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VI.3 Sn 4+ 101 (NH 4 ) 2 SnCl 6 see
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VI.3 Sn 4+ 103 Sn 4+ + H 2 (g) Sn
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VI.3 Sn 4+ 105 Figure VI-3: Modifie
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108 VII Tin oxygen and hydrogen com
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138 VIII Group 17 (halogen) compoun
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Chapter IX IX Group 16 compounds an
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IX.1 Sulfur compounds and complexes
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232 X Group 15 compounds and comple
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Chapter XI XI Group 14 compounds an
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XI-1 Aqueous tin thiocyanato comple
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Appendix A Discussion of selected r
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A Discussion of selected references
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B Appendix B Ionic strength correct
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B.1 2BThe specific ion interaction
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B.3 4BTables of ion interaction coe
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484 C Assigned uncertainties The mi
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486 C Assigned uncertainties discus
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488 C Assigned uncertainties In cas
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490 C Assigned uncertainties The un
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492 C Assigned uncertainties In thi
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494 C Assigned uncertainties bit fu
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496 C Assigned uncertainties that t
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498 C Assigned uncertainties Eq. (C
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Bibliography [1813BER] [1831NEU] [1
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