Verfügbarkeit: Solubility limits of fission and activation products in saline near field solutions

Solubility limits of fission and activation products in saline near field solutions:

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Bibliographische Detailangaben
Hauptverfasser:	Hagemann, Sven 1969- (VerfasserIn), Meyer, Thorsten (VerfasserIn), Mönig, Heike (VerfasserIn), Bischofer, Barbara (VerfasserIn), Jantschik, Kyra (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Köln Gesellschaft für Anlagen- und Reaktorsicherheit (GRS) gGmbH February 2024
Schriftenreihe:	GRS 586
Schlagworte:	Forschungsbericht
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	VII, 391 Seiten
ISBN:	9783947685721

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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS 1 INTRODUCTION. 13 1.1 THE ROLE OF SOLUBILITY LIMITS IN RADIONUCLIDE MIGRATION CALCULATIONS . 13 1.2 OCCURRENCE OF SALINE SOLUTIONS IN CLAY FORMATIONS AND CRYSTALLINE ROCK . 13 1.3 SOLUBILITY LIMITS FOR ROCK SALT . 14 1.4 STUDY OBJECTIVES . 15 1.5 CONCEPTUAL APPROACH . 16 2 COMPOSITION OF AQUEOUS SOLUTIONS POTENTIALLY OCCURRING SALT FORMATIONS . 17 2.1 POTENTIALLY SUITABLE SALT FORMATIONS . 17 2.2 THE OCCURRENCE OF AQUEOUS SOLUTIONS IN A REPOSITORY IN SALT ROCK . 20 2.2.1 NATURAL DEPOSITS OF WATER . 20 2.2.2 DISPERSED WATER IN THE HOST ROCK AND THE BACKFILL . 20 2.2.3 ISOLATED SOLUTION DEPOSITS IN THE HOST ROCK . 21 2.2.4 WATER CONTENT OF RADIOACTIVE WASTE . 21 2.2.5 GROUNDWATERS OUTSIDE THE HOST ROCK FORMATION . 22 2.3 CHEMICAL COMPOSITION OF SALT SOLUTIONS . 23 2.3.1 NATURALLY OCCURRING SOLUTIONS: MAJOR COMPONENTS (NA, K, MG, CA, CL, SO 4 ) . 23 2.3.2 MINOR COMPONENTS . 30 2.3.3 TECHNICAL SOLUTIONS . 32 3 PORE WATER COMPOSITION AND DEVELOPMENT IN THE NEAR-FIELD OF A REPOSITORY IN CLAY . 33 3.1 GEOLOGY AND MINERALOGY OF LOWER CRETACEOUS (NORTHERN CENTRAL EUROPE) . 33 3.1.1 THE LOWER CRETACEOUS IN THE LOWER SAXONY BASIN . 33 3.1.2 MINERALOGY OF THE LOWER CRETACEOUS CLAY FORMATIONS . 35 3.2 COMPOSITION OF FLUIDS . 36 3.2.1 ORIGIN AND SALINITY OF FLUIDS IN THE NORTH GERMAN BASIN . 36 3.2.2 MODEL PORE WATER COMPOSITION OF A LOWER CRETACEOUS CLAY . 37 4 RADIOACTIVE INVENTORY AND HYPOTHETICAL MAXIMUM RADIONUCLIDE CONCENTRATIONS . 41 4.1 ELEMENTS CONSIDERED IN THIS STUDY . 41 4.2 RADIOACTIVE INVENTORY . 42 4.3 INVENTORY CONTROLLED UPPER LIMIT OF RADIONUCLIDE CONCENTRATION . 43 5 RESULTS OF PREVIOUS WASTE CORROSION STUDIES . 49 5.1 GENERAL OVERVIEW . 49 5.2 CORROSION OF VITRIFIED WASTE . 50 5.3 CORROSION OF SPENT FUEL . 53 6 METHODS FOR THE ESTIMATION OF ION INTERACTION COEFFICIENTS . 55 6.1 INTRODUCTION . 55 6.2 CONVERSION OF SIT TO PITZER COEFFICIENTS . 56 6.3 CORRELATION BETWEEN CHEMICALLY SIMILAR IONS . 60 6.3.1 PITZER COEFFICIENTS FOR COMPLEX IONS: USE OF ANALOGUES WITH IDENTICAL STRUCTURE . 60 6.3.2 SIMILARITY OF ACTIVITY COEFFICIENTS OF POTASSIUM AND SODIUM SALTS . 61 6.4 ESTIMATION OF B(2) FOR STRONGLY ASSOCIATING ION PAIRS . 63 6.5 REFERENCE VALUES FOR LON INTERACTION COEFFICIENTS BASED ON THEIR CHARGE TYPE . 63 6.6 CORRELATION BETWEEN PHYSICAL PROPERTIES OF IONS AND ION INTERACTION COEFFICIENTS . 64 6.7 CORRELATION BETWEEN ION INTERACTION PARAMETERS . 73 6.8 TERNARY ION INTERACTION PARAMETERS 0 AND V . 74 6.9 COMPARISON OF THE PERFORMANCE OF DIFFERENT MODELS AND CONCLUSION . 75 7 COMPILATION OF PREVIOUSLY DETERMINED SOLUBILITY LIMITS FOR FISSION PRODUCTS IN THE NEAR FIELD OF A REPOSITORY . 81 7.1 OVERVIEW . 81 7.2 DATABASES FOR THE MODELLING OF FISSION PRODUCT SOLUBILITIES AND PREVIOUSLY DETERMINED SOLUBILITY LIMITS . 86 7.2.1 BACKGROUND IONS AND IRON . 86 7.2.2 RADIONUCLIDES . 86 7.2.3 CAESIUM . 88 7.2.4 IODINE. 89 7.2.5 LEAD . 91 7.2.6 MOLYBDENUM . 93 7.2.7 NICKEL . 103 7.2.8 NIOBIUM . 108 7.2.9 PALLADIUM . 110 7.2.10 RADIUM . 115 7.2.11 RUBIDIUM . 115 7.2.12 SAMARIUM . 115 7.2.13 SELENIUM . 120 7.2.14 SILVER . 131 7.2.15 STRONTIUM . 135 7.2.16 TIN . 136 7.2.17 ZIRCONIUM . 142 8 SOLUBILITY OF SELECTED FISSION AND ACTIVATION PRODUCTS IN SALINE GROUNDWATERS 149 8.1 SELECTION OF ELEMENTS AND OXIDATION STATES FOR LABORATORY EXPERIMENTS. 149 8.2 SELECTION OF AQUEOUS SOLUTIONS TO BE USED AS A MATRIX AND RANGE OF GEOCHEMICAL CONDITIONS 149 8.3 PREPARATION OF STARTING SOLUTIONS . 150 8.4 DESCRIPTION OF THE EXPERIMENTAL PROCEDURE . 153 8.4.1 OVERVIEW . 153 8.4.2 DETAILED DESCRIPTION . 153 8.5 METHOD FOR THE DERIVATION OF SOLUBILITY LIMITS . 157 8.6 SOLUBILITY OF FISSION PRODUCTS IN HALITE/ ANHYDRITE SATURATED BRINES . 159 8.6.1 SOLUBILITY OF LEAD IN HALITE/ ANHYDRITE-SATURATED SOLUTION . 159 8.6.2 SOLUBILITY OF MOLYBDENUM (IV) IN HALITE/ ANHYDRITE-SATURATED SOLUTION . 160 8.6.3 SOLUBILITY OF MOLYBDENUM (VI) IN HALITE/ ANHYDRITE-SATURATED SOLUTION . 163 8.6.4 SOLUBILITY OF NICKEL IN HALITE/ ANHYDRITE-SATURATED SOLUTION . 164 8.6.5 SOLUBILITY OF NIOBIUM IN HALITE/ ANHYDRITE-SATURATED SOLUTION . 166 8.6.6 SOLUBILITY OF PALLADIUM(LL) IN HALITE/ ANHYDRITE-SATURATED SOLUTION . 167 8.6.7 SOLUBILITY OF SAMARIUM IN HALITE/ ANHYDRITE-SATURATED SOLUTION . 169 8.6.8 SOLUBILITY OF SELENIUM(-LL) IN HALITE/ ANHYDRITE-SATURATED SOLUTION . 171 8.6.9 SOLUBILITY OF SELENIUM(IV) IN HALITE/ ANHYDRITE-SATURATED SOLUTION . 174 8.6.10 SOLUBILITY OF SILVER IN HALITE/ ANHYDRITE-SATURATED SOLUTION . 175 8.6.11 SOLUBILITY OF STRONTIUM IN HALITE/ ANHYDRITE-SATURATED SOLUTION . 177 8.6.12 SOLUBILITY OF TIN(LL) IN HALITE/ ANHYDRITE-SATURATED SOLUTION . 178 8.6.13 SOLUBILITY OF TIN(IV) IN HALITE/ ANHYDRITE-SATURATED SOLUTION . 180 8.6.14 SOLUBILITY OF ZIRCONIUM IN HALITE/ ANHYDRITE-SATURATED SOLUTION . 183 8.7 SOLUBILITY IN HALITE/ ANHYDRITE SOLUTIONS IN THE PRESENCE OF METALLIC IRON OR FE(LL) CONTAINING CORROSION PHASES . 184 8.7.1 SILVER . 185 8.7.2 LEAD . 185 8.7.3 MOLYBDENUM . 186 8.7.4 NICKEL . 187 8.7.5 PALLADIUM . 188 8.7.6 SELENIUM . 188 8.7.7 TIN . 189 8.8 SOLUBILITY OF FISSION PRODUCTS IN IP9 BRINE . 190 8.8.1 CHANGE OF SOLUTION COMPOSITION DURING INCREASE OF PCH . 190 8.8.2 SOLUBILITY OF LEAD IN IP9/ IP9 REAK SOLUTIONS . 191 8.8.3 SOLUBILITY OF MOLYBDENUM(VI) IN IP9/ IP9 REAK SOLUTIONS . 192 8.8.4 SOLUBILITY OF NICKEL IN IP9/ IP9 REAK SOLUTIONS . 193 8.8.5 SOLUBILITY OF SILVER IN IP9/ IP9 REAK SOLUTIONS . 195 8.8.6 SOLUBILITY OF STRONTIUM IN IP9/ IP9 REAK SOLUTIONS . 196 8.8.7 SOLUBILITY OF TIN(IV) IN IP9/ IP9 REAK SOLUTIONS . 196 8.9 SOLUBILITY OF FISSION PRODUCTS IN IP21 BRINE . 198 8.9.1 SOLUBILITY OF LEAD IN IP21 SOLUTION . 198 8.9.2 SOLUBILITY OF MOLYBDENUM(VI) IN IP21 SOLUTION . 200 8.9.3 SOLUBILITY OF NICKEL IN IP21 SOLUTION . 201 8.9.4 SOLUBILITY OF NIOBIUM IN IP21 SOLUTION . 202 8.9.5 SOLUBILITY OF PALLADIUM(LL) IN IP21 SOLUTION . 203 8.9.6 SOLUBILITY OF SELENIUM(IV) IN IP21 SOLUTION . 205 8.9.7 SOLUBILITY OF SILVER IN IP21 SOLUTION . 206 8.9.8 SOLUBILITY OF STRONTIUM IN IP21 SOLUTION . 207 8.9.9 SOLUBILITY OF TIN(LL) IN IP21 SOLUTION . 209 8.9.10 SOLUBILITY OF TIN(IV) IN IP21 SOLUTION . 211 8.9.11 SOLUBILITY OF ZIRCONIUM IN IP21 SOLUTION . 212 8.10 SOLUBILITY OF FISSION PRODUCTS IN MODEL PORE WATER IN LOWER CRETACEOUS CLAY PORE WATER (UK WATER) . 214 8.10.1 SOLUBILITY OF LEAD IN UK WATER . 214 8.10.2 SOLUBILITY OF MOLYBDENUM(VI) IN UK WATER . 216 8.10.3 SOLUBILITY OF NICKEL IN UK WATER . 217 8.10.4 SOLUBILITY OF NIOBIUM IN UK WATER . 219 8.10.5 SOLUBILITY OF PALLADIUM (II) IN UK WATER . 220 8.10.6 SOLUBILITY OF SAMARIUM IN UK WATER . 221 8.10.7 SOLUBILITY OF SELENIUM(IV) IN UK WATER . 223 8.10.8 SOLUBILITY OF SILVER IN UK WATER . 224 8.10.9 SOLUBILITY OF STRONTIUM IN UK WATER . 225 8.10.10 SOLUBILITY OF TIN(LL) IN UK WATER . 225 8.10.11 SOLUBILITY OF TIN(IV) IN UK WATER . 227 8.10.12 SOLUBILITY OF ZIRCONIUM (IV) IN UK WATER . 229 8.11 SUMMARY OF SOLUBILITY LIMITS . 230 8.11.1 SOLUBILITY LIMITS DETERMINED IN THIS STUDY . 230 8.11.2 COMPARISON OF SOLUBILITY LIMITS FOR A REPOSITORY IN SALT ROCK . 237 8.12 SUMMARY OF KNOWLEDGE GAPS THAT SHOULD BE ADDRESSED IN FUTURE RESEARCH 241 9 SUMMARY AND OUTLOOK . 247 10 REFERENCES . 253 A ANNEX . 293 A.1 TABLE OF APPENDICES . 293 A.2 OVERVIEW OF CONSIDERED SOLUBILITY LIMITS IN PREVIOUS GEOCHEMICAL STUDIES . 295 A 1.1 RADIOACTIVE INVENTORY . 343 A.3 COMPOSITION OF VITRIFIED GLASS AND INACTIVE SIMULATES . 347 A.4 PREPARATION OF SALT MINERALS AND EQUILIBRIUM SOLUTIONS . 349 A.4.1 GENERAL RE MARKS . 349 A.4.2 POLYHALITE, K2MGCAZ(SO4)42H20 . 349 A.4.3 SYNGENITE, K2CA(SO4)2 H2O . 350 A.4.4 GLAUBERITE, CASO.NAZSO4 . 350 A.4.5 CARNALLITE, KMGCI 3 -6H 2 O . 350 A.4.6 KAINITE, KMGCIS0 4 -2.75H 2 0 . 350 A.4.7 ANHYDRITE, CASO4 . 351 A.4.8 SYNTHETIC CLAY PORE WATER ' UK SOLUTION ' (LOWER CRETACEOUS CLAY, NORTHERN GERMANY) . 351 A.4.9 SOLUTION SATURATED WITH HALITE AND ANHYDRITE . 351 A.4.10 IP9 SOLUTION AND IP9 REAK SOLUTION . 351 A.4.11 IP21 SOLUTION AND IP21 REAK SOLUTION . 352 A.5 COMMERCIAL AND PREPARED SOLID PHASES USED AS STARTING MATERIALS IN SOLUBILITY MEASUREMENTS 353 A.5.1 OVERVIEW . 353 A.5.2 LEAD CHLORIDE HYDROXIDE, LAURIONITE, PBCLOH . 353 A.5.3 POTASSIUM LEAD SULPHATE, PALMIERITE, K2PB(SO4)2 . 354 A.5.4 NIOBIUM OXIDE HYDRATE . 354 A.5.5 SAMARIUM HYDROXIDE, SM(OH)3 . 354 A.5.6 CALCIUM SELENITE, NESTOLAITE, CASEOS H2O . 354 A.5.7 STRONTIUM SULPHATE, CELESTINE, SRSO4 . 355 A.5.8 TIN(LL) CHLORIDE HYDROXIDE, SN21CL18(OH)1406, ABHURITE . 355 A.5.9 TIN(IV) DIOXIDE HYDRATE, SNO2XH2O . 355 A.5.10 ZIRCONIUM DIOXIDE HYDRATE, ZRO2 XH2O . 355 A.6 SOLUBILITY EXPERIMENTS . 356 A.6.1 DETERMINED SOLUBILITIES IN HALITE/ ANHYDRITE SATURATED SOLUTION . 356 A.6.2 DETERMINED SOLUBILITIES IN IP9 SOLUTION . 363 A.6.3 DETERMINED SOLUBILITIES IN IP21 SOLUTION . 367 A.6.4 DETERMINED SOLUBILITIES IN LOWER CRETACEOUS CLAY PORE WATER (UK WATER) 372 LIST OF TABLES . 379 LIST OF FIGURES . 385
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spelling	Hagemann, Sven 1969- Verfasser (DE-588)122054644 aut Solubility limits of fission and activation products in saline near field solutions Sven Hagemann, Thorsten Meyer, Heike Mönig, Barbara Bischofer, Kyra Jantschik ; GRS, Gesellschaft für Anlagen- und Reaktorsicherheit (GRS) gGmbH Köln Gesellschaft für Anlagen- und Reaktorsicherheit (GRS) gGmbH February 2024 VII, 391 Seiten txt rdacontent n rdamedia nc rdacarrier GRS 586 (DE-588)4155043-2 Forschungsbericht gnd-content Meyer, Thorsten Verfasser aut Mönig, Heike Verfasser aut Bischofer, Barbara Verfasser aut Jantschik, Kyra Verfasser aut Gesellschaft für Anlagen- und Reaktorsicherheit (DE-588)5073531-7 isb GRS 586 (DE-604)BV008889593 586 B:DE-101 application/pdf https://d-nb.info/1322263604/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034951484&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Hagemann, Sven 1969- Meyer, Thorsten Mönig, Heike Bischofer, Barbara Jantschik, Kyra Solubility limits of fission and activation products in saline near field solutions GRS
subject_GND	(DE-588)4155043-2
title	Solubility limits of fission and activation products in saline near field solutions
title_auth	Solubility limits of fission and activation products in saline near field solutions
title_exact_search	Solubility limits of fission and activation products in saline near field solutions
title_exact_search_txtP	Solubility limits of fission and activation products in saline near field solutions
title_full	Solubility limits of fission and activation products in saline near field solutions Sven Hagemann, Thorsten Meyer, Heike Mönig, Barbara Bischofer, Kyra Jantschik ; GRS, Gesellschaft für Anlagen- und Reaktorsicherheit (GRS) gGmbH
title_fullStr	Solubility limits of fission and activation products in saline near field solutions Sven Hagemann, Thorsten Meyer, Heike Mönig, Barbara Bischofer, Kyra Jantschik ; GRS, Gesellschaft für Anlagen- und Reaktorsicherheit (GRS) gGmbH
title_full_unstemmed	Solubility limits of fission and activation products in saline near field solutions Sven Hagemann, Thorsten Meyer, Heike Mönig, Barbara Bischofer, Kyra Jantschik ; GRS, Gesellschaft für Anlagen- und Reaktorsicherheit (GRS) gGmbH
title_short	Solubility limits of fission and activation products in saline near field solutions
title_sort	solubility limits of fission and activation products in saline near field solutions
topic_facet	Forschungsbericht
url	https://d-nb.info/1322263604/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034951484&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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