Verfügbarkeit: Development of chemical-hydraulic models for the prediction of long-term sealing capacity of concrete-based sealing materials in rock salt

Development of chemical-hydraulic models for the prediction of long-term sealing capacity of concrete-based sealing materials in rock salt:

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Bibliographische Detailangaben
Hauptverfasser:	Jantschik, Kyra (VerfasserIn), Czaikowski, Oliver (VerfasserIn), Hertes, Uwe (VerfasserIn), Meyer, Thorsten (VerfasserIn)
Format:	Buch
Sprache:	German
Veröffentlicht:	Köln GRS Mai 2018
Schriftenreihe:	GRS 493
Schlagworte:	Forschungsbericht
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	V, 294 Seiten Illustrationen, Diagramme
ISBN:	9783946607786

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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS 1 INTRODUCTION ......................................................................................................... 1 1.1 BACKGROUND .......................................................................................................... 1 1.2 LONG-TERM CHEMICAL STABILITY OF CEMENT BASED SEALING MATERIALS ................... 2 1.3 AIM AND APPROACH ................................................................................................ 4 2 ANALYTICAL METHODS ............................................................................................ 7 3 DESCRIPTION OF AVAILABLE CONCRETE BASED SEALING MATERIALS .................... 9 3.1 SOREL CONCRETE ...................................................................................................... 9 3.1.1 CHEMICAL AND HYDRAULIC PROPERTIES .................................................................... 9 3.1.2 TEMPERATURE DEPENDENT HARDENING OF SOREL CONCRETE ................................... 11 3.1.3 PRODUCTION OF SOREL CONCRETE SAMPLES IN LABORATORY ...................................... 13 3.2 SAIT CONCRETE ........................................................................................................ 14 3.2.1 CHEMICAL AND HYDRAULIC PROPERTIES .................................................................. 15 3.2.2 DERIVATION OF AVAILABLE SALT CONCRETE ................................................................ 19 3.3 FABRICATION OF SALINE SOLUTIONS FOR EXPERIMENTS ............................................. 20 3.4 ANALYSATION OF MATERIALS .................................................................................... 21 3.4.1 ANALYSIS OF USED CONCRETE ................................................................................. 21 3.4.2 ANALYSIS OF SALINE SOLUTIONS .............................................................................. 25 4 LABORATORY INVESTIGATIONS ............................................................................. 27 4.1 BATCH EXPERIMENTS .............................................................................................. 27 4.1.1 SETUP OF BATCH EXPERIMENTS ............................................................................. 27 4.1.2 LABORATORY RESULTS OF BATCH EXPERIMENTS ........................................................ 29 4.1.2.1 SYSTEM SOREL CONCRETE - OLD / NACI SOLUTION ................................................. 29 TABLES OF CONTENTS 4.1.2.2 SYSTEM SOREL CONCRETE - OLD / MGCI 2 SOLUTION ................................................. 34 4.1.2.3 SYSTEM SEIT CONCRETE / NACI SOLUTION ................................................................ 38 4.1.2.4 SYSTEM SALT CONCRETE / MGCI 2 SOLUTION ............................................................. 42 4.1.2.5 RESULTS OF TRACER TESTS ........................................................................................ 46 4.1.3 INTERPRETATION AND DISCUSSION ............................................................................ 48 4.1.3.1 THERMODYNAMIC STABILITY IN THE SYSTEM SOREL CONCRETE - OLD / NACI SOLUTION ................................................................................................................ 49 4.1.3.2 THERMODYNAMIC STABILITY IN THE SYSTEM SOREL CONCRETE - OLD / MGCI 2 SOLUTION ................................................................................................................. 51 4.1.3.3 THERMODYNAMIC STABILITY IN THE SYSTEM SALT CONCRETE / NACI SOLUTION .......... 52 4.1.3.4 THERMODYNAMIC STABILITY IN THE SYSTEM SALT CONCRETE / MGCI 2 SOLUTION ........ 53 4.1.3.5 APPLICABILITY OF TRACERS CAESIUM AND LITHIUM IN THE VARIOUS SYSTEMS WITH SOREL AND SALT CONCRETE ............................................................................ 55 4.2 CASCADE EXPERIMENTS ......................................................................................... 55 4.2.1 SETUP OF CASCADE EXPERIMENTS .......................................................................... 55 4.2.2 LABORATORY RESULTS OF CASCADE EXPERIMENTS .................................................... 58 4.2.2.1 SYSTEM SOREL CONCRETE - AI / NACI SOLUTION .................................................... 58 4.2.2 2 SYSTEM SALT CONCRETE / MGCI 2 SOLUTION .............................................................. 62 4.2.3 INTERPRETATION AND DISCUSSION ........................................................................... 67 4.2.3.1 DISSOLUTION-PRECIPITATION PROCESSES IN THE SYSTEM SOREL CONCRETE - AI / NACI SOLUTION ................................................................................................... 67 4.2.3 2 DISSOLUTION-PRECIPITATION PROCESSES IN THE SYSTEM SALT CONCRETE / MGCI 2 SOLUTION .................................................................................................... 70 4.3 THROUGH-DIFFUSION EXPERIMENTS ......................................................................... 71 4.3.1 SETUP OF THROUGH-DIFFUSION EXPERIMENTS ............................................................ 71 4.3.2 RESULTS OF THROUGH-DIFFUSION EXPERIMENTS ....................................................... 74 4.3.3 INTERPRETATION AND DISCUSSION ........................................................................... 83 4.4 ADVECTION EXPERIMENTS ....................................................................................... 88 4.4.1 SETUP OF ADVECTIONS EXPERIMENTS ..................................................................... 88 4.4.2 LABORATORY RESULTS OF ADVECTION EXPERIMENTS .................................................. 93 4.4.2.1 ADVECTION EXPERIMENTS WITH SOREL CONCRETE - AI ............................................. 93 II TABLES OF CONTENTS A.4.2.2 ADVECTION EXPERIMENTS WITH COMBINED SAMPLES OF ROCK SALT AND SALT CONCRETE .......................................................................................107 4.4.3 INTERPRETATION AND DISCUSSION .........................................................................116 4.4.3.1 DEVELOPMENT OF THE PERMEABILITY OF SOREL CONCRETE DURING PERCOLATION WITH SALINE SOLUTIONS AND ITS INFLUENCE TO THE SEALING CAPACITY .................116 4.4.3.2 DEVELOPMENT OF THE CONTACT SEAM BETWEEN SEALING ELEMENT AND HOST ROCK DURING PERCOLATION WITH SALINE SOLUTIONS AND ITS INFLUENCE TO THE SEALING CAPACITY ............................................................................................... 122 4.5 PET-MEASUREMENTS ON SALT CONCRETE - HALITE CONTACT ZONE .......................125 4.5.1 SET UP OF PET-MEASUREMENTS ........................................................................125 4.5.2 RESULTS OF PET-MEASUREMENTS .....................................................................127 4.5.3 INTERPRETATION AND DISCUSSION .........................................................................130 5 MODEL INVESTIGATIONS ..................................................................................... 137 5.1 MODEL METHODS .................................................................................................137 5.2 DATABASE ..........................................................................................................137 5.3 CALCULATION AND ADJUSTMENTS .......................................................................... 138 5.3.1 CALCULATION OF SATURATION INDICES FROM THE COMPOSITION OF EXPERIMENTAL SOLUTIONS ....................................................................................138 5.3.2 CALCULATIONS AND ADJUSTMENTS IN THE SYSTEM SOREL CONCRETE / NACI SOLUTION ..............................................................................................................139 5.3.4 CALCULATIONS AND ADJUSTMENTS IN THE SYSTEM SALT CONCRETE / MGCI 2 SOLUTION ..............................................................................................................144 5.4 MODELLING RESULTS .............................................................................................. 151 5.4.1 CALCULATION OF SATURATION INDICES FROM EXPERIMENTAL SOLUTIONS IN BATCH EXPERIMENTS ...................................................................................................... 152 5.4.2 CALCULATION OF SATURATION INDICES FROM EXPERIMENTAL SOLUTIONS IN CASCADE EXPERIMENTS ......................................................................................159 5.4.3 CALCULATION OF SATURATION INDICES FROM EXPERIMENTAL SOLUTIONS IN ADVECTION EXPERIMENTS WITH SOREL CONCRETE ................................................... 162 III TABLES OF CONTENTS 5.4.4 MODELLING OF THE REACTION OF SOREL CONCRETE WITH NACI SOLUTION ..................165 5.4.5 MODELLING OF THE REACTION OF SALT CONCRETE WITH MGCI 2 SOLUTION ..................170 5.5 INTERPRETATION AND DISCUSSION ..........................................................................184 5.5.1 COMPARISON BETWEEN MODELLING AND EXPERIMENTAL RESULTS IN THE SYSTEM SOREL CONCRETE - A1 / NACI SOLUTION ..................................................184 5.5.2 COMPARISON BETWEEN MODELLING AND EXPERIMENTAL RESULTS IN THE SYSTEM SALT CONCRETE / MGCI 2 SOLUTION ............................................................186 6 EVALUATION OF CEMENT BASED SEALING MATERIALS ....................................... 193 6.1 EVALUATION OF SOREL CONCRETE WITH REPECT TO ITS GEO-CHEMICAL MATERIAL BEHAVIOUR AND ITS SEALING CAPACITY .................................................................193 6.2 EVALUATION OF SALT CONCRETE WITH REPECT TO ITS GEO-CHEMICAL MATERIAL BEHAVIOUR AND ITS SEALING CAPACITY .................................................................195 7 CONCLUSIONS ..................................................................................................... 199 8 SUMMARY AND OUTLOOK .................................................................................. 201 9 ZUSAMMENFASSUNG UND AUSBLICK .............................................................. 205 REFERENCES ....................................................................................................... 211 GLOSSARY, SYMBOLS AND ABBREVIATIONS ..................................................... 221 LIST OF TABLES ................................................................................................... 229 LIST OF FIGURES .................................................................................................. 233 APPENDIX .......................................................................................................... 245 A 1 EXPERIMENTAL DATA ............................................................................................ 245 A 1.1 DETECTION LIMITS OF ICP-OES AND ICP-MS ...................................................... 245 A 1.2 SOLUTION ANALYSIS BATCH EXPERIMENTS .............................................................. 246 A 1.3 SOLUTION ANALYSIS CASCADE EXPERIMENTS ......................................................... 250 TABLES OF CONTENTS A 1.4 TRACER CONCENTRATIONS THROUGH-DIFFUSION EXPERIMENTS ................................. 252 A 1.5 SOLUTION ANALYSIS ADVECTION EXPERIMENTS - SOREL CONCRETE-AI ............... 256 A 1.6 SOLUTION ANALYSIS AND PERMEABILITY MEASUREMENTS ADVECTION EXPERIMENTS - COMBINED SAMPLES ........................................... 260 A 1.7 TRACER TEST ........................................................................................................ 263 A 1.8 X-RAY ANALYSIS ................................................................................................... 264 A 1.9 PERMEABILITY MEASUREMENTS TO GAS - SOREL CONCRETE -AI ......................... 267 A 1.10 PERMEABILITY MEASUREMENTS TO GAS - COMBINED SAMPLES ........................... 268 A 2 MODELLING DATA ................................................................................................ 269 A 2.1 CALCULATED SATURATION INDICES FROM BATCH EXPERIMENTS ............................... 269 A 2.2 CALCULATED SATURATION INDICES FROM CASCADE EXPERIMENTS ........................... 276 A 2.3 CALCULATED SATURATION INDICES FROM ADVECTION EXPERIMENTS ........................ 279 A 2.4 POTENTIAL EQUILIBRIUM PHASES IN MODELLING WITH PHREEQC ......................... 286 A 2.5 TRANSLATION OF LOGK FROM CEMDATA07.DAT TO THEREDA ............................... 288 A 2.6 MODELLED CONCENTRATIONS CASCADE EXPERIMENT - SOREL CONCRETE - AI / NACI SOLUTION ................................................................................................... 290 A 2.7 MODELLED CONCENTRATIONS CASCADE EXPERIMENT - SALT CONCRETE / MGCI 2 SOLUTION ....................................................................................... 291 A 3 CALCULATION OF PC ......................................................................................... 292 V
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author	Jantschik, Kyra Czaikowski, Oliver Hertes, Uwe Meyer, Thorsten
author_facet	Jantschik, Kyra Czaikowski, Oliver Hertes, Uwe Meyer, Thorsten
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ctrlnum	(OCoLC)1047451382 (DE-599)DNB1162591420
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spelling	Jantschik, Kyra Verfasser aut Development of chemical-hydraulic models for the prediction of long-term sealing capacity of concrete-based sealing materials in rock salt Kyra Jantschik [und 5 weitere] Köln GRS Mai 2018 V, 294 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier GRS 493 (DE-588)4155043-2 Forschungsbericht gnd-content Czaikowski, Oliver Verfasser aut Hertes, Uwe Verfasser aut Meyer, Thorsten Verfasser aut GRS 493 (DE-604)BV008889593 493 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030494443&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Jantschik, Kyra Czaikowski, Oliver Hertes, Uwe Meyer, Thorsten Development of chemical-hydraulic models for the prediction of long-term sealing capacity of concrete-based sealing materials in rock salt GRS
subject_GND	(DE-588)4155043-2
title	Development of chemical-hydraulic models for the prediction of long-term sealing capacity of concrete-based sealing materials in rock salt
title_auth	Development of chemical-hydraulic models for the prediction of long-term sealing capacity of concrete-based sealing materials in rock salt
title_exact_search	Development of chemical-hydraulic models for the prediction of long-term sealing capacity of concrete-based sealing materials in rock salt
title_full	Development of chemical-hydraulic models for the prediction of long-term sealing capacity of concrete-based sealing materials in rock salt Kyra Jantschik [und 5 weitere]
title_fullStr	Development of chemical-hydraulic models for the prediction of long-term sealing capacity of concrete-based sealing materials in rock salt Kyra Jantschik [und 5 weitere]
title_full_unstemmed	Development of chemical-hydraulic models for the prediction of long-term sealing capacity of concrete-based sealing materials in rock salt Kyra Jantschik [und 5 weitere]
title_short	Development of chemical-hydraulic models for the prediction of long-term sealing capacity of concrete-based sealing materials in rock salt
title_sort	development of chemical hydraulic models for the prediction of long term sealing capacity of concrete based sealing materials in rock salt
topic_facet	Forschungsbericht
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030494443&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV008889593
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