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Project BIGBEN: constitutive equations for Sodium and Calcium bentonites

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Bibliographische Detailangaben
Hauptverfasser:	Kröhn, Klaus-Peter (VerfasserIn), Kröhn, Michael 1972- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Köln ; Garching b. München ; Berlin ; Braunschweig Gesellschaft für Anlagen- und Reaktorsicherheit (GRS) gGmbH October 2020
Schriftenreihe:	GRS 615
Schlagworte:	Forschungsbericht
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	X, 192 Seiten Illustrationen, Diagramme 30 cm
ISBN:	9783949088018

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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS ACKNOWLEDGEMENTS .................................................................................................... I ABSTRACT ....................................................................................................................... ILL ZUSAMMENFASSUNG .................................................................................................... V 1 INTRODUCTION ................................................................................................................ 1 1.1 BACKGROUND .................................................................................................................. 1 1.2 HYSTERESIS OF THE SORPTION AND DESORPTION .................................................................. 1 1.3 SCANLINES ...................................................................................................................... 2 1.4 TEMPERATURE-DEPENDENCE OF THE ISOTHERMS ............................................................... 4 1.5 CONVENTIONS ................................................................................................................. 4 1.6 MICROSTRUCTURAL CHANGES BY SWELLING IN A CONFINED SPACE ......................................... 6 1.7 MOTIVATION FOR INVESTIGATING DIFFERENT BENTONITES ........................................................ 7 2 MEASUREMENT TECHNIQUES ........................................................................................ 9 2.1 SET-UP WITH DESICCATORS ............................................................................................... 9 2.2 SET-UP WITH THE VAPOUR SORPTION ANALYZER .............................................................. 11 3 HYSTERESIS OF THE ISOTHERMS ................................................................................. 15 3.1 MEASUREMENTS ............................................................................................................ 15 3.1.1 MX-80 .......................................................................................................................... 15 3.1.2 CALCIGEL ........................................................................................................................ 17 3.2 ANALYTICAL FUNCTIONS ................................................................................................... 18 3.2.1 MX-80 .......................................................................................................................... 18 3.2.2 CALCIGEL .......................................................................................................................22 4 SCANLINES ................................................................................................. 25 4.1 ASSUMPTIONS AND CONVENTIONS ................................................................................. 25 4.2 MEASUREMENTS ........................................................................................................... 26 4.2.1 MX-80 .......................................................................................................................... 26 4.2.1.1 ADDITIONAL DATA ON THE ISOTHERMS ............................................................................. 26 4.2.1.2 ADSORPTION SCANLINES .............................................................................. 27 4.2.1.3 DESORPTION SCANLINES .................................................................................................. 30 4.2.2 CALCIGEL ......................................................................................................................... 30 4.2.2.1 ADDITIONAL DATA ON THE ISOTHERMS .............................................................................. 30 4.2.2.2 ADSORPTION SCANLINES .................................................................................................. 31 4.2.2.3 DESORPTION SCANLINES ................................................................................................... 33 4.3 ANALYTICAL FUNCTIONS .................................................................................................... 35 4.3.1 PRINCIPLE CONSIDERATIONS ............................................................................................ 35 4.3.2 MX-80 ........................................................................................................................... 36 4.3.3 CALCIGEL ........................................................................................................................ 42 5 DEPENDENCE ON TEMPERATURE ................................................................................. 45 5.1 MEASUREMENTS UP TO 90 C IN AN OVEN ................................................................... 45 5.1.1 TEMPERATURE EVOLUTION .............................................................................................. 45 5.1.2 STABILITY OF THE DESICCATOR ATMOSPHERES AND TIMELINE ............................................ 47 5.1.3 RELATIVE HUMIDITY AND WATER CONTENT ....................................................................... 47 5.1.3.1 TEST PREPARATIONS - DAYS 0 TO 10 .............................................................................. 48 5.1.3.2 HEATING UP TO 30 C - DAYS 10 TO 307 ..................................................................... 49 5.1.3.3 HEATING UP TO 60 C - DAYS 307 TO 484 ..................................................................52 5.1.3.4 HEATING UP TO 90 C - DAYS 485 TO 791 ................................................................... 54 5.1.3.5 COOLING DOWN TO 60 C - DAYS 792 TO 1010 ............................................................ 58 5.1.3.6 COOLING DOWN TO 30 C - DAYS 1010 TO 1211 .......................................................... 59 5.1.4 CONCLUSIONS CONCERNING THE ISOTHERMS ..................................................................... 61 5.2 MEASUREMENTS UP TO 55 C WITH THE VSA ................................................................ 65 5.2.1 FINDING A SUCCESSFUL STRATEGY ................................................................................... 65 5.2.2 ADOPTED PROCEDURE .................................................................................................... 67 5.2.3 TEST RESULTS .................................................................................................................. 69 5.2.3.1 MX-80 ........................................................................................................................... 69 5.2.3.2 CALCIGEL .........................................................................................................................72 5.3 ANALYTICAL FUNCTIONS ....................................................................................................72 5.3.1 MX-80 ........................................................................................................................... 72 5.3.2 CALCIGEL ......................................................................................................................... 75 6 CONFINED CONDITIONS ................................................................................................ 77 6.1 MOTIVATION AND TEST PLAN ............................................................................................. 77 6.2 SOLUTIONS FOR THE TEST CELLS ......................................................................................... 77 6.3 DIFFICULTIES WITH PRINTED TEST CELLS ............................................................................... 79 6.4 FURTHER PRE-TESTS ON PLASTIC PRINTER MATERIALS .......................................................... 82 6.5 TEST PLAN AND RESULTS .................................................................................................. 87 VIII 7 IMPLEMENTATION OF THE NEW FEATURES IN CODE VIPER ....................................... 91 7.1 NEW FEATURES .............................................................................................................. 91 7.2 ISOTHERMS AND SCANLINES .......................................................................................... 91 7.2.1 LABELLING INDIVIDUAL SCANLINES .................................................................................. 91 7.2.2 CONSIDERING CONFINED CONDITIONS ............................................................................. 92 7.3 WATER LOSS DUE TO HEATING .........................................................................................94 8 INFLUENCE ON NUMERICAL MODELS ............................................................................ 95 8.1 COMMON BASIS OF THE NUMERICAL MODELS ................................................................ 95 8.2 8.3 8.4 8.4.1 8.4.2 8.5 8.6 8.6.1 8.6.2 8.6.3 ..96 100 103 103 106 108 113 113 114 119 ISOTHERMAL WETTING ..................................................................... ISOTHERMAL DRYING ...................................................................... * ARBITRARY * INITIAL CONDITIONS ...................................................... MX-80 CALCIGEL ....................................................................................... CHANGING BOUNDARY CONDITIONS BETWEEN WETTING AND DRYING MOISTURE RE-DISTRIBUTION DUE TO HEATING ................................... COMMON MODEL FEATURES ......................................................... DISCUSSION OF THE MODEL FOR MX-80 ......................................... MODEL COMPARISON ..................................................................... 9 SUMMARY, CONCLUSIONS AND RECOMMENDATIONS ............................................. 123 9.1 SUMMARY AND CONCLUSIONS ..................................................................................... 123 9.1.1 TOPIC 1: HYSTERESIS OF THE ISOTHERMS .................................................................... 125 9.1.2 TOPIC 2: SCANLINES ................................................................................................... 126 9.1.3 TOPIC 3: TEMPERATURE-DEPENDENCE OF THE ISOTHERMS ......................................... 128 9.1.3.1 MEASUREMENTS UP TO 90 C IN AN OVEN .............................................................. ....128 9.1.3.2 MEASUREMENTS UP TO 55 C WITH THE VSA .............................................................. 129 9.1.4 TOPIC 4: MICROSTRUCTURAL CHANGES UNDER CONFINED CONDITIONS .............................. 132 9.1.5 INFLUENCE ON MODELLING ............................................................................................ 134 9.2 RECOMMENDATIONS .................................................................................................. 137 9.2.1 GENERAL REMARK ........................................................................................................ 137 9.2.2 EXPERIMENTAL WORK .................................................................................................. 137 9.2.3 MODELLING ............................ 138 IX REFERENCES ............................................................................................................... 141 TABLE OF FIGURES ......................................................................................................145 LIST OF TABLES ............................................................................................................155 A APPENDIX: PRE-TEST FOR MEASUREMENTS WITH DESICCATORS ............................157 B APPENDIX: MEASUREMENT RESULTS FOR FREE SWELLING BENTONITE .....................159 B.1 MX-80 ........................................................................................................................ 159 B.1.1 HYSTERESIS ................................................................................................................ 159 B.1.2 ADSORPTION SCANLINES .............................................................................................. 162 B.1.3 DESORPTION SCANLINES ............................................................................................... 163 B.1.4 TEMPERATURE DEPENDENCE ..................................................................................... 165 B.1 .4.1 HYSTERESIS AND SCANLINES AT INCREASED TEMPERATURE ........................................... 165 B. 1.4.2 WEIGHT AT VARYING TEMPERATURE ............................................................................. 168 B.2 CALCIGEL ..................................................................................................................... 176 B.2.1 HYSTERESIS ................................................................................................................ 176 B.2. 2 ADSORPTION SCANLINES .............................................................................................. 177 B.2. 3 DESORPTION SCANLINES ............................................................................................... 178 B.2.4 TEMPERATURE DEPENDENCE ..................................................................................... 180 B.2.4.1 HYSTERESIS AND SCANLINES AT INCREASED TEMPERATURE ........................................... 180 B. 2.4.2 WEIGHT AT VARYING TEMPERATURE ............................................................................. 182 C APPENDIX: DESCRIPTIONS OF NUMERICAL MODELS ...............................................189 C. 1 REFERENCE DATA SET .................................................................................................. 189 C.2 VARIATIONS ................................................................................................................. 190 X
adam_txt	TABLE OF CONTENTS ACKNOWLEDGEMENTS . I ABSTRACT . ILL ZUSAMMENFASSUNG . V 1 INTRODUCTION . 1 1.1 BACKGROUND . 1 1.2 HYSTERESIS OF THE SORPTION AND DESORPTION . 1 1.3 SCANLINES . 2 1.4 TEMPERATURE-DEPENDENCE OF THE ISOTHERMS . 4 1.5 CONVENTIONS . 4 1.6 MICROSTRUCTURAL CHANGES BY SWELLING IN A CONFINED SPACE . 6 1.7 MOTIVATION FOR INVESTIGATING DIFFERENT BENTONITES . 7 2 MEASUREMENT TECHNIQUES . 9 2.1 SET-UP WITH DESICCATORS . 9 2.2 SET-UP WITH THE VAPOUR SORPTION ANALYZER . 11 3 HYSTERESIS OF THE ISOTHERMS . 15 3.1 MEASUREMENTS . 15 3.1.1 MX-80 . 15 3.1.2 CALCIGEL . 17 3.2 ANALYTICAL FUNCTIONS . 18 3.2.1 MX-80 . 18 3.2.2 CALCIGEL .22 4 SCANLINES . 25 4.1 ASSUMPTIONS AND CONVENTIONS . 25 4.2 MEASUREMENTS . 26 4.2.1 MX-80 . 26 4.2.1.1 ADDITIONAL DATA ON THE ISOTHERMS . 26 4.2.1.2 ADSORPTION SCANLINES . 27 4.2.1.3 DESORPTION SCANLINES . 30 4.2.2 CALCIGEL . 30 4.2.2.1 ADDITIONAL DATA ON THE ISOTHERMS . 30 4.2.2.2 ADSORPTION SCANLINES . 31 4.2.2.3 DESORPTION SCANLINES . 33 4.3 ANALYTICAL FUNCTIONS . 35 4.3.1 PRINCIPLE CONSIDERATIONS . 35 4.3.2 MX-80 . 36 4.3.3 CALCIGEL . 42 5 DEPENDENCE ON TEMPERATURE . 45 5.1 MEASUREMENTS UP TO 90 C IN AN OVEN . 45 5.1.1 TEMPERATURE EVOLUTION . 45 5.1.2 STABILITY OF THE DESICCATOR ATMOSPHERES AND TIMELINE . 47 5.1.3 RELATIVE HUMIDITY AND WATER CONTENT . 47 5.1.3.1 TEST PREPARATIONS - DAYS 0 TO 10 . 48 5.1.3.2 HEATING UP TO 30 C - DAYS 10 TO 307 . 49 5.1.3.3 HEATING UP TO 60 C - DAYS 307 TO 484 .52 5.1.3.4 HEATING UP TO 90 C - DAYS 485 TO 791 . 54 5.1.3.5 COOLING DOWN TO 60 C - DAYS 792 TO 1010 . 58 5.1.3.6 COOLING DOWN TO 30 C - DAYS 1010 TO 1211 . 59 5.1.4 CONCLUSIONS CONCERNING THE ISOTHERMS . 61 5.2 MEASUREMENTS UP TO 55 C WITH THE VSA . 65 5.2.1 FINDING A SUCCESSFUL STRATEGY . 65 5.2.2 ADOPTED PROCEDURE . 67 5.2.3 TEST RESULTS . 69 5.2.3.1 MX-80 . 69 5.2.3.2 CALCIGEL .72 5.3 ANALYTICAL FUNCTIONS .72 5.3.1 MX-80 . 72 5.3.2 CALCIGEL . 75 6 CONFINED CONDITIONS . 77 6.1 MOTIVATION AND TEST PLAN . 77 6.2 SOLUTIONS FOR THE TEST CELLS . 77 6.3 DIFFICULTIES WITH PRINTED TEST CELLS . 79 6.4 FURTHER PRE-TESTS ON PLASTIC PRINTER MATERIALS . 82 6.5 TEST PLAN AND RESULTS . 87 VIII 7 IMPLEMENTATION OF THE NEW FEATURES IN CODE VIPER . 91 7.1 NEW FEATURES . 91 7.2 ISOTHERMS AND SCANLINES . 91 7.2.1 LABELLING INDIVIDUAL SCANLINES . 91 7.2.2 CONSIDERING CONFINED CONDITIONS . 92 7.3 WATER LOSS DUE TO HEATING .94 8 INFLUENCE ON NUMERICAL MODELS . 95 8.1 COMMON BASIS OF THE NUMERICAL MODELS . 95 8.2 8.3 8.4 8.4.1 8.4.2 8.5 8.6 8.6.1 8.6.2 8.6.3 .96 100 103 103 106 108 113 113 114 119 ISOTHERMAL WETTING . ISOTHERMAL DRYING . * ARBITRARY * INITIAL CONDITIONS . MX-80 CALCIGEL . CHANGING BOUNDARY CONDITIONS BETWEEN WETTING AND DRYING MOISTURE RE-DISTRIBUTION DUE TO HEATING . COMMON MODEL FEATURES . DISCUSSION OF THE MODEL FOR MX-80 . MODEL COMPARISON . 9 SUMMARY, CONCLUSIONS AND RECOMMENDATIONS . 123 9.1 SUMMARY AND CONCLUSIONS . 123 9.1.1 TOPIC 1: HYSTERESIS OF THE ISOTHERMS . 125 9.1.2 TOPIC 2: SCANLINES . 126 9.1.3 TOPIC 3: TEMPERATURE-DEPENDENCE OF THE ISOTHERMS . 128 9.1.3.1 MEASUREMENTS UP TO 90 C IN AN OVEN . .128 9.1.3.2 MEASUREMENTS UP TO 55 C WITH THE VSA . 129 9.1.4 TOPIC 4: MICROSTRUCTURAL CHANGES UNDER CONFINED CONDITIONS . 132 9.1.5 INFLUENCE ON MODELLING . 134 9.2 RECOMMENDATIONS . 137 9.2.1 GENERAL REMARK . 137 9.2.2 EXPERIMENTAL WORK . 137 9.2.3 MODELLING . 138 IX REFERENCES . 141 TABLE OF FIGURES .145 LIST OF TABLES .155 A APPENDIX: PRE-TEST FOR MEASUREMENTS WITH DESICCATORS .157 B APPENDIX: MEASUREMENT RESULTS FOR FREE SWELLING BENTONITE .159 B.1 MX-80 . 159 B.1.1 HYSTERESIS . 159 B.1.2 ADSORPTION SCANLINES . 162 B.1.3 DESORPTION SCANLINES . 163 B.1.4 TEMPERATURE DEPENDENCE . 165 B.1 .4.1 HYSTERESIS AND SCANLINES AT INCREASED TEMPERATURE . 165 B. 1.4.2 WEIGHT AT VARYING TEMPERATURE . 168 B.2 CALCIGEL . 176 B.2.1 HYSTERESIS . 176 B.2. 2 ADSORPTION SCANLINES . 177 B.2. 3 DESORPTION SCANLINES . 178 B.2.4 TEMPERATURE DEPENDENCE . 180 B.2.4.1 HYSTERESIS AND SCANLINES AT INCREASED TEMPERATURE . 180 B. 2.4.2 WEIGHT AT VARYING TEMPERATURE . 182 C APPENDIX: DESCRIPTIONS OF NUMERICAL MODELS .189 C. 1 REFERENCE DATA SET . 189 C.2 VARIATIONS . 190 X
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spelling	Kröhn, Klaus-Peter Verfasser aut Project BIGBEN constitutive equations for Sodium and Calcium bentonites Klaus-Peter Kröhn, Michael Kröhn Köln ; Garching b. München ; Berlin ; Braunschweig Gesellschaft für Anlagen- und Reaktorsicherheit (GRS) gGmbH October 2020 X, 192 Seiten Illustrationen, Diagramme 30 cm txt rdacontent n rdamedia nc rdacarrier GRS 615 (DE-588)4155043-2 Forschungsbericht gnd-content Kröhn, Michael 1972- Verfasser (DE-588)123702771 aut GRS 615 (DE-604)BV008889593 615 B:DE-101 application/pdf https://d-nb.info/1228101140/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032689414&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p aep-gnd 0,05285 20200404 DE-101 https://d-nb.info/provenance/plan#aep-gnd
spellingShingle	Kröhn, Klaus-Peter Kröhn, Michael 1972- Project BIGBEN constitutive equations for Sodium and Calcium bentonites GRS
subject_GND	(DE-588)4155043-2
title	Project BIGBEN constitutive equations for Sodium and Calcium bentonites
title_auth	Project BIGBEN constitutive equations for Sodium and Calcium bentonites
title_exact_search	Project BIGBEN constitutive equations for Sodium and Calcium bentonites
title_exact_search_txtP	Project BIGBEN constitutive equations for Sodium and Calcium bentonites
title_full	Project BIGBEN constitutive equations for Sodium and Calcium bentonites Klaus-Peter Kröhn, Michael Kröhn
title_fullStr	Project BIGBEN constitutive equations for Sodium and Calcium bentonites Klaus-Peter Kröhn, Michael Kröhn
title_full_unstemmed	Project BIGBEN constitutive equations for Sodium and Calcium bentonites Klaus-Peter Kröhn, Michael Kröhn
title_short	Project BIGBEN
title_sort	project bigben constitutive equations for sodium and calcium bentonites
title_sub	constitutive equations for Sodium and Calcium bentonites
topic_facet	Forschungsbericht
url	https://d-nb.info/1228101140/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032689414&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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work_keys_str_mv	AT krohnklauspeter projectbigbenconstitutiveequationsforsodiumandcalciumbentonites AT krohnmichael projectbigbenconstitutiveequationsforsodiumandcalciumbentonites

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