Verfügbarkeit: Process and reaction monitoring with medium field NMR spectroscopy

Process and reaction monitoring with medium field NMR spectroscopy:

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Bibliographische Detailangaben
1. Verfasser:	Friebel, Anne 1989- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Kaiserslautern Laboratory of Engineering Thermodynamics (LTD), University of Kaiserslautern 2020
Schriftenreihe:	Scientific report series / Technische Universität Kaiserslautern, Laboratory of Engineering Thermodynamics volume 32
Schlagworte:	Prozessüberwachung Reaktionstechnik NMR-Spektroskopie Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	XXII, 137 Seiten Illustrationen, Diagramme
ISBN:	9783944433318

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adam_text	CONTENTS XV CONTENTS 1 INTRODUCTION 1 2 LIQUID-LIQUID EQUILIBRIA 5 2.1 INTRODUCTION ................................................................................................... 5 2.2 EXPERIMENTS ................................................................................................... 7 2.2.1 CHEMICALS ........................................................................................... 7 2.2.2 EXPERIMENTAL SETUP AND PROCEDURE .................................................. 8 2.2.2.1 NON-REACTIVE SYSTEMS ....................................................... 8 2.2.2.2 REACTIVE SYSTEM ............................................................... 9 2.2.3 NMR INSTRUMENT AND METHODS ....................................................... 10 2.2.4 PEAK ASSIGNMENT AND QUANTIFICATION ............................................... 10 2.2.5 CORRELATION ........................................................................................ 12 2.3 RESULTS AND DISCUSSION .................................................................................. 13 2.3.1 SYSTEM TOLUENE + ACETONE + WATER .................................................. 13 2.3.2 SYSTEM DIETHYL ETHER + ACETONE + WATER ....................................... 13 2.3.3 SYSTEM DIETHYL ETHER + METHANOL + WATER .................................... 14 2.3.4 SYSTEM ACETONITRILE + ETHANOL + CYCLOHEXANE ................................. 15 2.3.5 REACTIVE SYSTEM WATER + ACETIC ACID + ACETIC ANHYDRIDE .............. 16 2.4 CONCLUSIONS ................................................................................................... 17 3 BATCH DISTILLATION 21 3.1 INTRODUCTION ................................................................................................... 21 3.2 EXPERIMENTS ................................................................................................... 22 3.2.1 CHEMICALS ........................................................................................... 22 3.2.2 EXPERIMENTAL SETUP .......................................................................... 22 3.2.3 PROCEDURE ........................................................................................... 24 3.2.4 ANALYSIS ............................................................................................. 25 3.2.5 MODELING AND SIMULATION .................................................................. 25 3.3 RESULTS AND DISCUSSION .................................................................................. 27 3.3.1 SYSTEM: DIMETHYL SULFOXIDE + ACETONITRILE + ETHYL FORMATE .... 27 3.3.2 SYSTEM: ETHYL ACETATE + ACETONE + DIETHYL ETHER ........................... 27 3.3.3 SYSTEM: ACETIC ACID + PYRIDINE ....................................................... 29 XVI CONTENTS 3.3.4 SYSTEM: METHANOL + DIETHYLAMINE .................................................. 29 3.4 CONCLUSIONS ................................................................................................... 32 4 REACTION MONITORING 35 4.1 INTRODUCTION ................................................................................................... 35 4.2 REACTION SYSTEMS AND KINETIC MODEL ........................................................... 36 4.3 REACTOR MODELS .............................................................................................. 37 4.4 EXPERIMENTS ................................................................................................... 38 4.4.1 CHEMICALS ........................................................................................... 38 4.4.2 EXPERIMENTAL SETUP AND PROCEDURE .................................................. 38 4.4.3 NMR INSTRUMENT AND METHODS ......................................................... 39 4.4.4 PREMAGNETIZATION IN FLOW .................................................................. 41 4.4.5 RTD MEASUREMENTS .......................................................................... 42 4.4.6 PEAK ASSIGNMENT AND DATA ANALYSIS .................................................. 43 4.5 RESULTS AND DISCUSSION ................................................................................... 45 4.5.1 KINETIC MEASUREMENTS ..................................................................... 45 4.5.2 2D NMR MEASUREMENTS .................................................................. 48 4.6 CONCLUSIONS ................................................................................................... 49 5 MODELING OF MAGNETIZATION 53 5.1 INTRODUCTION ................................................................................................... 53 5.2 EXPERIMENTS ................................................................................................... 55 5.2.1 CHEMICALS ........................................................................................... 55 5.2.2 EXPERIMENTAL SETUP .......................................................................... 55 5.2.3 PROCEDURE ........................................................................................... 57 5.2.3.1 PHYSICAL PROPERTIES ............................................................... 57 5.2.3.2 RELATIVE MAGNETIZATION ......................................................... 57 5.3 MODELLING AND SIMULATION ...................................................................... 58 5.3.1 TRANSPORT MODEL FOR MAGNETIZATION ................................................... 58 5.3.2 SIMULATION ........................................................................................ 59 5.4 RESULTS AND DISCUSSION .................................................................................. 61 5.4.1 PURE WATER ........................................................................................ 61 5.4.2 MIXTURES OF WATER + ACETONITRILE ...................................................... 64 5.5 CONCLUSIONS ................................................................................................... 67 6 CONCLUSIONS 71 LITERATURE 74 APPENDIX 87 CONTENTS XVII A LIQUID-LIQUID EQUILIBRIUM 87 A. L SYSTEM ACN + ETOH + CH - ALTERNATIVE MEASUREMENT METHODS ........... 87 A. 1.1 SAMPLE SHIFTING METHOD IN COMBINATION WITH CARBON MEDIUM FIELD SPECTROSCOPY ......................................................................... 87 A. 1.1.1 EXPERIMENTAL SETUP AND PROCEDURE ............................. 87 A. 1.1.2 NMR INSTRUMENT AND METHODS .................................. 87 A. 1.1.3 PEAK ASSIGNMENT AND QUANTIFICATION ............................. 88 A. 1.1.4 RESULTS AND DISCUSSION ................................................... 88 A. 1.2 SLICING METHOD IN COMBINATION WITH PROTON HIGH FIELD SPECTROSCOPY 89 A. 1.2.1 EXPERIMENTAL SETUP AND PROCEDURE ................................. 89 A. 1.2.2 NMR INSTRUMENT AND METHODS ....................................... 90 A. 1.2.3 PEAK ASSIGNMENT AND QUANTIFICATION ................................. 91 A. 1.2.4 RESULTS AND DISCUSSION ....................................................... 91 A. 2 POSITIONING OF THE SAMPLE TUBE ................................................................... 91 A. 3 PEAK ASSIGNMENT ......................................................................................... 92 A. 4 INTEGRATION METHODS .................................................................................... 92 A. 5 DETAILS ON CORRELATION ................................................................................. 95 A.5.1 NRTL AND UNIQU AC MODEL .......................................................... 95 A. 5.2 SLOPE CURVE METHOD .......................................................................... 96 A. 6 EXPERIMENTAL PHASE COMPOSITION .................................................................. 97 B BATCH DISTILLATION 104 B. L RTD MEASUREMENT BYPASS ............................................................................ 104 B. 2 QUANTITATIVE FLOW MEASUREMENTS .................................................................... 104 B. 3 ACCURACY OF NMR ANALYSIS ............................................................................ 105 B. 4 GC METHOD AND CALIBRATION ......................................................................... 105 B. 5 ANTOINE AND NRTL PARAMETERS .................................................................... 106 B. 6 RESIDUE CURVES ............................................................................................... 107 C REACTION MONITORING 112 C. L PREMAGNETIZATION IN FLOW ............................................................................... 112 C. 2 RTD MEASUREMENTS ....................................................................................... 112 C. 2.1 PROCEDURE .............................................................................................. 112 C. 2. 2 PARAMETRIZATION OF TSR MODEL .......................................................... 114 C. 2. 3 SENSITIVITY STUDY PER ........................................................................ 115 C. 3 EXPERIMENTAL DATA .......................................................................................... 116 C.3.1 KINETIC DATA ........................................................................................ 116 D MODELING OF MAGNETIZATION 123 D. L MAGNETIC FIELD STRENGTH .................................................................................. 123 XVIII CONTENTS 0.2 TEMPERATURE DEPENDENCE OF RELAXATION TIME ................................................. 123 0.3 NUMERICAL DIMENSIONS OF THE FLOW CELLS ......................................................... 123 0.4 PEAK ASSIGNMENT ............................................................................................. 124 0.5 LAMINAR AND TURBULENT SIMULATION IN FLOW CELL III .......................................... 124 0.6 WEIGHING FUNCTION OF NON-UNIFORM EXCITATION PROFILE .................................... 125 0.7 OPTIMIZATION OF SOLVER OPTIONS AND MESHING ................................................. 126 0.8 SENSITIVITY ANALYSIS - SELF-DIFFUSION COEFFICIENT .............................................. 127 0.9 SOURCE CODE BLOCHFOAM SOLVER ....................................................................... 128 0.10 EXPERIMENTAL AND SIMULATION DATA .................................................................. 128
adam_txt	CONTENTS XV CONTENTS 1 INTRODUCTION 1 2 LIQUID-LIQUID EQUILIBRIA 5 2.1 INTRODUCTION . 5 2.2 EXPERIMENTS . 7 2.2.1 CHEMICALS . 7 2.2.2 EXPERIMENTAL SETUP AND PROCEDURE . 8 2.2.2.1 NON-REACTIVE SYSTEMS . 8 2.2.2.2 REACTIVE SYSTEM . 9 2.2.3 NMR INSTRUMENT AND METHODS . 10 2.2.4 PEAK ASSIGNMENT AND QUANTIFICATION . 10 2.2.5 CORRELATION . 12 2.3 RESULTS AND DISCUSSION . 13 2.3.1 SYSTEM TOLUENE + ACETONE + WATER . 13 2.3.2 SYSTEM DIETHYL ETHER + ACETONE + WATER . 13 2.3.3 SYSTEM DIETHYL ETHER + METHANOL + WATER . 14 2.3.4 SYSTEM ACETONITRILE + ETHANOL + CYCLOHEXANE . 15 2.3.5 REACTIVE SYSTEM WATER + ACETIC ACID + ACETIC ANHYDRIDE . 16 2.4 CONCLUSIONS . 17 3 BATCH DISTILLATION 21 3.1 INTRODUCTION . 21 3.2 EXPERIMENTS . 22 3.2.1 CHEMICALS . 22 3.2.2 EXPERIMENTAL SETUP . 22 3.2.3 PROCEDURE . 24 3.2.4 ANALYSIS . 25 3.2.5 MODELING AND SIMULATION . 25 3.3 RESULTS AND DISCUSSION . 27 3.3.1 SYSTEM: DIMETHYL SULFOXIDE + ACETONITRILE + ETHYL FORMATE . 27 3.3.2 SYSTEM: ETHYL ACETATE + ACETONE + DIETHYL ETHER . 27 3.3.3 SYSTEM: ACETIC ACID + PYRIDINE . 29 XVI CONTENTS 3.3.4 SYSTEM: METHANOL + DIETHYLAMINE . 29 3.4 CONCLUSIONS . 32 4 REACTION MONITORING 35 4.1 INTRODUCTION . 35 4.2 REACTION SYSTEMS AND KINETIC MODEL . 36 4.3 REACTOR MODELS . 37 4.4 EXPERIMENTS . 38 4.4.1 CHEMICALS . 38 4.4.2 EXPERIMENTAL SETUP AND PROCEDURE . 38 4.4.3 NMR INSTRUMENT AND METHODS . 39 4.4.4 PREMAGNETIZATION IN FLOW . 41 4.4.5 RTD MEASUREMENTS . 42 4.4.6 PEAK ASSIGNMENT AND DATA ANALYSIS . 43 4.5 RESULTS AND DISCUSSION . 45 4.5.1 KINETIC MEASUREMENTS . 45 4.5.2 2D NMR MEASUREMENTS . 48 4.6 CONCLUSIONS . 49 5 MODELING OF MAGNETIZATION 53 5.1 INTRODUCTION . 53 5.2 EXPERIMENTS . 55 5.2.1 CHEMICALS . 55 5.2.2 EXPERIMENTAL SETUP . 55 5.2.3 PROCEDURE . 57 5.2.3.1 PHYSICAL PROPERTIES . 57 5.2.3.2 RELATIVE MAGNETIZATION . 57 5.3 MODELLING AND SIMULATION . 58 5.3.1 TRANSPORT MODEL FOR MAGNETIZATION . 58 5.3.2 SIMULATION . 59 5.4 RESULTS AND DISCUSSION . 61 5.4.1 PURE WATER . 61 5.4.2 MIXTURES OF WATER + ACETONITRILE . 64 5.5 CONCLUSIONS . 67 6 CONCLUSIONS 71 LITERATURE 74 APPENDIX 87 CONTENTS XVII A LIQUID-LIQUID EQUILIBRIUM 87 A. L SYSTEM ACN + ETOH + CH - ALTERNATIVE MEASUREMENT METHODS . 87 A. 1.1 SAMPLE SHIFTING METHOD IN COMBINATION WITH CARBON MEDIUM FIELD SPECTROSCOPY . 87 A. 1.1.1 EXPERIMENTAL SETUP AND PROCEDURE . 87 A. 1.1.2 NMR INSTRUMENT AND METHODS . 87 A. 1.1.3 PEAK ASSIGNMENT AND QUANTIFICATION . 88 A. 1.1.4 RESULTS AND DISCUSSION . 88 A. 1.2 SLICING METHOD IN COMBINATION WITH PROTON HIGH FIELD SPECTROSCOPY 89 A. 1.2.1 EXPERIMENTAL SETUP AND PROCEDURE . 89 A. 1.2.2 NMR INSTRUMENT AND METHODS . 90 A. 1.2.3 PEAK ASSIGNMENT AND QUANTIFICATION . 91 A. 1.2.4 RESULTS AND DISCUSSION . 91 A. 2 POSITIONING OF THE SAMPLE TUBE . 91 A. 3 PEAK ASSIGNMENT . 92 A. 4 INTEGRATION METHODS . 92 A. 5 DETAILS ON CORRELATION . 95 A.5.1 NRTL AND UNIQU AC MODEL . 95 A. 5.2 SLOPE CURVE METHOD . 96 A. 6 EXPERIMENTAL PHASE COMPOSITION . 97 B BATCH DISTILLATION 104 B. L RTD MEASUREMENT BYPASS . 104 B. 2 QUANTITATIVE FLOW MEASUREMENTS . 104 B. 3 ACCURACY OF NMR ANALYSIS . 105 B. 4 GC METHOD AND CALIBRATION . 105 B. 5 ANTOINE AND NRTL PARAMETERS . 106 B. 6 RESIDUE CURVES . 107 C REACTION MONITORING 112 C. L PREMAGNETIZATION IN FLOW . 112 C. 2 RTD MEASUREMENTS . 112 C. 2.1 PROCEDURE . 112 C. 2. 2 PARAMETRIZATION OF TSR MODEL . 114 C. 2. 3 SENSITIVITY STUDY 'PER' . 115 C. 3 EXPERIMENTAL DATA . 116 C.3.1 KINETIC DATA . 116 D MODELING OF MAGNETIZATION 123 D. L MAGNETIC FIELD STRENGTH . 123 XVIII CONTENTS 0.2 TEMPERATURE DEPENDENCE OF RELAXATION TIME . 123 0.3 NUMERICAL DIMENSIONS OF THE FLOW CELLS . 123 0.4 PEAK ASSIGNMENT . 124 0.5 LAMINAR AND TURBULENT SIMULATION IN FLOW CELL III . 124 0.6 WEIGHING FUNCTION OF NON-UNIFORM EXCITATION PROFILE . 125 0.7 OPTIMIZATION OF SOLVER OPTIONS AND MESHING . 126 0.8 SENSITIVITY ANALYSIS - SELF-DIFFUSION COEFFICIENT . 127 0.9 SOURCE CODE BLOCHFOAM SOLVER . 128 0.10 EXPERIMENTAL AND SIMULATION DATA . 128
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spelling	Friebel, Anne 1989- Verfasser (DE-588)1216428816 aut Process and reaction monitoring with medium field NMR spectroscopy Anne Friebel Kaiserslautern Laboratory of Engineering Thermodynamics (LTD), University of Kaiserslautern 2020 XXII, 137 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Scientific report series / Technische Universität Kaiserslautern, Laboratory of Engineering Thermodynamics volume 32 Dissertation Technische Universität Kaiserslautern 2020 Prozessüberwachung (DE-588)4133922-8 gnd rswk-swf Reaktionstechnik (DE-588)4136173-8 gnd rswk-swf NMR-Spektroskopie (DE-588)4075421-2 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Prozessüberwachung (DE-588)4133922-8 s Reaktionstechnik (DE-588)4136173-8 s NMR-Spektroskopie (DE-588)4075421-2 s DE-604 Technische Universität Kaiserslautern, Laboratory of Engineering Thermodynamics Scientific report series volume 32 (DE-604)BV040983565 32 B:DE-101 application/pdf https://d-nb.info/1219080764/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032404166&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p aepsg 0,98487 20201013 DE-101 https://d-nb.info/provenance/plan#aepsg
spellingShingle	Friebel, Anne 1989- Process and reaction monitoring with medium field NMR spectroscopy Prozessüberwachung (DE-588)4133922-8 gnd Reaktionstechnik (DE-588)4136173-8 gnd NMR-Spektroskopie (DE-588)4075421-2 gnd
subject_GND	(DE-588)4133922-8 (DE-588)4136173-8 (DE-588)4075421-2 (DE-588)4113937-9
title	Process and reaction monitoring with medium field NMR spectroscopy
title_auth	Process and reaction monitoring with medium field NMR spectroscopy
title_exact_search	Process and reaction monitoring with medium field NMR spectroscopy
title_exact_search_txtP	Process and reaction monitoring with medium field NMR spectroscopy
title_full	Process and reaction monitoring with medium field NMR spectroscopy Anne Friebel
title_fullStr	Process and reaction monitoring with medium field NMR spectroscopy Anne Friebel
title_full_unstemmed	Process and reaction monitoring with medium field NMR spectroscopy Anne Friebel
title_short	Process and reaction monitoring with medium field NMR spectroscopy
title_sort	process and reaction monitoring with medium field nmr spectroscopy
topic	Prozessüberwachung (DE-588)4133922-8 gnd Reaktionstechnik (DE-588)4136173-8 gnd NMR-Spektroskopie (DE-588)4075421-2 gnd
topic_facet	Prozessüberwachung Reaktionstechnik NMR-Spektroskopie Hochschulschrift
url	https://d-nb.info/1219080764/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032404166&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV040983565
work_keys_str_mv	AT friebelanne processandreactionmonitoringwithmediumfieldnmrspectroscopy

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