Verfügbarkeit: Process design for flame-synthesized functional nanomaterials

Process design for flame-synthesized functional nanomaterials:

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Bibliographische Detailangaben
1. Verfasser:	Meierhofer, Florian (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Düren Shaker 2022
Schriftenreihe:	Berichte aus der Verfahrenstechnik
Schlagworte:	Sprayflamme Nanopartikel Herstellung Sprühpyrolyse nanoparticles population balance model spray combustion aerosols non-intrusive laser diagnostics flame spray pyrolysis computational fluid dynamics Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XX, 248 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 407 g
ISBN:	9783844086973 3844086978

Internformat

MARC


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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS ACKNOWLEDGMENTS ......................................................................................................................... I ZUSAMMENFASSUNG ...................................................................................................................... V ABSTRACT ........................................................................................................................................ X NOMENCLATURE ............................................................................................................................ XV 1. MOTIVATION AND AIMS ................................................................................................................ 1 2. STATE-OF-THE-ART PROCESS DESIGN FOR SPRAY FLAME SYNTHESIS OF METAL OXIDE NANOPARTICLES .... 5 2.1. INTRODUCTION TO HISTORY AND DEVELOPMENT IN FLAME NANOPARTICLE TECHNOLOGY .................. 5 2.1.1. HISTORICAL BACKGROUND ............................................................................................ 6 2.1.2. ENABLING MULTI-METAL OXIDES - THE RISE OF FLAME SPRAY PYROLYSIS ........................... 7 2.2. PROCESS OVERVIEW OF FLAME AEROSOL-BASED MANUFACTURING ............................................ 10 2.2.1. RAW MATERIALS AND PRECURSORS ............................................................................ 12 2.2.2. AEROSOL FLAME REACTOR CONCEPTS .......................................................................... 15 2.2.3. COOLING ................................................................................................................ 19 2.2.4. IN SITU CONDITIONING: MIXING, COATING AND FUNCTIONALIZATION ................................. 20 2.2.5. PARTICLE COLLECTION: FILTRATION AND THERMOPHORETIC DEPOSITION .............................. 22 2.2.6. EXHAUST GAS TREATMENT ........................................................................................ 24 2.2.7. POST-PROCESSING: PARTICLE HANDLING, STORING AND MODIFICATION ............................ 25 2.2.8. APPLICATION ........................................................................................................... 27 2.3. PRINCIPLES IN PROCESS DESIGN AND COMPUTATIONAL REACTOR MODELING .............................. 29 2.3.1. PARTICLE GROWTH MECHANISMS IN LIQUID-FED REACTORS ............................................. 29 2.3.2. THE CONCEPT OF CHARACTERISTIC PROCESS TIMES ...................................................... 32 2.3.3. PARTICLE DYNAMICS AND POPULATION BALANCE MODELS ............................................ 36 2.3.4. MULTISCALE PROCESS DESIGN ................................................................................... 39 2.3.5. CONTINUUM MODELS .............................................................................................. 41 2.3.6. MESOSCALE MODELS .............................................................................................. 44 2.3.7. MOLECULAR DYNAMICS MODELS ................................................................................ 46 2.3.8. QUANTUM MECHANICS MODELS .............................................................................. 49 2.4. EXPERIMENTAL PROCESS AND NANOPARTICLE DIAGNOSTICS .................................................... 51 2.4.1. DIAGNOSTICS FOR SPRAY COMBUSTION ....................................................................... 52 2.4.2. DIAGNOSTICS FOR AEROSOLS AND NANOPARTICLES ........................................................ 58 3. METHODS ................................................................................................................................. 65 3.1. EXPERIMENTAL METHODS .................................................................................................. 65 3.1.1. SYNTHESIS OF LITHIUM TITANATE BY OPEN FSP (METHODS OF CHAPTER 4.1) ................. 67 3.1.2. SYNTHESIS OF ZIRCONIA BY OPEN FSP (METHODS OF CHAPTER 4.2) ........................... 73 3.1.3. SYNTHESIS OF ZIRCONIA BY ENCLOSED FSP (METHODS OF CHAPTER 4.3) .................... 79 3.1.4. MANUFACTURING OF ZIRCONIA PARTICLE LAYERS BY FSP (METHODS OF CHAPTER 4.4) ...... 81 3.2. THEORETICAL AND NUMERICAL METHODS ............................................................................. 86 3.2.1. CFD-PBM OF OPEN FSP REACTOR (METHODS OF CHAPTER 4.2) ................................ 86 3.2.2. CFD-PBM OF ENCLOSED FSP REACTOR (METHODS OF CHAPTER 4.3) .......................... 92 3.2.3. MODELING OF FLAME AEROSOL DEPOSITION (METHODS OF CHAPTER 4.4) ......................... 93 4. RESULTS ................................................................................................................................ 109 4.1. SCREENING PRECURSOR-SOLVENT COMBINATIONS FOR LITHIUM TITANATE ................................... 109 4.1.1. PRECURSOR-SOLVENT SCREENING ............................................................................ 110 4.1.2. FTIR ANALYSIS OF TITANIUM PRECURSOR-SOLVENT COMBINATIONS .............................. 111 4.1.3. FTIR ANALYSIS OF LITHIUM PRECURSOR-SOLVENT COMBINATIONS ................................. 114 4.1.4. COMBINATIONS OF LITHIUM AND TITANIUM PRECURSOR-SOLUTIONS ................................ 116 4.1.5. LONG TERM STABILITY OF THE SPRAY SOLUTIONS ........................................................... 117 4.1.6. CRYSTAL PHASE COMPOSITIONS AND DIAMETERS OF FLAME-SPRAYED POWDERS ......... 117 4.1.7. SINGLE DROPLET COMBUSTION AND CARBOXYLATION OF NITRATES .................................. 122 4.1.8. TEM ANALYSIS OF SINGLE DROPLET AND SPRAY COMBUSTION PRODUCTS ..................... 125 4.1.9. IDENTIFICATION OF UNDESIRED IMPURITIES OF AS-OBTAINED LTO NANOPOWDERS ........ 128 4.1.10. NON-LITHIATED, PARTIALLY LITHIATED AND FULLY LITHIATED LI4TI 5 0I 2 ............................... 131 4.1.11. CONCLUDING REMARKS OF CHAPTER 4.1 ................................................................... 132 4.2. EVOLUTION OF ZIRCONIA NANOPARTICLES IN UNCONFINED/OPEN FSP REACTORS ....................... 133 4.2.1. DISPERSION GAS FLOW FIELD ................................................................................... 134 4.2.2. LIQUID ATOMIZATION AND DROPLET EVAPORATION ...................................................... 136 4.2.3. PROCESS DYNAMICS AND TEMPERATURE ................................................................. 139 4.2.4. PRECURSOR CONVERSION AND PARTICLE NUCLEATION ................................................... 142 4.2.5. EXPERIMENTAL PRIMARY AND AGGLOMERATE NANOPARTICLE DIAMETERS ..................... 144 4.2.6. PBM SENSITIVITY ANALYSIS .................................................................................... 148 4.2.7. CALCULATION OF NANOPARTICLE DIAMETER EVOLUTION ................................................ 151 4.2.8. CONCLUDING REMARKS OF CHAPTER 4.2 .................................................................. 154 4.3. INFLUENCE OF REACTOR ENCLOSURE AND GAS ENTRAINMENT ON FSP-MADE ZIRCONIA ............ 155 4.3.1. ENTRAINMENT OF OPEN FSP FOR ESTIMATING CO-FLOW AIR IN ENCLOSED FLAME SPRAYS 156 4.3.2. GAS TEMPERATURE AND MODEL REFINEMENTS ........................................................ 159 4.3.3. PARTICLE SIZE, YIELD AND CRYSTALLINITY ................................................................... 160 4.3.4. CONCLUDING REMARKS OF CHAPTER 4.3 .................................................................. 163 4.4. DEPOSITION OF FSP-MADE ZIRCONIA PARTICLES VIA THERMOPHORESIS AND CAKE FILTRATION ..164 4.4.1. TEMPERATURE AT THE THERMOPHORETIC DEPOSITION STAGE ....................................... 165 4.4.2. THERMOPHORETIC DEPOSITION OF FSP NANOPARTICLE LAYERS .................................. 167 4.4.3. VACUUM FILTER DEPOSITION OF FSP NANOPARTICLES ................................................ 172 4.4.4. CONCLUDING REMARKS OF CHAPTER 4.4 ................................................................... 177 5. SUMMARY, CONCLUSIONS AND OUTLOOK .................................................................................... 179 5.1. SUMMARY AND CONCLUSIONS ........................................................................................... 179 5.2. OUTLOOK ......................................................................................................................... 182 5.2.1. MULTISCALE MODEL CONCEPTS ................................................................................. 183 5.2.2. DEVELOPMENT OF NON-INTRUSIVE DIAGNOSTICS ......................................................... 183 5.2.3. THE NEED FOR STANDARDIZED CONDITIONS IN FLAME SPRAY REACTORS ...................... 184 5.2.4. CONTINUING DEMAND FOR SUSTAINABLE PRECURSOR-SOLVENT MIXTURES .................... 185 REFERENCES ................................................................................................................................ 186 APPENDIX .................................................................................................................................. 223 A SUPPORTING FIGURES AND TABLES OF CHAPTER 4.1 .............................................................. 223 B SUPPORTING FIGURES AND TABLES OF CHAPTER 4.2 .............................................................. 232 C SUPPORTING FIGURES OF CHAPTER 4.3 ............................................................................... 239 D SUPPORTING FIGURES OF CHAPTER 4.4 ............................................................................... 240 LIST OF PUBLICATIONS WITH CONTENT RELATED TO THIS THESIS ............................................................. 243 ACKNOWLEDGEMENTS OF CONTRIBUTIONS FROM SUPERVISED STUDENTS AND COLLEAGUES .................. 246 DECLARATION ............................................................................................................................... 248
adam_txt	TABLE OF CONTENTS ACKNOWLEDGMENTS . I ZUSAMMENFASSUNG . V ABSTRACT . X NOMENCLATURE . XV 1. MOTIVATION AND AIMS . 1 2. STATE-OF-THE-ART PROCESS DESIGN FOR SPRAY FLAME SYNTHESIS OF METAL OXIDE NANOPARTICLES . 5 2.1. INTRODUCTION TO HISTORY AND DEVELOPMENT IN FLAME NANOPARTICLE TECHNOLOGY . 5 2.1.1. HISTORICAL BACKGROUND . 6 2.1.2. ENABLING MULTI-METAL OXIDES - THE RISE OF FLAME SPRAY PYROLYSIS . 7 2.2. PROCESS OVERVIEW OF FLAME AEROSOL-BASED MANUFACTURING . 10 2.2.1. RAW MATERIALS AND PRECURSORS . 12 2.2.2. AEROSOL FLAME REACTOR CONCEPTS . 15 2.2.3. COOLING . 19 2.2.4. IN SITU CONDITIONING: MIXING, COATING AND FUNCTIONALIZATION . 20 2.2.5. PARTICLE COLLECTION: FILTRATION AND THERMOPHORETIC DEPOSITION . 22 2.2.6. EXHAUST GAS TREATMENT . 24 2.2.7. POST-PROCESSING: PARTICLE HANDLING, STORING AND MODIFICATION . 25 2.2.8. APPLICATION . 27 2.3. PRINCIPLES IN PROCESS DESIGN AND COMPUTATIONAL REACTOR MODELING . 29 2.3.1. PARTICLE GROWTH MECHANISMS IN LIQUID-FED REACTORS . 29 2.3.2. THE CONCEPT OF CHARACTERISTIC PROCESS TIMES . 32 2.3.3. PARTICLE DYNAMICS AND POPULATION BALANCE MODELS . 36 2.3.4. MULTISCALE PROCESS DESIGN . 39 2.3.5. CONTINUUM MODELS . 41 2.3.6. MESOSCALE MODELS . 44 2.3.7. MOLECULAR DYNAMICS MODELS . 46 2.3.8. QUANTUM MECHANICS MODELS . 49 2.4. EXPERIMENTAL PROCESS AND NANOPARTICLE DIAGNOSTICS . 51 2.4.1. DIAGNOSTICS FOR SPRAY COMBUSTION . 52 2.4.2. DIAGNOSTICS FOR AEROSOLS AND NANOPARTICLES . 58 3. METHODS . 65 3.1. EXPERIMENTAL METHODS . 65 3.1.1. SYNTHESIS OF LITHIUM TITANATE BY OPEN FSP (METHODS OF CHAPTER 4.1) . 67 3.1.2. SYNTHESIS OF ZIRCONIA BY OPEN FSP (METHODS OF CHAPTER 4.2) . 73 3.1.3. SYNTHESIS OF ZIRCONIA BY ENCLOSED FSP (METHODS OF CHAPTER 4.3) . 79 3.1.4. MANUFACTURING OF ZIRCONIA PARTICLE LAYERS BY FSP (METHODS OF CHAPTER 4.4) . 81 3.2. THEORETICAL AND NUMERICAL METHODS . 86 3.2.1. CFD-PBM OF OPEN FSP REACTOR (METHODS OF CHAPTER 4.2) . 86 3.2.2. CFD-PBM OF ENCLOSED FSP REACTOR (METHODS OF CHAPTER 4.3) . 92 3.2.3. MODELING OF FLAME AEROSOL DEPOSITION (METHODS OF CHAPTER 4.4) . 93 4. RESULTS . 109 4.1. SCREENING PRECURSOR-SOLVENT COMBINATIONS FOR LITHIUM TITANATE . 109 4.1.1. PRECURSOR-SOLVENT SCREENING . 110 4.1.2. FTIR ANALYSIS OF TITANIUM PRECURSOR-SOLVENT COMBINATIONS . 111 4.1.3. FTIR ANALYSIS OF LITHIUM PRECURSOR-SOLVENT COMBINATIONS . 114 4.1.4. COMBINATIONS OF LITHIUM AND TITANIUM PRECURSOR-SOLUTIONS . 116 4.1.5. LONG TERM STABILITY OF THE SPRAY SOLUTIONS . 117 4.1.6. CRYSTAL PHASE COMPOSITIONS AND DIAMETERS OF FLAME-SPRAYED POWDERS . 117 4.1.7. SINGLE DROPLET COMBUSTION AND CARBOXYLATION OF NITRATES . 122 4.1.8. TEM ANALYSIS OF SINGLE DROPLET AND SPRAY COMBUSTION PRODUCTS . 125 4.1.9. IDENTIFICATION OF UNDESIRED IMPURITIES OF AS-OBTAINED LTO NANOPOWDERS . 128 4.1.10. NON-LITHIATED, PARTIALLY LITHIATED AND FULLY LITHIATED LI4TI 5 0I 2 . 131 4.1.11. CONCLUDING REMARKS OF CHAPTER 4.1 . 132 4.2. EVOLUTION OF ZIRCONIA NANOPARTICLES IN UNCONFINED/OPEN FSP REACTORS . 133 4.2.1. DISPERSION GAS FLOW FIELD . 134 4.2.2. LIQUID ATOMIZATION AND DROPLET EVAPORATION . 136 4.2.3. PROCESS DYNAMICS AND TEMPERATURE . 139 4.2.4. PRECURSOR CONVERSION AND PARTICLE NUCLEATION . 142 4.2.5. EXPERIMENTAL PRIMARY AND AGGLOMERATE NANOPARTICLE DIAMETERS . 144 4.2.6. PBM SENSITIVITY ANALYSIS . 148 4.2.7. CALCULATION OF NANOPARTICLE DIAMETER EVOLUTION . 151 4.2.8. CONCLUDING REMARKS OF CHAPTER 4.2 . 154 4.3. INFLUENCE OF REACTOR ENCLOSURE AND GAS ENTRAINMENT ON FSP-MADE ZIRCONIA . 155 4.3.1. ENTRAINMENT OF OPEN FSP FOR ESTIMATING CO-FLOW AIR IN ENCLOSED FLAME SPRAYS 156 4.3.2. GAS TEMPERATURE AND MODEL REFINEMENTS . 159 4.3.3. PARTICLE SIZE, YIELD AND CRYSTALLINITY . 160 4.3.4. CONCLUDING REMARKS OF CHAPTER 4.3 . 163 4.4. DEPOSITION OF FSP-MADE ZIRCONIA PARTICLES VIA THERMOPHORESIS AND CAKE FILTRATION .164 4.4.1. TEMPERATURE AT THE THERMOPHORETIC DEPOSITION STAGE . 165 4.4.2. THERMOPHORETIC DEPOSITION OF FSP NANOPARTICLE LAYERS . 167 4.4.3. VACUUM FILTER DEPOSITION OF FSP NANOPARTICLES . 172 4.4.4. CONCLUDING REMARKS OF CHAPTER 4.4 . 177 5. SUMMARY, CONCLUSIONS AND OUTLOOK . 179 5.1. SUMMARY AND CONCLUSIONS . 179 5.2. OUTLOOK . 182 5.2.1. MULTISCALE MODEL CONCEPTS . 183 5.2.2. DEVELOPMENT OF NON-INTRUSIVE DIAGNOSTICS . 183 5.2.3. THE NEED FOR " STANDARDIZED CONDITIONS " IN FLAME SPRAY REACTORS . 184 5.2.4. CONTINUING DEMAND FOR SUSTAINABLE PRECURSOR-SOLVENT MIXTURES . 185 REFERENCES . 186 APPENDIX . 223 A SUPPORTING FIGURES AND TABLES OF CHAPTER 4.1 . 223 B SUPPORTING FIGURES AND TABLES OF CHAPTER 4.2 . 232 C SUPPORTING FIGURES OF CHAPTER 4.3 . 239 D SUPPORTING FIGURES OF CHAPTER 4.4 . 240 LIST OF PUBLICATIONS WITH CONTENT RELATED TO THIS THESIS . 243 ACKNOWLEDGEMENTS OF CONTRIBUTIONS FROM SUPERVISED STUDENTS AND COLLEAGUES . 246 DECLARATION . 248
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genre	(DE-588)4113937-9 Hochschulschrift gnd-content
genre_facet	Hochschulschrift
id	DE-604.BV048396411
illustrated	Illustrated
index_date	2024-07-03T20:21:56Z
indexdate	2024-07-10T09:37:00Z
institution	BVB
institution_GND	(DE-588)1064118135
isbn	9783844086973 3844086978
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-033775064
oclc_num	1356807000
open_access_boolean
owner	DE-83
owner_facet	DE-83
physical	XX, 248 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 407 g
publishDate	2022
publishDateSearch	2022
publishDateSort	2022
publisher	Shaker
record_format	marc
series2	Berichte aus der Verfahrenstechnik
spelling	Meierhofer, Florian Verfasser (DE-588)1241730253 aut Process design for flame-synthesized functional nanomaterials Florian Meierhofer Düren Shaker 2022 XX, 248 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 407 g txt rdacontent n rdamedia nc rdacarrier Berichte aus der Verfahrenstechnik Dissertation Universität Bremen 2022 Sprayflamme (DE-588)4387246-3 gnd rswk-swf Nanopartikel (DE-588)4333369-2 gnd rswk-swf Herstellung (DE-588)4159653-5 gnd rswk-swf Sprühpyrolyse (DE-588)4826672-3 gnd rswk-swf nanoparticles population balance model spray combustion aerosols non-intrusive laser diagnostics flame spray pyrolysis computational fluid dynamics (DE-588)4113937-9 Hochschulschrift gnd-content Nanopartikel (DE-588)4333369-2 s Herstellung (DE-588)4159653-5 s Sprayflamme (DE-588)4387246-3 s Sprühpyrolyse (DE-588)4826672-3 s DE-604 Shaker Verlag (DE-588)1064118135 pbl DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033775064&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20220630 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Meierhofer, Florian Process design for flame-synthesized functional nanomaterials Sprayflamme (DE-588)4387246-3 gnd Nanopartikel (DE-588)4333369-2 gnd Herstellung (DE-588)4159653-5 gnd Sprühpyrolyse (DE-588)4826672-3 gnd
subject_GND	(DE-588)4387246-3 (DE-588)4333369-2 (DE-588)4159653-5 (DE-588)4826672-3 (DE-588)4113937-9
title	Process design for flame-synthesized functional nanomaterials
title_auth	Process design for flame-synthesized functional nanomaterials
title_exact_search	Process design for flame-synthesized functional nanomaterials
title_exact_search_txtP	Process design for flame-synthesized functional nanomaterials
title_full	Process design for flame-synthesized functional nanomaterials Florian Meierhofer
title_fullStr	Process design for flame-synthesized functional nanomaterials Florian Meierhofer
title_full_unstemmed	Process design for flame-synthesized functional nanomaterials Florian Meierhofer
title_short	Process design for flame-synthesized functional nanomaterials
title_sort	process design for flame synthesized functional nanomaterials
topic	Sprayflamme (DE-588)4387246-3 gnd Nanopartikel (DE-588)4333369-2 gnd Herstellung (DE-588)4159653-5 gnd Sprühpyrolyse (DE-588)4826672-3 gnd
topic_facet	Sprayflamme Nanopartikel Herstellung Sprühpyrolyse Hochschulschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033775064&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT meierhoferflorian processdesignforflamesynthesizedfunctionalnanomaterials AT shakerverlag processdesignforflamesynthesizedfunctionalnanomaterials

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