LIFETIME PREDICTION ON LITHIUM-ION BATTERY CELL AND SYSTEM LEVEL:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
[S.l.] :
CUVILLIER VERLAG,
2022.
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Beschreibung: | 1 online resource |
| ISBN: | 3736966296 9783736966291 |
Internformat
MARC
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| 100 | 1 | |a HAHN, SEVERIN LUKAS. | |
| 245 | 1 | 0 | |a LIFETIME PREDICTION ON LITHIUM-ION BATTERY CELL AND SYSTEM LEVEL |h [electronic resource]. |
| 260 | |a [S.l.] : |b CUVILLIER VERLAG, |c 2022. | ||
| 300 | |a 1 online resource | ||
| 505 | 0 | |a Intro -- Table of Contents -- List of abbreviations -- German Abstract: Zusammenfassung -- Abstract -- Chapter 1 Introduction -- 1.1 Motivation and goals of the thesis -- 1.2 Contributions and structure of the thesis -- Chapter 2 Theoretical Foundation -- 2.1 Lithium-ion history and fundamentals -- 2.2 Cell construction and format considerations -- 2.3 Competing cell formats -- 2.4 Changing electrochemical environments -- 2.5 Non-destructive aging analysis -- 2.6 Post-mortem analysis -- Chapter 3 Experimental methods -- 3.1 Investigated cells -- 3.2 Cycling procedures -- 3.3 Reference parameter tests during aging -- 3.4 Cyclic aging experiments -- 3.5 Calendar aging experiments -- 3.6 Battery scale testing -- 3.7 Electrode harvesting -- 3.8 Homogeneity measurements -- 3.9 Gas measurements -- 3.10 Half and full-cell measurements -- 3.11 Inductive coupled plasma -- optical emissionspectroscopy -- 3.12 Scanning electrode microscopy -- Chapter 4 Study on Calendaric Aging Models -- 4.1 Chapter summary -- 4.2 Introduction and insights from literature -- 4.3 Extended calendar aging model development -- 4.4 Quantitative validation technique -- 4.5 Calendar aging matrix -- 4.6 Accelerated aging matrix results -- 4.7 Aging models -- 4.8 Validation results and detection of overfitting models -- 4.9 Extended model results -- 4.10 Quantitative comparison of aging models -- 4.11 Discussion -- Chapter 5 Actively-controlled pneumatic press -- 5.1 Chapter summary -- 5.2 Introduction and insights from literature -- 5.3 Cell press design -- 5.4 Cell press operation modes -- 5.5 Validation results -- 5.6 Homogeneity validation -- 5.7 Requirement assessment -- 5.8 Discussion -- Chapter 6 Pressure Prediction Modeling -- 6.1 Chapter summary -- 6.2 Introduction and insights from literature -- 6.3 Investigated battery system -- 6.4 Mechanical characterizations. | |
| 505 | 8 | |a 6.5 Electrical characterization overview -- 6.6 Electromechanical characterizations -- 6.7 Post-mortem analysis -- 6.8 Review of cell growth mechanisms -- 6.9 Model development -- 6.10 Modeling Results -- 6.11 Discussion -- Chapter 7 Conclusion -- 7.1 Summary -- 7.2 Perspective -- 7.3 Outlook -- Appendix A -- Appendix B -- Appendix C -- Appendix D -- References -- Curriculum vitae -- List of Figures -- List of Tables. | |
| 650 | 0 | |a Technological innovations. |0 http://id.loc.gov/authorities/subjects/sh85133143 | |
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Datensatz im Suchindex
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| author | HAHN, SEVERIN LUKAS |
| author_facet | HAHN, SEVERIN LUKAS |
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| contents | Intro -- Table of Contents -- List of abbreviations -- German Abstract: Zusammenfassung -- Abstract -- Chapter 1 Introduction -- 1.1 Motivation and goals of the thesis -- 1.2 Contributions and structure of the thesis -- Chapter 2 Theoretical Foundation -- 2.1 Lithium-ion history and fundamentals -- 2.2 Cell construction and format considerations -- 2.3 Competing cell formats -- 2.4 Changing electrochemical environments -- 2.5 Non-destructive aging analysis -- 2.6 Post-mortem analysis -- Chapter 3 Experimental methods -- 3.1 Investigated cells -- 3.2 Cycling procedures -- 3.3 Reference parameter tests during aging -- 3.4 Cyclic aging experiments -- 3.5 Calendar aging experiments -- 3.6 Battery scale testing -- 3.7 Electrode harvesting -- 3.8 Homogeneity measurements -- 3.9 Gas measurements -- 3.10 Half and full-cell measurements -- 3.11 Inductive coupled plasma -- optical emissionspectroscopy -- 3.12 Scanning electrode microscopy -- Chapter 4 Study on Calendaric Aging Models -- 4.1 Chapter summary -- 4.2 Introduction and insights from literature -- 4.3 Extended calendar aging model development -- 4.4 Quantitative validation technique -- 4.5 Calendar aging matrix -- 4.6 Accelerated aging matrix results -- 4.7 Aging models -- 4.8 Validation results and detection of overfitting models -- 4.9 Extended model results -- 4.10 Quantitative comparison of aging models -- 4.11 Discussion -- Chapter 5 Actively-controlled pneumatic press -- 5.1 Chapter summary -- 5.2 Introduction and insights from literature -- 5.3 Cell press design -- 5.4 Cell press operation modes -- 5.5 Validation results -- 5.6 Homogeneity validation -- 5.7 Requirement assessment -- 5.8 Discussion -- Chapter 6 Pressure Prediction Modeling -- 6.1 Chapter summary -- 6.2 Introduction and insights from literature -- 6.3 Investigated battery system -- 6.4 Mechanical characterizations. 6.5 Electrical characterization overview -- 6.6 Electromechanical characterizations -- 6.7 Post-mortem analysis -- 6.8 Review of cell growth mechanisms -- 6.9 Model development -- 6.10 Modeling Results -- 6.11 Discussion -- Chapter 7 Conclusion -- 7.1 Summary -- 7.2 Perspective -- 7.3 Outlook -- Appendix A -- Appendix B -- Appendix C -- Appendix D -- References -- Curriculum vitae -- List of Figures -- List of Tables. |
| ctrlnum | (OCoLC)1342490061 |
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| dewey-ones | 540 - Chemistry and allied sciences |
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| dewey-search | 540 |
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| dewey-tens | 540 - Chemistry and allied sciences |
| discipline | Chemie / Pharmazie |
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| id | ZDB-4-EBA-on1342490061 |
| illustrated | Not Illustrated |
| indexdate | 2024-11-27T13:30:37Z |
| institution | BVB |
| isbn | 3736966296 9783736966291 |
| language | English |
| oclc_num | 1342490061 |
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| spelling | HAHN, SEVERIN LUKAS. LIFETIME PREDICTION ON LITHIUM-ION BATTERY CELL AND SYSTEM LEVEL [electronic resource]. [S.l.] : CUVILLIER VERLAG, 2022. 1 online resource Intro -- Table of Contents -- List of abbreviations -- German Abstract: Zusammenfassung -- Abstract -- Chapter 1 Introduction -- 1.1 Motivation and goals of the thesis -- 1.2 Contributions and structure of the thesis -- Chapter 2 Theoretical Foundation -- 2.1 Lithium-ion history and fundamentals -- 2.2 Cell construction and format considerations -- 2.3 Competing cell formats -- 2.4 Changing electrochemical environments -- 2.5 Non-destructive aging analysis -- 2.6 Post-mortem analysis -- Chapter 3 Experimental methods -- 3.1 Investigated cells -- 3.2 Cycling procedures -- 3.3 Reference parameter tests during aging -- 3.4 Cyclic aging experiments -- 3.5 Calendar aging experiments -- 3.6 Battery scale testing -- 3.7 Electrode harvesting -- 3.8 Homogeneity measurements -- 3.9 Gas measurements -- 3.10 Half and full-cell measurements -- 3.11 Inductive coupled plasma -- optical emissionspectroscopy -- 3.12 Scanning electrode microscopy -- Chapter 4 Study on Calendaric Aging Models -- 4.1 Chapter summary -- 4.2 Introduction and insights from literature -- 4.3 Extended calendar aging model development -- 4.4 Quantitative validation technique -- 4.5 Calendar aging matrix -- 4.6 Accelerated aging matrix results -- 4.7 Aging models -- 4.8 Validation results and detection of overfitting models -- 4.9 Extended model results -- 4.10 Quantitative comparison of aging models -- 4.11 Discussion -- Chapter 5 Actively-controlled pneumatic press -- 5.1 Chapter summary -- 5.2 Introduction and insights from literature -- 5.3 Cell press design -- 5.4 Cell press operation modes -- 5.5 Validation results -- 5.6 Homogeneity validation -- 5.7 Requirement assessment -- 5.8 Discussion -- Chapter 6 Pressure Prediction Modeling -- 6.1 Chapter summary -- 6.2 Introduction and insights from literature -- 6.3 Investigated battery system -- 6.4 Mechanical characterizations. 6.5 Electrical characterization overview -- 6.6 Electromechanical characterizations -- 6.7 Post-mortem analysis -- 6.8 Review of cell growth mechanisms -- 6.9 Model development -- 6.10 Modeling Results -- 6.11 Discussion -- Chapter 7 Conclusion -- 7.1 Summary -- 7.2 Perspective -- 7.3 Outlook -- Appendix A -- Appendix B -- Appendix C -- Appendix D -- References -- Curriculum vitae -- List of Figures -- List of Tables. Technological innovations. http://id.loc.gov/authorities/subjects/sh85133143 Innovations. Technological innovations fast FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3367543 Volltext |
| spellingShingle | HAHN, SEVERIN LUKAS LIFETIME PREDICTION ON LITHIUM-ION BATTERY CELL AND SYSTEM LEVEL Intro -- Table of Contents -- List of abbreviations -- German Abstract: Zusammenfassung -- Abstract -- Chapter 1 Introduction -- 1.1 Motivation and goals of the thesis -- 1.2 Contributions and structure of the thesis -- Chapter 2 Theoretical Foundation -- 2.1 Lithium-ion history and fundamentals -- 2.2 Cell construction and format considerations -- 2.3 Competing cell formats -- 2.4 Changing electrochemical environments -- 2.5 Non-destructive aging analysis -- 2.6 Post-mortem analysis -- Chapter 3 Experimental methods -- 3.1 Investigated cells -- 3.2 Cycling procedures -- 3.3 Reference parameter tests during aging -- 3.4 Cyclic aging experiments -- 3.5 Calendar aging experiments -- 3.6 Battery scale testing -- 3.7 Electrode harvesting -- 3.8 Homogeneity measurements -- 3.9 Gas measurements -- 3.10 Half and full-cell measurements -- 3.11 Inductive coupled plasma -- optical emissionspectroscopy -- 3.12 Scanning electrode microscopy -- Chapter 4 Study on Calendaric Aging Models -- 4.1 Chapter summary -- 4.2 Introduction and insights from literature -- 4.3 Extended calendar aging model development -- 4.4 Quantitative validation technique -- 4.5 Calendar aging matrix -- 4.6 Accelerated aging matrix results -- 4.7 Aging models -- 4.8 Validation results and detection of overfitting models -- 4.9 Extended model results -- 4.10 Quantitative comparison of aging models -- 4.11 Discussion -- Chapter 5 Actively-controlled pneumatic press -- 5.1 Chapter summary -- 5.2 Introduction and insights from literature -- 5.3 Cell press design -- 5.4 Cell press operation modes -- 5.5 Validation results -- 5.6 Homogeneity validation -- 5.7 Requirement assessment -- 5.8 Discussion -- Chapter 6 Pressure Prediction Modeling -- 6.1 Chapter summary -- 6.2 Introduction and insights from literature -- 6.3 Investigated battery system -- 6.4 Mechanical characterizations. 6.5 Electrical characterization overview -- 6.6 Electromechanical characterizations -- 6.7 Post-mortem analysis -- 6.8 Review of cell growth mechanisms -- 6.9 Model development -- 6.10 Modeling Results -- 6.11 Discussion -- Chapter 7 Conclusion -- 7.1 Summary -- 7.2 Perspective -- 7.3 Outlook -- Appendix A -- Appendix B -- Appendix C -- Appendix D -- References -- Curriculum vitae -- List of Figures -- List of Tables. Technological innovations. http://id.loc.gov/authorities/subjects/sh85133143 Innovations. Technological innovations fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh85133143 |
| title | LIFETIME PREDICTION ON LITHIUM-ION BATTERY CELL AND SYSTEM LEVEL |
| title_auth | LIFETIME PREDICTION ON LITHIUM-ION BATTERY CELL AND SYSTEM LEVEL |
| title_exact_search | LIFETIME PREDICTION ON LITHIUM-ION BATTERY CELL AND SYSTEM LEVEL |
| title_full | LIFETIME PREDICTION ON LITHIUM-ION BATTERY CELL AND SYSTEM LEVEL [electronic resource]. |
| title_fullStr | LIFETIME PREDICTION ON LITHIUM-ION BATTERY CELL AND SYSTEM LEVEL [electronic resource]. |
| title_full_unstemmed | LIFETIME PREDICTION ON LITHIUM-ION BATTERY CELL AND SYSTEM LEVEL [electronic resource]. |
| title_short | LIFETIME PREDICTION ON LITHIUM-ION BATTERY CELL AND SYSTEM LEVEL |
| title_sort | lifetime prediction on lithium ion battery cell and system level |
| topic | Technological innovations. http://id.loc.gov/authorities/subjects/sh85133143 Innovations. Technological innovations fast |
| topic_facet | Technological innovations. Innovations. Technological innovations |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3367543 |
| work_keys_str_mv | AT hahnseverinlukas lifetimepredictiononlithiumionbatterycellandsystemlevel |