Verfügbarkeit: Lithium-ion battery cells and systems under dynamic electric loads

Lithium-ion battery cells and systems under dynamic electric loads:

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Bibliographische Detailangaben
1. Verfasser:	Brand, Martin J. (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	German
Veröffentlicht:	München Herbert Utz Verlag [2018]
Schriftenreihe:	Ingenieurswissenschaften
Schlagworte:	Laständerung Elektrische Eigenschaft Parallelschaltung Alterung Lithium-Ionen-Akkumulator Stromverteilung Verbindungstechnik Zeitverhalten Kontaktwiderstand Lastganglinie Hochschulschrift
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XIV, 194 Seiten 20.5 cm x 14.5 cm
ISBN:	9783831647521 3831647526

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MARC


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Datensatz im Suchindex

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adam_text	CONTENTS 0. FRAMEWORK CONDITIONS OF PRESENT THESIS VH 0.1. JOURNAL CONTRIBUTIONS AS LEAD AUTHOR .........................................................VIII 0.2. JOURNAL CONTRIBUTIONS AS CO-AUTHOR.................................................................. VIII 0.3. SELECTION OF CONFERENCE PRESENTATIONS .............................................................. IX 1. INTRODUCTION 1 2. DYNAMIC ELECTRIC BEHAVIOR OF BATTERY CELLS 5 2.1. REAL-WORLD APPLICATIONS AND THEIR DYNAMIC ELECTRIC CHARACTERISTICS . . . 6 2.2. OVERVIEW ON PROCESSES CAUSING THE ELECTRIC DYNAMIC BEHAVIOR OF A BATTERY C E L L .................................. 8 2.3. REQUIREMENTS FOR THE CHOSEN BATTERY CELL MODEL ...................................... 9 2.4. INDUCTIVE AND OHMIC BEHAVIOR: IMPEDANCES WITH TIME CONSTANTS BELOW 10 MS ............................................................................................................... 10 2.4.1. FUNDAMENTALS OF THE OHMIC RESISTAN CE ............................................ 11 2.4.2. FUNDAMENTALS OF THE INDUCTIVE BEHAVIOR ......................................... 12 2.4.3. FUNDAMENTALS OF THE SKIN E F F E C T ...................................................... 12 2.4.4. MODELING OF THE INDUCTIVE AND OHMIC B E H A V IO R ............................ 14 2.4.5. PULSE-METHOD FOR TO ANALYZE THE INDUCTIVE AND OHMIC BEHAVIOR . 15 2.4.6. MEASUREMENT SET-UP TO TEST BATTERY CELLS WITH THE PULSE-METHOD 18 2.4.7. CHOSEN LITHIUM-ION BATTERY CELLS FOR PRACTICAL INVESTIGATIONS . . . 19 2.4.8. WIRING AND CONNECTION OF BATTERY CELLS FOR AN ACCURATE MEASURE- MENT OF THE DYNAMIC ELECTRIC BEHAVIOR ............................................ 21 2.4.9. OPERATIONAL CAPABILITY AND ROBUSTNESS OF THE PULSE-METHOD . . . 24 2.4.10. COMPARISON OF THE PULSE-METHOD WITH THE ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY ........................................................................................ 26 2.4.11. DEPENDENCIES OF THE OHMIC RESISTANCE AND THE EXTERNAL INDUCTANCE 30 2.5. ELECTRODE-ELECTROLYTE INTERFACE: IMPEDANCES WITH TIME CONSTANTS OF 0.1 MS TO 30 S ........................................................................................................ 34 2.5.1. FUNDAMENTALS OF THE SOLID ELECTROLYTE IN TE RFA C E ............................ 35 2.5.2. FUNDAMENTALS OF THE ELECTRIC DOUBLE-LAYER C A P ACITAN CE ................ 35 2.5.3. FUNDAMENTALS OF THE CHARGE TRANSFER ............................................... 37 2.5.4. MODELING OF THE PROCESSES AT THE ELECTRODE-ELECTROLYTE INTERFACE . 39 2.5.5. PARAMETRIZATION OF EQUIVALENT ELECTRIC CIRCUIT ELEMENTS REPRESENT- ING THE ELECTRODE-ELECTROLYTE IN TE RFA C E ............................................ 41 2.6. MASS TRANSPORT: IMPEDANCES WITH TIME CONSTANTS ABOVE 0.1 S ................ 44 2.6.1. FUNDAMENTALS OF THE DIFFUSION PROCESSES ......................................... 44 2.6.2. MODELING OF THE DIFFUSION PROCESSES WITH WARBURG IMPEDANCES . 45 2.6.3. PARAMETRIZATION OF THE DIFFUSION MODEL*S E LE M E N TS ...................... 46 2.7. EQUILIBRIUM V O LTA G E ......................................................................................... 50 2.7.1. EXPLANATION OF THE ELECTROCHEMICAL ORIGIN OF THE EQUILIBRIUM VOLTAGE 50 2.7.2. MODELING AND PARAMETRIZATION OF THE EQUILIBRIUM VOLTAGE .... 53 2.8. OVERVIEW ON AND VALIDATION OF THE CHOSEN BATTERY CELL M O D E L ................ 55 3. LIFETIME OF LITHIUM-ION BATTERY CELLS DEPENDING ON THE DYNAMICS OF ELECTRIC LOADS 61 3.1. HYPOTHESIS ON THE DEGRADATION PHENOMENA DERIVED FROM PUBLISHED RESEARCH 62 3.2. INVESTIGATION OF THE CORNER FR E Q U E N C Y ......................................................... 63 3.3. MEASUREMENT M A T R I X ...................................................................................... 66 3.4. SET-UP FOR THE EXPERIMENTAL S E R IE S ............................................................... 69 3.5. EXPERIMENTAL RESULTS AND EVALUATION OF THE AGING BEHAVIOR ................... 71 3.5.1. INCREASE OF IM P ED AN CES...................................................................... 74 3.5.2. CAPACITY F A D E ..................................................................................... 77 3.6. COMPARISON OF THE RESULTS TO OTHER SERIES OF EXPERIM ENTS ......................... 79 4. CELL JOINING TECHNIQUES FOR BATTERY CELLS AND THEIR ELECTRICAL CONNECTION RESISTANCES 83 4.1. MEASURING AND CALCULATION METHOD FOR THE ELECTRICAL CONTACT RESISTANCE . 84 4.2. REVERSIBLE ELECTRICAL CONNECTION OF BATTERY CELLS BY PRESS CONTACTS .... 86 4.2.1. FUNDAMENTALS ON THE ELECTRICAL CONNECTION OF PRESS CONTACTS . . . 88 4.2.2. TEST BENCH TO MEASURE THE ELECTRICAL CONTACT RESISTANCES OF PRESS C ONN ECTIO N S ........................................................................................ 90 4.2.3. MEASUREMENT MATRIX TO INVESTIGATE DEPENDENCIES OF PRESS CONTACTS 91 4.2.4. INFLUENCE OF CONTACT PRESSURE ON ELECTRICAL CONTACT RESISTANCE . . 94 4.2.5. INFLUENCE OF SURFACE ROUGHNESS ON ELECTRICAL CONTACT RESISTANCE . . 96 4.2.6. SUITABILITY OF PRESS CONTACTS FOR BATTERY ASSEM BLIES ...................... 98 4.3. RESISTANCE SPOT WELDING FOR CONNECTING BATTERY C E LL S ................................ 98 4.3.1. FUNCTIONAL PRINCIPLE OF RESISTANCE SPOT W ELD IN G ............................... 99 4.3.2. INFLUENCE OF THE WELDING ENERGY ON THE CONNECTION QUALITY .... 100 4.3.3. SUITABILITY OF RESISTANCE SPOT WELDING FOR CONNECTING BATTERY CELLS 101 4.4. ULTRASONIC WELDING FOR CONNECTING BATTERY CE LLS .............................................102 4.4.1. INFLUENCE OF SONOTRODE PRESSURE ON WELD QUALITY ......................... 104 4.4.2. SUITABILITY OF ULTRASONIC WELDING FOR CONNECTING BATTERY CELLS . . 105 4.5. LASER WELDING FOR CONNECTING BATTERY CELLS ..................................................... 106 4.5.1. ADVANTAGES OF SUPERIMPOSED BEAM OSCILLATION .................................106 4.5.2. SUITABILITY OF LASER BEAM WELDING FOR CONNECTING BATTERY CELLS . . 107 4.6. ELECTRICAL RESISTANCES OF SOLDERED BATTERY CELL C O N N E C TIO N S.........................108 4.6.1. FUNDAMENTALS AND FUNCTIONAL PRINCIPLE OF SOLDERING ................... 108 4.6.2. CONSIDERATIONS ON AND MODELING OF THE CURRENT PATHS IN SOLDERED C ONNECTIONS........................................................................................... 110 4.6.3. INFLUENCE OF ELECTRICAL CONDUCTIVITY OF JOINT METALS ON THE ELECTRICAL CONNECTION RE SISTA N C E ........................................................................... 115 4.6.4. SOLDERS WITH DIFFERENT LIQUIDUS TEM PERATURES AND THEIR INFLUENCE ON THE CONNECTION QUALITY ..................................................................116 4.7. COMPARISON OF THE FIVE CONNECTION TECHNIQUES...........................................117 4.7.1. COMPARISON OF THE HEAT INPUT CAUSED BY JOINING PROCESSES .... 117 4.7.2. COMPARISON OF JOINING TECHNIQUES IN TERMS OF THE ELECTRICAL CON NECTION RESISTAN CE..................................................................................121 4.7.3. COMPARISON OF JOINING TECHNIQUES IN TERMS OF TENSILE STRENGTH . . 124 5. CURRENT DISTRIBUTION WITHIN PARALLEL-CONNECTED BATTERY CELLS 127 5.1. PARALLEL-CONNECTED BATTERY CELLS IN COMMERCIAL P RO D U C TS ......................... 128 5.2. PUBLICATIONS ON THE CURRENT DISTRIBUTION OF BATTERY CELLS IN PARALLEL . . . 129 5.3. GOAL AND SCOPE OF THIS C H A P TE R........................................................................ 131 5.4. PRECISE MEASUREMENT SET-UP WITH LOW ADDITIONAL IM P E D A N C E S .................. 133 5.4.1. DESIGN OF THE TEST BENCH IN PRINCIPLE ...............................................133 5.4.2. SENSORS CHOSEN FOR THE TEST B E N C H ..................................................... 134 5.4.3. WIRING AND TERMINALS OF BATTERY CELLS FOR INSERTION IN TEST BENCH 136 5.4.4. ACQUISITION AND PROCESSING OF SENSOR D A T A ........................................ 137 5.5. EVALUATION OF THE INFLUENCE OF THE MEASUREMENT SE T-U P ............................ 138 5.6. THEORETICAL CONSIDERATIONS ABOUT THE FUNDAMENTALS OF CURRENT DISTRIBUTIONSL41 5.6.1. CONSIDERATIONS ABOUT PARALLEL BATTERY CELLS WITH DIFFERING IMPEDANCESL43 5.6.2. CONSIDERATIONS ABOUT PARALLEL BATTERY CELLS WITH DIFFERING CAPACITIESL45 5.7. MEASURED AND SIMULATED CURRENT DISTRIBUTIONS OF DIFFERENT PAIRS OF BATTERY C E L L S .................................................................................................................... 147 5.7.1. SELECTION OF BATTERY CELLS FOR PRACTICAL EXPERIM ENTS............................147 5.7.2. CURRENT DISTRIBUTION OF PARALLEL BATTERY CELLS WITH DIFFERING IMPEDANCES 150 5.7.3. CURRENT DISTRIBUTION OF PARALLEL BATTERY CELLS WITH DIFFERING CAPAEITIESL54 5.8. LESSONS LEARNED AND ADVICE FOR CONNECTING BATTERY CELLS IN PARALLEL . . . 158 6. SUMMARY AND OUTLOOK 159 A. APPENDIX 163 A .L. WIRING AND CONNECTION OF ICR18650HB2 BATTERY CELL BY THE LG CHEM. L TD.........................................................................................................................163 A.2. ROBUSTNESS OF PULSE-METHOD CHECKED WITH FURTHER BATTERY C E L L S .............164 A.2.1. AGED IHR18650A LITHIUM-ION BATTERY CELLS BY E-ONE MOLI ENERGY CORP..........................................................................................................164 A.2.2. ICR18650HB2 LITHIUM-ION BATTERY CELLS BY LG CHEM. LTD. . . . 164 A.2.3. SPB463048 LITHIUM-ION BATTERY CELL BY ENERTECH INTERNATIONAL INC.167 A.3. THE CONFIDENCE IN TE RV A L.................................................................... 168 A.4. THE GAUSSIAN FILTER FOR DISCRETE S I G N A LS ......................................................169 A.5. FIRST AND SECOND DERIVATIVES OF THE REAL PART OF THE IMPEDANCE SPECTRUM 171 A.6. PAIRING CHECK FOR CHOSEN RESISTANCE P A RA M E TE RS ......................................... 172 A.7. INCREASE OF CHARGE TRANSFER AND DIRECT CURRENT (DC) RESISTANCES FOR DIF FERENT DYNAMIC LO A D S ......................................................................................... 174 A.8. RELATIVE CAPACITY OF PAIRS OF ICR18650HB2 BATTERY CELLS ........................... 176 REFERENCES 177
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author	Brand, Martin J.
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ctrlnum	(OCoLC)1066035838 (DE-599)DNB1170988946
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format	Thesis Book
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genre	(DE-588)4113937-9 Hochschulschrift gnd-content
genre_facet	Hochschulschrift
id	DE-604.BV045353698
illustrated	Not Illustrated
indexdate	2024-07-10T08:15:47Z
institution	BVB
institution_GND	(DE-588)1065500602
isbn	9783831647521 3831647526
language	German
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-030740326
oclc_num	1066035838
open_access_boolean
owner	DE-91 DE-BY-TUM DE-12 DE-83 DE-573
owner_facet	DE-91 DE-BY-TUM DE-12 DE-83 DE-573
physical	XIV, 194 Seiten 20.5 cm x 14.5 cm
publishDate	2018
publishDateSearch	2018
publishDateSort	2018
publisher	Herbert Utz Verlag
record_format	marc
series2	Ingenieurswissenschaften
spelling	Brand, Martin J. Verfasser (DE-588)1174002638 aut Lithium-ion battery cells and systems under dynamic electric loads Martin J. Brand München Herbert Utz Verlag [2018] © 2018 XIV, 194 Seiten 20.5 cm x 14.5 cm txt rdacontent n rdamedia nc rdacarrier Ingenieurswissenschaften Dissertation Technische Universität München 2018 Laständerung (DE-588)4129938-3 gnd rswk-swf Elektrische Eigenschaft (DE-588)4193812-4 gnd rswk-swf Parallelschaltung (DE-588)4398669-9 gnd rswk-swf Alterung (DE-588)4142063-9 gnd rswk-swf Lithium-Ionen-Akkumulator (DE-588)7681721-0 gnd rswk-swf Stromverteilung (DE-588)4183760-5 gnd rswk-swf Verbindungstechnik (DE-588)4129183-9 gnd rswk-swf Zeitverhalten (DE-588)4238464-3 gnd rswk-swf Kontaktwiderstand (DE-588)4165144-3 gnd rswk-swf Lastganglinie (DE-588)4328972-1 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Lithium-Ionen-Akkumulator (DE-588)7681721-0 s Elektrische Eigenschaft (DE-588)4193812-4 s Laständerung (DE-588)4129938-3 s Lastganglinie (DE-588)4328972-1 s Stromverteilung (DE-588)4183760-5 s Parallelschaltung (DE-588)4398669-9 s Alterung (DE-588)4142063-9 s Zeitverhalten (DE-588)4238464-3 s Verbindungstechnik (DE-588)4129183-9 s Kontaktwiderstand (DE-588)4165144-3 s DE-604 Herbert Utz Verlag (DE-588)1065500602 pbl X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=92349e5359704226be882beb12c04b78&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030740326&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Brand, Martin J. Lithium-ion battery cells and systems under dynamic electric loads Laständerung (DE-588)4129938-3 gnd Elektrische Eigenschaft (DE-588)4193812-4 gnd Parallelschaltung (DE-588)4398669-9 gnd Alterung (DE-588)4142063-9 gnd Lithium-Ionen-Akkumulator (DE-588)7681721-0 gnd Stromverteilung (DE-588)4183760-5 gnd Verbindungstechnik (DE-588)4129183-9 gnd Zeitverhalten (DE-588)4238464-3 gnd Kontaktwiderstand (DE-588)4165144-3 gnd Lastganglinie (DE-588)4328972-1 gnd
subject_GND	(DE-588)4129938-3 (DE-588)4193812-4 (DE-588)4398669-9 (DE-588)4142063-9 (DE-588)7681721-0 (DE-588)4183760-5 (DE-588)4129183-9 (DE-588)4238464-3 (DE-588)4165144-3 (DE-588)4328972-1 (DE-588)4113937-9
title	Lithium-ion battery cells and systems under dynamic electric loads
title_auth	Lithium-ion battery cells and systems under dynamic electric loads
title_exact_search	Lithium-ion battery cells and systems under dynamic electric loads
title_full	Lithium-ion battery cells and systems under dynamic electric loads Martin J. Brand
title_fullStr	Lithium-ion battery cells and systems under dynamic electric loads Martin J. Brand
title_full_unstemmed	Lithium-ion battery cells and systems under dynamic electric loads Martin J. Brand
title_short	Lithium-ion battery cells and systems under dynamic electric loads
title_sort	lithium ion battery cells and systems under dynamic electric loads
topic	Laständerung (DE-588)4129938-3 gnd Elektrische Eigenschaft (DE-588)4193812-4 gnd Parallelschaltung (DE-588)4398669-9 gnd Alterung (DE-588)4142063-9 gnd Lithium-Ionen-Akkumulator (DE-588)7681721-0 gnd Stromverteilung (DE-588)4183760-5 gnd Verbindungstechnik (DE-588)4129183-9 gnd Zeitverhalten (DE-588)4238464-3 gnd Kontaktwiderstand (DE-588)4165144-3 gnd Lastganglinie (DE-588)4328972-1 gnd
topic_facet	Laständerung Elektrische Eigenschaft Parallelschaltung Alterung Lithium-Ionen-Akkumulator Stromverteilung Verbindungstechnik Zeitverhalten Kontaktwiderstand Lastganglinie Hochschulschrift
url	http://deposit.dnb.de/cgi-bin/dokserv?id=92349e5359704226be882beb12c04b78&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030740326&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT brandmartinj lithiumionbatterycellsandsystemsunderdynamicelectricloads AT herbertutzverlag lithiumionbatterycellsandsystemsunderdynamicelectricloads

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