Design and analysis of large lithium-Ion battery systems /:
This new resource provides you with an introduction to battery design and test considerations for large-scale automotive, aerospace, and grid applications. It details the logistics of designing a professional, large, Lithium-ion battery pack, primarily for the automotive industry, but also for non-a...
Gespeichert in:
| Hauptverfasser: | , , , , , |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Boston :
Artech House,
2015.
|
| Schriftenreihe: | Artech House power engineering series.
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Zusammenfassung: | This new resource provides you with an introduction to battery design and test considerations for large-scale automotive, aerospace, and grid applications. It details the logistics of designing a professional, large, Lithium-ion battery pack, primarily for the automotive industry, but also for non-automotive applications. Topics such as thermal management for such high-energy and high-power units are covered extensively, including detailed design examples. Every aspect of battery design and analysis is presented from a hands-on perspective. The authors work extensively with engineers in the fie. |
| Beschreibung: | 5.2.2 Effectiveness of Protective Device in Multicell Packs. |
| Beschreibung: | 1 online resource (241 pages) |
| Bibliographie: | Includes bibliographical references and index. |
| ISBN: | 9781608077144 1608077144 9781523117055 1523117052 |
Internformat
MARC
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| 100 | 1 | |a Santhanagopalan, Shriram, |e author. | |
| 245 | 1 | 0 | |a Design and analysis of large lithium-Ion battery systems / |c Shriram Santhanagopalan, Kandler Smith, Jeremy Neubauer, Gi-Heon Kim, Matthew Keyser, Ahmad Pesaran. |
| 260 | |a Boston : |b Artech House, |c 2015. | ||
| 300 | |a 1 online resource (241 pages) | ||
| 336 | |a text |b txt |2 rdacontent | ||
| 337 | |a computer |b c |2 rdamedia | ||
| 338 | |a online resource |b cr |2 rdacarrier | ||
| 490 | 1 | |a Power engineering | |
| 588 | 0 | |a Print version record. | |
| 505 | 0 | |a Preface; Chapter 1 Types of Batteries; 1.1 Lead Acid Batteries; 1.2 Nickel-Based Batteries; 1.3 Sodium Beta Batteries; 1.3.1 Sodium Sulfur Batteries; 1.3.2 Metal Chloride Batteries; 1.3.3 Challenges and Future Work; 1.4 Flow Batteries; 1.4.1 Redox Flow Batteries; 1.4.2 Hybrid-Flow Batteries; 1.4.3 Challenges and Future Work; 1.5 Li-Ion Batteries; 1.5.1 Lithium-Ion Cathodes; 1.5.2 Lithium-Ion Anodes; 1.5.3 Li-Ion Electrolytes; 1.5.4 Li-Ion Challenges and Future Work; 1.6 Lithium-Sulfur Batteries; 1.6.1 Lithium-Sulfur Cathodes; 1.6.2 Lithium-Sulfur Anode. | |
| 505 | 8 | |a 1.6.3 Challenges and Future Work1.7 Metal-Air Batteries; 1.7.1 Zinc-Air Batteries; 1.7.2 Lithium-Air Batteries; 1.7.3 Challenges and Future Work; 1.8 Emerging Chemistries; 1.8.1 Sodium-Ion Batteries; 1.8.2 Liquid Metal; Chapter 2 Electrical Performance; 2.1 Thermodynamics Inside a Battery; 2.2 Assembling a Li-Ion Cell; 2.3 Voltage Dynamics during Charge/Discharge; 2.4 Circuit Diagram for a Cell; 2.5 Electrochemical Models for Cell Design; 2.5.1 Charge Transport within the Electrode by Electrons; 2.5.2 Charge Transport in the Electrolyte by Ions. | |
| 505 | 8 | |a 2.5.3 Charge Transfer between the Electrodes and the Electrolyte2.5.4 Distribution of Ions; 2.6 Electrical Characterization of Li-Io Batteries; 2.6.1 Capacity Measurement; 2.6.2 Power Measurement; 2.6.3 Component Characterization; References; Chapter 3 Thermal Behavior; 3.1 Heat Generation in a Battery; 3.1.1 Heat Generation from Joule Heating; 3.1.2 Heat Generation from Electrode Reactions; 3.1.3 Entropic Heat Generation; 3.2 Experimental Measurement of Thermal Parameters; 3.2.1 Isothermal Battery Calorimeters; 3.2.2 Basic IBC Operation; 3.2.3 Typical Applications for an IBC. | |
| 505 | 8 | |a 3.3 Differential Scanning Calorimeters3.3.1 Differential Scanning Calorimeters and Batteries; 3.4 Infrared Imaging; 3.4.1 Origin of Thermal Energy; 3.4.2 Calibration and Error; 3.4.3 Imaging Battery Systems; 3.5 Desired Attributes of a Thermal Management System; 3.5.1 Designing a Battery Thermal Management System; 3.5.2 Optimization; 3.6 Conclusions; References; Chapter 4 Battery Life; 4.1 Overview; 4.1.1 Physics; 4.1.2 Calendar Life Versus Cycle Life; 4.1.3 Regions of Performance Fade; 4.1.4 End of Life; 4.1.5 Extending Cell Life Prediction to Pack Level. | |
| 505 | 8 | |a 4.1.6 Fade Mechanisms in Electrochemical Cells4.1.7 Common Degradation Mechanisms in Li-Ion Cells; 4.2 Modeling ; 4.2.1 Physics-Based; 4.2.2 Semiempirical Models; 4.3 Testing ; 4.3.1 Screening/Benchmarking Tests; 4.3.2 Design of Experiments; 4.3.3 RPTs; 4.3.4 Other Diagnostic Tests; References; Chapter 5 Battery Safety; 5.1 Safety Concerns in Li-Ion Batteries; 5.1.1 Electrical Failure; 5.1.2 Thermal Failure; 5.1.3 Electrochemical Failure; 5.1.4 Mechanical Failure; 5.1.5 Chemical Failure; 5.2 Modeling Insights on Li-Ion Battery Safety; 5.2.1 Challenges with Localized Failure. | |
| 500 | |a 5.2.2 Effectiveness of Protective Device in Multicell Packs. | ||
| 520 | |a This new resource provides you with an introduction to battery design and test considerations for large-scale automotive, aerospace, and grid applications. It details the logistics of designing a professional, large, Lithium-ion battery pack, primarily for the automotive industry, but also for non-automotive applications. Topics such as thermal management for such high-energy and high-power units are covered extensively, including detailed design examples. Every aspect of battery design and analysis is presented from a hands-on perspective. The authors work extensively with engineers in the fie. | ||
| 504 | |a Includes bibliographical references and index. | ||
| 650 | 0 | |a Lithium ion batteries. |0 http://id.loc.gov/authorities/subjects/sh2011000687 | |
| 650 | 0 | |a Storage batteries |x Design and construction. | |
| 650 | 6 | |a Batteries au lithium-ion. | |
| 650 | 7 | |a TECHNOLOGY & ENGINEERING |x Mechanical. |2 bisacsh | |
| 650 | 7 | |a Lithium ion batteries |2 fast | |
| 655 | 4 | |a Electronic book. | |
| 700 | 1 | |a Kim, Gi-Heon, |e author. | |
| 700 | 1 | |a Keyers, Matthew, |e author. | |
| 700 | 1 | |a Pesaran, Ahmad A., |e author. |0 http://id.loc.gov/authorities/names/n93010859 | |
| 700 | 1 | |a Smith, Kandler, |e author. | |
| 700 | 1 | |a Neubauer, Jeremy, |e author. | |
| 776 | 0 | 8 | |i Print version: |a Santhanagopalan, Shriram. |t Design and Analysis of Large Lithium-Ion Battery Systems. |d Norwood : Artech House, ©2014 |z 9781608077137 |
| 830 | 0 | |a Artech House power engineering series. |0 http://id.loc.gov/authorities/names/no2013082523 | |
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Datensatz im Suchindex
| DE-BY-FWS_katkey | ZDB-4-EBA-ocn949846975 |
|---|---|
| _version_ | 1816882349201162240 |
| adam_text | |
| any_adam_object | |
| author | Santhanagopalan, Shriram Kim, Gi-Heon Keyers, Matthew Pesaran, Ahmad A. Smith, Kandler Neubauer, Jeremy |
| author_GND | http://id.loc.gov/authorities/names/n93010859 |
| author_facet | Santhanagopalan, Shriram Kim, Gi-Heon Keyers, Matthew Pesaran, Ahmad A. Smith, Kandler Neubauer, Jeremy |
| author_role | aut aut aut aut aut aut |
| author_sort | Santhanagopalan, Shriram |
| author_variant | s s ss g h k ghk m k mk a a p aa aap k s ks j n jn |
| building | Verbundindex |
| bvnumber | localFWS |
| callnumber-first | T - Technology |
| callnumber-label | TK2945 |
| callnumber-raw | TK2945.L58 S36 2015 |
| callnumber-search | TK2945.L58 S36 2015 |
| callnumber-sort | TK 42945 L58 S36 42015 |
| callnumber-subject | TK - Electrical and Nuclear Engineering |
| collection | ZDB-4-EBA |
| contents | Preface; Chapter 1 Types of Batteries; 1.1 Lead Acid Batteries; 1.2 Nickel-Based Batteries; 1.3 Sodium Beta Batteries; 1.3.1 Sodium Sulfur Batteries; 1.3.2 Metal Chloride Batteries; 1.3.3 Challenges and Future Work; 1.4 Flow Batteries; 1.4.1 Redox Flow Batteries; 1.4.2 Hybrid-Flow Batteries; 1.4.3 Challenges and Future Work; 1.5 Li-Ion Batteries; 1.5.1 Lithium-Ion Cathodes; 1.5.2 Lithium-Ion Anodes; 1.5.3 Li-Ion Electrolytes; 1.5.4 Li-Ion Challenges and Future Work; 1.6 Lithium-Sulfur Batteries; 1.6.1 Lithium-Sulfur Cathodes; 1.6.2 Lithium-Sulfur Anode. 1.6.3 Challenges and Future Work1.7 Metal-Air Batteries; 1.7.1 Zinc-Air Batteries; 1.7.2 Lithium-Air Batteries; 1.7.3 Challenges and Future Work; 1.8 Emerging Chemistries; 1.8.1 Sodium-Ion Batteries; 1.8.2 Liquid Metal; Chapter 2 Electrical Performance; 2.1 Thermodynamics Inside a Battery; 2.2 Assembling a Li-Ion Cell; 2.3 Voltage Dynamics during Charge/Discharge; 2.4 Circuit Diagram for a Cell; 2.5 Electrochemical Models for Cell Design; 2.5.1 Charge Transport within the Electrode by Electrons; 2.5.2 Charge Transport in the Electrolyte by Ions. 2.5.3 Charge Transfer between the Electrodes and the Electrolyte2.5.4 Distribution of Ions; 2.6 Electrical Characterization of Li-Io Batteries; 2.6.1 Capacity Measurement; 2.6.2 Power Measurement; 2.6.3 Component Characterization; References; Chapter 3 Thermal Behavior; 3.1 Heat Generation in a Battery; 3.1.1 Heat Generation from Joule Heating; 3.1.2 Heat Generation from Electrode Reactions; 3.1.3 Entropic Heat Generation; 3.2 Experimental Measurement of Thermal Parameters; 3.2.1 Isothermal Battery Calorimeters; 3.2.2 Basic IBC Operation; 3.2.3 Typical Applications for an IBC. 3.3 Differential Scanning Calorimeters3.3.1 Differential Scanning Calorimeters and Batteries; 3.4 Infrared Imaging; 3.4.1 Origin of Thermal Energy; 3.4.2 Calibration and Error; 3.4.3 Imaging Battery Systems; 3.5 Desired Attributes of a Thermal Management System; 3.5.1 Designing a Battery Thermal Management System; 3.5.2 Optimization; 3.6 Conclusions; References; Chapter 4 Battery Life; 4.1 Overview; 4.1.1 Physics; 4.1.2 Calendar Life Versus Cycle Life; 4.1.3 Regions of Performance Fade; 4.1.4 End of Life; 4.1.5 Extending Cell Life Prediction to Pack Level. 4.1.6 Fade Mechanisms in Electrochemical Cells4.1.7 Common Degradation Mechanisms in Li-Ion Cells; 4.2 Modeling ; 4.2.1 Physics-Based; 4.2.2 Semiempirical Models; 4.3 Testing ; 4.3.1 Screening/Benchmarking Tests; 4.3.2 Design of Experiments; 4.3.3 RPTs; 4.3.4 Other Diagnostic Tests; References; Chapter 5 Battery Safety; 5.1 Safety Concerns in Li-Ion Batteries; 5.1.1 Electrical Failure; 5.1.2 Thermal Failure; 5.1.3 Electrochemical Failure; 5.1.4 Mechanical Failure; 5.1.5 Chemical Failure; 5.2 Modeling Insights on Li-Ion Battery Safety; 5.2.1 Challenges with Localized Failure. |
| ctrlnum | (OCoLC)949846975 |
| dewey-full | 621.31242 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.31242 |
| dewey-search | 621.31242 |
| dewey-sort | 3621.31242 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
| format | Electronic eBook |
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Chapter 1 Types of Batteries; 1.1 Lead Acid Batteries; 1.2 Nickel-Based Batteries; 1.3 Sodium Beta Batteries; 1.3.1 Sodium Sulfur Batteries; 1.3.2 Metal Chloride Batteries; 1.3.3 Challenges and Future Work; 1.4 Flow Batteries; 1.4.1 Redox Flow Batteries; 1.4.2 Hybrid-Flow Batteries; 1.4.3 Challenges and Future Work; 1.5 Li-Ion Batteries; 1.5.1 Lithium-Ion Cathodes; 1.5.2 Lithium-Ion Anodes; 1.5.3 Li-Ion Electrolytes; 1.5.4 Li-Ion Challenges and Future Work; 1.6 Lithium-Sulfur Batteries; 1.6.1 Lithium-Sulfur Cathodes; 1.6.2 Lithium-Sulfur Anode.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">1.6.3 Challenges and Future Work1.7 Metal-Air Batteries; 1.7.1 Zinc-Air Batteries; 1.7.2 Lithium-Air Batteries; 1.7.3 Challenges and Future Work; 1.8 Emerging Chemistries; 1.8.1 Sodium-Ion Batteries; 1.8.2 Liquid Metal; Chapter 2 Electrical Performance; 2.1 Thermodynamics Inside a Battery; 2.2 Assembling a Li-Ion Cell; 2.3 Voltage Dynamics during Charge/Discharge; 2.4 Circuit Diagram for a Cell; 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| genre | Electronic book. |
| genre_facet | Electronic book. |
| id | ZDB-4-EBA-ocn949846975 |
| illustrated | Not Illustrated |
| indexdate | 2024-11-27T13:27:12Z |
| institution | BVB |
| isbn | 9781608077144 1608077144 9781523117055 1523117052 |
| language | English |
| oclc_num | 949846975 |
| open_access_boolean | |
| owner | MAIN DE-863 DE-BY-FWS |
| owner_facet | MAIN DE-863 DE-BY-FWS |
| physical | 1 online resource (241 pages) |
| psigel | ZDB-4-EBA |
| publishDate | 2015 |
| publishDateSearch | 2015 |
| publishDateSort | 2015 |
| publisher | Artech House, |
| record_format | marc |
| series | Artech House power engineering series. |
| series2 | Power engineering |
| spelling | Santhanagopalan, Shriram, author. Design and analysis of large lithium-Ion battery systems / Shriram Santhanagopalan, Kandler Smith, Jeremy Neubauer, Gi-Heon Kim, Matthew Keyser, Ahmad Pesaran. Boston : Artech House, 2015. 1 online resource (241 pages) text txt rdacontent computer c rdamedia online resource cr rdacarrier Power engineering Print version record. Preface; Chapter 1 Types of Batteries; 1.1 Lead Acid Batteries; 1.2 Nickel-Based Batteries; 1.3 Sodium Beta Batteries; 1.3.1 Sodium Sulfur Batteries; 1.3.2 Metal Chloride Batteries; 1.3.3 Challenges and Future Work; 1.4 Flow Batteries; 1.4.1 Redox Flow Batteries; 1.4.2 Hybrid-Flow Batteries; 1.4.3 Challenges and Future Work; 1.5 Li-Ion Batteries; 1.5.1 Lithium-Ion Cathodes; 1.5.2 Lithium-Ion Anodes; 1.5.3 Li-Ion Electrolytes; 1.5.4 Li-Ion Challenges and Future Work; 1.6 Lithium-Sulfur Batteries; 1.6.1 Lithium-Sulfur Cathodes; 1.6.2 Lithium-Sulfur Anode. 1.6.3 Challenges and Future Work1.7 Metal-Air Batteries; 1.7.1 Zinc-Air Batteries; 1.7.2 Lithium-Air Batteries; 1.7.3 Challenges and Future Work; 1.8 Emerging Chemistries; 1.8.1 Sodium-Ion Batteries; 1.8.2 Liquid Metal; Chapter 2 Electrical Performance; 2.1 Thermodynamics Inside a Battery; 2.2 Assembling a Li-Ion Cell; 2.3 Voltage Dynamics during Charge/Discharge; 2.4 Circuit Diagram for a Cell; 2.5 Electrochemical Models for Cell Design; 2.5.1 Charge Transport within the Electrode by Electrons; 2.5.2 Charge Transport in the Electrolyte by Ions. 2.5.3 Charge Transfer between the Electrodes and the Electrolyte2.5.4 Distribution of Ions; 2.6 Electrical Characterization of Li-Io Batteries; 2.6.1 Capacity Measurement; 2.6.2 Power Measurement; 2.6.3 Component Characterization; References; Chapter 3 Thermal Behavior; 3.1 Heat Generation in a Battery; 3.1.1 Heat Generation from Joule Heating; 3.1.2 Heat Generation from Electrode Reactions; 3.1.3 Entropic Heat Generation; 3.2 Experimental Measurement of Thermal Parameters; 3.2.1 Isothermal Battery Calorimeters; 3.2.2 Basic IBC Operation; 3.2.3 Typical Applications for an IBC. 3.3 Differential Scanning Calorimeters3.3.1 Differential Scanning Calorimeters and Batteries; 3.4 Infrared Imaging; 3.4.1 Origin of Thermal Energy; 3.4.2 Calibration and Error; 3.4.3 Imaging Battery Systems; 3.5 Desired Attributes of a Thermal Management System; 3.5.1 Designing a Battery Thermal Management System; 3.5.2 Optimization; 3.6 Conclusions; References; Chapter 4 Battery Life; 4.1 Overview; 4.1.1 Physics; 4.1.2 Calendar Life Versus Cycle Life; 4.1.3 Regions of Performance Fade; 4.1.4 End of Life; 4.1.5 Extending Cell Life Prediction to Pack Level. 4.1.6 Fade Mechanisms in Electrochemical Cells4.1.7 Common Degradation Mechanisms in Li-Ion Cells; 4.2 Modeling ; 4.2.1 Physics-Based; 4.2.2 Semiempirical Models; 4.3 Testing ; 4.3.1 Screening/Benchmarking Tests; 4.3.2 Design of Experiments; 4.3.3 RPTs; 4.3.4 Other Diagnostic Tests; References; Chapter 5 Battery Safety; 5.1 Safety Concerns in Li-Ion Batteries; 5.1.1 Electrical Failure; 5.1.2 Thermal Failure; 5.1.3 Electrochemical Failure; 5.1.4 Mechanical Failure; 5.1.5 Chemical Failure; 5.2 Modeling Insights on Li-Ion Battery Safety; 5.2.1 Challenges with Localized Failure. 5.2.2 Effectiveness of Protective Device in Multicell Packs. This new resource provides you with an introduction to battery design and test considerations for large-scale automotive, aerospace, and grid applications. It details the logistics of designing a professional, large, Lithium-ion battery pack, primarily for the automotive industry, but also for non-automotive applications. Topics such as thermal management for such high-energy and high-power units are covered extensively, including detailed design examples. Every aspect of battery design and analysis is presented from a hands-on perspective. The authors work extensively with engineers in the fie. Includes bibliographical references and index. Lithium ion batteries. http://id.loc.gov/authorities/subjects/sh2011000687 Storage batteries Design and construction. Batteries au lithium-ion. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Lithium ion batteries fast Electronic book. Kim, Gi-Heon, author. Keyers, Matthew, author. Pesaran, Ahmad A., author. http://id.loc.gov/authorities/names/n93010859 Smith, Kandler, author. Neubauer, Jeremy, author. Print version: Santhanagopalan, Shriram. Design and Analysis of Large Lithium-Ion Battery Systems. Norwood : Artech House, ©2014 9781608077137 Artech House power engineering series. http://id.loc.gov/authorities/names/no2013082523 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1155198 Volltext |
| spellingShingle | Santhanagopalan, Shriram Kim, Gi-Heon Keyers, Matthew Pesaran, Ahmad A. Smith, Kandler Neubauer, Jeremy Design and analysis of large lithium-Ion battery systems / Artech House power engineering series. Preface; Chapter 1 Types of Batteries; 1.1 Lead Acid Batteries; 1.2 Nickel-Based Batteries; 1.3 Sodium Beta Batteries; 1.3.1 Sodium Sulfur Batteries; 1.3.2 Metal Chloride Batteries; 1.3.3 Challenges and Future Work; 1.4 Flow Batteries; 1.4.1 Redox Flow Batteries; 1.4.2 Hybrid-Flow Batteries; 1.4.3 Challenges and Future Work; 1.5 Li-Ion Batteries; 1.5.1 Lithium-Ion Cathodes; 1.5.2 Lithium-Ion Anodes; 1.5.3 Li-Ion Electrolytes; 1.5.4 Li-Ion Challenges and Future Work; 1.6 Lithium-Sulfur Batteries; 1.6.1 Lithium-Sulfur Cathodes; 1.6.2 Lithium-Sulfur Anode. 1.6.3 Challenges and Future Work1.7 Metal-Air Batteries; 1.7.1 Zinc-Air Batteries; 1.7.2 Lithium-Air Batteries; 1.7.3 Challenges and Future Work; 1.8 Emerging Chemistries; 1.8.1 Sodium-Ion Batteries; 1.8.2 Liquid Metal; Chapter 2 Electrical Performance; 2.1 Thermodynamics Inside a Battery; 2.2 Assembling a Li-Ion Cell; 2.3 Voltage Dynamics during Charge/Discharge; 2.4 Circuit Diagram for a Cell; 2.5 Electrochemical Models for Cell Design; 2.5.1 Charge Transport within the Electrode by Electrons; 2.5.2 Charge Transport in the Electrolyte by Ions. 2.5.3 Charge Transfer between the Electrodes and the Electrolyte2.5.4 Distribution of Ions; 2.6 Electrical Characterization of Li-Io Batteries; 2.6.1 Capacity Measurement; 2.6.2 Power Measurement; 2.6.3 Component Characterization; References; Chapter 3 Thermal Behavior; 3.1 Heat Generation in a Battery; 3.1.1 Heat Generation from Joule Heating; 3.1.2 Heat Generation from Electrode Reactions; 3.1.3 Entropic Heat Generation; 3.2 Experimental Measurement of Thermal Parameters; 3.2.1 Isothermal Battery Calorimeters; 3.2.2 Basic IBC Operation; 3.2.3 Typical Applications for an IBC. 3.3 Differential Scanning Calorimeters3.3.1 Differential Scanning Calorimeters and Batteries; 3.4 Infrared Imaging; 3.4.1 Origin of Thermal Energy; 3.4.2 Calibration and Error; 3.4.3 Imaging Battery Systems; 3.5 Desired Attributes of a Thermal Management System; 3.5.1 Designing a Battery Thermal Management System; 3.5.2 Optimization; 3.6 Conclusions; References; Chapter 4 Battery Life; 4.1 Overview; 4.1.1 Physics; 4.1.2 Calendar Life Versus Cycle Life; 4.1.3 Regions of Performance Fade; 4.1.4 End of Life; 4.1.5 Extending Cell Life Prediction to Pack Level. 4.1.6 Fade Mechanisms in Electrochemical Cells4.1.7 Common Degradation Mechanisms in Li-Ion Cells; 4.2 Modeling ; 4.2.1 Physics-Based; 4.2.2 Semiempirical Models; 4.3 Testing ; 4.3.1 Screening/Benchmarking Tests; 4.3.2 Design of Experiments; 4.3.3 RPTs; 4.3.4 Other Diagnostic Tests; References; Chapter 5 Battery Safety; 5.1 Safety Concerns in Li-Ion Batteries; 5.1.1 Electrical Failure; 5.1.2 Thermal Failure; 5.1.3 Electrochemical Failure; 5.1.4 Mechanical Failure; 5.1.5 Chemical Failure; 5.2 Modeling Insights on Li-Ion Battery Safety; 5.2.1 Challenges with Localized Failure. Lithium ion batteries. http://id.loc.gov/authorities/subjects/sh2011000687 Storage batteries Design and construction. Batteries au lithium-ion. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Lithium ion batteries fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh2011000687 |
| title | Design and analysis of large lithium-Ion battery systems / |
| title_auth | Design and analysis of large lithium-Ion battery systems / |
| title_exact_search | Design and analysis of large lithium-Ion battery systems / |
| title_full | Design and analysis of large lithium-Ion battery systems / Shriram Santhanagopalan, Kandler Smith, Jeremy Neubauer, Gi-Heon Kim, Matthew Keyser, Ahmad Pesaran. |
| title_fullStr | Design and analysis of large lithium-Ion battery systems / Shriram Santhanagopalan, Kandler Smith, Jeremy Neubauer, Gi-Heon Kim, Matthew Keyser, Ahmad Pesaran. |
| title_full_unstemmed | Design and analysis of large lithium-Ion battery systems / Shriram Santhanagopalan, Kandler Smith, Jeremy Neubauer, Gi-Heon Kim, Matthew Keyser, Ahmad Pesaran. |
| title_short | Design and analysis of large lithium-Ion battery systems / |
| title_sort | design and analysis of large lithium ion battery systems |
| topic | Lithium ion batteries. http://id.loc.gov/authorities/subjects/sh2011000687 Storage batteries Design and construction. Batteries au lithium-ion. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Lithium ion batteries fast |
| topic_facet | Lithium ion batteries. Storage batteries Design and construction. Batteries au lithium-ion. TECHNOLOGY & ENGINEERING Mechanical. Lithium ion batteries Electronic book. |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1155198 |
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