Advances in Battery Manufacturing, Service, and Management Systems (Hardcover)

Jingshan Li , Shiyu Zhou , Yehui Han

  • 出版商: IEEE
  • 出版日期: 2016-10-24
  • 售價: $1,860
  • 貴賓價: 9.8$1,823
  • 語言: 英文
  • 頁數: 416
  • 裝訂: Hardcover
  • ISBN: 1119056497
  • ISBN-13: 9781119056492
  • 下單後立即進貨 (約5~7天)

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商品描述

Addresses the methodology and theoretical foundation of battery manufacturing, service and management systems (BM2S2), and discusses the issues and challenges in these areas

This book brings together experts in the field to highlight the cutting edge research advances in BM2S2 and to promote an innovative integrated research framework responding to the challenges. There are three major parts included in this book: manufacturing, service, and management. The first part focuses on battery manufacturing systems, including modeling, analysis, design and control, as well as economic and risk analyses. The second part focuses on information technology’s impact on service systems, such as data-driven reliability modeling, failure prognosis, and service decision making methodologies for battery services. The third part addresses battery management systems (BMS) for control and optimization of battery cells, operations, and hybrid storage systems to ensure overall performance and safety, as well as EV management. The contributors consist of experts from universities, industry research centers, and government agency. In addition, this book:

*Provides comprehensive overviews of lithium-ion battery and battery electrical vehicle manufacturing, as well as economic returns and government support
*Introduces integrated models for quality propagation and productivity improvement, as well as indicators for bottleneck identification and mitigation in battery manufacturing
*Covers models and diagnosis algorithms for battery SOC and SOH estimation, data-driven prognosis algorithms for predicting the remaining useful life (RUL) of battery SOC and SOH
*Presents mathematical models and novel structure of battery equalizers in battery management systems (BMS)
*Reviews the state of the art of battery, supercapacitor, and battery-supercapacitor hybrid energy storage systems (HESSs) for advanced electric vehicle applications

Advances in Battery Manufacturing, Services, and Management Systems is written for researchers and engineers working on battery manufacturing, service, operations, logistics, and management. It can also serve as a reference for senior undergraduate and graduate students interested in BM2S2.

Table of Contents

PREFACE XV
CONTRIBUTORS XIX

PART I BATTERY MANUFACTURING SYSTEMS

1 LITHIUM-ION BATTERY MANUFACTURING FOR ELECTRIC VEHICLES: A CONTEMPORARY OVERVIEW 3
Wayne Cai

1.1 Introduction 3

1.2 Li-Ion Battery Cells, Modules, and Packs 4

1.3 Joining Technologies for Batteries 8

1.4 Battery Manufacturing: The Industrial Landscape 19

1.5 Conclusions 25

2 IMPROVING BATTERY MANUFACTURING THROUGH QUALITY AND PRODUCTIVITY BOTTLENECK INDICATORS 29
Feng Ju, Jingshan Li, Guoxian Xiao, Ningjian Huang, Jorge Arinez, Stephan Biller, and Weiwen Deng

2.1 Introduction 29

2.2 Literature Review 31

2.3 Problem Formulation 33

2.4 Integrated Quality and Productivity Performance Evaluation 35

2.5 Bottleneck Analysis 46

2.6 Conclusions 50

3 EVENT-BASED MODELING FOR BATTERY MANUFACTURING SYSTEMS USING SENSOR DATA 57
Qing Chang, Yang Li, Stephan Biller, and Guoxian Xiao

3.1 Introduction 57

3.2 Sensor Networks for Battery Manufacturing System 58

3.3 Event-based Modeling Approach 60

3.4 Event-based Diagnosis for Market Demand–Driven Battery Manufacturing 68

3.5 Event-based Costing for Market Demand–Driven Battery Manufacturing System 76

3.6 Conclusions 77

4 A REVIEW ON END-OF-LIFE BATTERY MANAGEMENT: CHALLENGES, MODELING, AND SOLUTION METHODS 79
Xiaoning Jin

4.1 Introduction / 79

4.2 Research Issues of Battery Remanufacturing / 82

4.3 Modeling and Analysis for Battery-Remanufacturing Systems / 88

4.4 Summary / 94

References / 94

5 AN ANALYTICS APPROACH FOR INCORPORATING MARKET DEMAND INTO PRODUCTION DESIGN AND OPERATIONS OPTIMIZATION 99
Chris Johnson, Bahar Biller, Shanshan Wang, and Stephan Biller

5.1 Introduction 99

5.2 Design and Operational Decision Support 101

5.3 Linkage to a Financial Transfer Function 104

5.4 A Quantification of Risk in Design and Operations 110

5.5 Exploration of Design and Operations Choices 113

5.6 Manufacturing Operations Transfer Function: Throughput, Inventory, Expense, and Fulfillment 118

5.7 Activity-based Costing 120

5.8 Conclusion 123

PART II BATTERY SERVICE SYSTEMS

6 PROGNOSTIC CLASSIFICATION PROBLEM IN BATTERY HEALTH MANAGEMENT 129
Junbo Son, Raed Kontar, and Shiyu Zhou

6.1 Introduction 129

6.2 Failure Predictions by Logistic Regression and JPM 132

6.3 Numerical Study 136

6.4 Discussion of the Impact of Imbalanced Data 143

6.5 Conclusion 146

7 A BAYESIAN APPROACH TO BATTERY PROGNOSTICS AND HEALTH MANAGEMENT 151
Bhaskar Saha

7.1 Introduction 151

7.2 Background 152

7.3 Battery Model for a Bayesian Approach 154

7.4 Particle Filtering Framework for State Tracking and Prediction 156

7.5 Battery Model Considerations for PF Performance 160

7.6 Decision Making for Optimizing Battery Use 167

7.7 Summary 171

8 RECENT RESEARCH ON BATTERY DIAGNOSTICS, PROGNOSTICS, AND UNCERTAINTY MANAGEMENT 175
Zhimin Xi, Rong Jing, Cheol Lee, and Mushegh Hayrapetyan

8.1 Introduction 175

8.2 Battery Diagnostics 177

8.3 Battery Prognostics 186

8.4 Uncertainty Management 195

8.5 Summary 207

9 LITHIUM-ION BATTERY REMAINING USEFUL LIFE ESTIMATION BASED ON ENSEMBLE LEARNING WITH LS-SVM ALGORITHM 217
Yu Peng, Siyuan Lu, Wei Xie, Datong Liu, and Haitao Liao

9.1 Introduction 217

9.2 LS-SVM Algorithm 218

9.3 LS-SVM Ensemble Learning Algorithm 220

9.4 Experiment Verification and Analysis 224

9.5 Conclusion 226

10 DATA-DRIVEN PROGNOSTICS FOR BATTERIES SUBJECT TO HARD FAILURE 233
Qiang Zhou, Jianing Man, and Junbo Son

10.1 Introduction 233

10.2 The Prognostic Model 236

10.3 Simulation Study 245

10.4 Summary 251

PART III BATTERY MANAGEMENT SYSTEMS (BMS)

11 REVIEW OF BATTERY EQUALIZERS AND INTRODUCTION TO THE INTEGRATED BUILDING BLOCK DESIGN OF DISTRIBUTED BMS 257
Ye Li, Yehui Han, and Liang Zhang

11.1 Concept of Battery Equalization 257

11.2 Equalization Methods 258

11.3 Introduction of Integrated Building Block Design of a Distributed BMS 264

11.4 The Proposed Integrated Building Block Design of BMS 264

11.5 System Implementation 268

11.6 Tested System Description 270

11.7 Functional Performance Evaluation 273

11.8 Conclusion 276

12 MATHEMATICAL MODELING, PERFORMANCE ANALYSIS AND CONTROL OF BATTERY EQUALIZATION SYSTEMS: REVIEW AND RECENT DEVELOPMENTS 281
Weiji Han, Liang Zhang, and Yehui Han

12.1 Introduction 281

12.2 Modeling of Battery Equalization Systems 282

12.3 Performance Evaluation of Battery Equalization Systems 289

12.4 Control Strategies for Battery Equalization Systems 292

12.5 Summary 297

13 REVIEW OF STRUCTURES AND CONTROL OF BATTERYSUPERCAPACITOR HYBRID ENERGY STORAGE SYSTEM FOR ELECTRIC VEHICLES 303
Feng Ju, Qiao Zhang, Weiwen Deng, and Jingshan Li

13.1 Introduction 303

13.2 Batteries for EVs 304

13.3 Supercapacitors for EVs 305

13.4 Battery-Supercapacitor Hybrid Energy Storage System 306

13.5 Control Strategy for HESS 312

14 POWER MANAGEMENT CONTROL STRATEGY OF BATTERY-SUPERCAPACITOR HYBRID ENERGY STORAGE SYSTEM USED IN ELECTRIC VEHICLES 319
Qiao Zhang, Weiwen Deng, Jian Wu, Feng Ju, and Jingshan Li

14.1 Introduction 319

14.2 Low-Level Hybrid Topologies 320

14.3 High-Level Supervisory Control 323

14.4 Conclusions 350

15 FEDERAL AND STATE INCENTIVES HEIGHTEN CONSUMER INTEREST IN ELECTRIC VEHICLES 355
William Canis

15.1 Introduction 355

15.2 Electric Vehicles and the Federal Role 356

15.3 Public Interest in HEVs and Electric Vehicles 358

15.4 Federal Support for HEVs and Electric Vehicles 360

15.5 Support for EVs in the Obama Administration 363

15.6 Impact of GHG Regulations 366

15.7 Vehicle Environmental Life Cycle Comparisons 368

15.8 State Initiatives 369

15.9 Prospects for Growth / 373

15.10 Conclusion 376

Acknowledgment 376

References 376

INDEX 381

商品描述(中文翻譯)

本書探討了電池製造、服務和管理系統(BM2S2)的方法論和理論基礎,並討論了這些領域的問題和挑戰。

本書匯集了該領域的專家,突出了BM2S2的尖端研究進展,並促進了一個創新的整合研究框架以應對挑戰。本書包含三個主要部分:製造、服務和管理。第一部分聚焦於電池製造系統,包括建模、分析、設計和控制,以及經濟和風險分析。第二部分聚焦於信息技術對服務系統的影響,例如基於數據的可靠性建模、故障預測和電池服務的決策方法。第三部分涉及電池管理系統(BMS),用於控制和優化電池電池、運營和混合儲能系統,以確保整體性能和安全性,以及電動車管理。貢獻者包括來自大學、工業研究中心和政府機構的專家。

此外,本書還提供了以下內容:
- 全面介紹了鋰離子電池和電池電動車製造,以及經濟回報和政府支持。
- 引入了用於質量傳播和生產力改進的整合模型,以及用於瓶頸識別和緩解的指標。
- 涵蓋了電池SOC和SOH估計的模型和診斷算法,以及基於數據的預測算法,用於預測電池SOC和SOH的剩餘使用壽命(RUL)。
- 提出了電池管理系統(BMS)中電池均衡器的數學模型和新結構。
- 回顧了電池、超級電容器和電池-超級電容器混合儲能系統(HESS)在先進電動車應用中的最新技術。

《電池製造、服務和管理系統的進展》適用於從事電池製造、服務、運營、物流和管理的研究人員和工程師。它也可以作為對BM2S2感興趣的高年級本科生和研究生的參考書。

目錄:
前言
貢獻者
第一部分 電池製造系統
第1章 電動車用鋰離子電池製造:當代概述
第2章 通過質量和生產力瓶頸指標改進電池製造
第3章 使用傳感器數據的基於事件的電池製造系統建模
第4章 電池末期管理的綜述:挑戰、建模和解決方法