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市場調查報告書

電動車及混合汽車用電池、電池溫度管理系統的全球市場分析:至2025年的預測

Global Analysis of Electric Battery Market and Battery Thermal Management System for Electric and Hybrid Vehicles, Forecast to 2025

出版商 Frost & Sullivan 商品編碼 797399
出版日期 內容資訊 英文 88 Pages
商品交期: 最快1-2個工作天內
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電動車及混合汽車用電池、電池溫度管理系統的全球市場分析:至2025年的預測 Global Analysis of Electric Battery Market and Battery Thermal Management System for Electric and Hybrid Vehicles, Forecast to 2025
出版日期: 2019年02月19日內容資訊: 英文 88 Pages
簡介

本報告提供xEV (電動車) 電池溫度控管技術詳細的分析及不久將來的BTMS技術的策略必要事項,技術藍圖,及技術進步之相關詳細分析,全球各地區的xEV的策略性概要,主要市場、技術趨勢分析,競爭企業的要素,主要企業的案例研究,及主要市場簡介等。

第1章 摘要整理

第2章 調查範圍、目的、背景、手法

第3章 定義

第4章 影響電池溫度控管需求的主要趨勢

  • xEV (電動車)的引進相關消費者的回饋
  • 期望的行車距離
  • 現在、未來的產品線:各OEM
  • 超高速充電趨勢

第5章 電池溫度控管系統的展望

  • 電池容量,距離及充電能力的影響
  • 技術藍圖:P-BTMS各解決方案
  • 主動溫度控管系統:各OEM,現在、未來
  • P-BTMS解決方案:主要的電池化學 (正極活物質)
  • P-BTMS解決方案:主要的電池結構
  • 案例研究:GENERAL MOTORS Chevy Volt (乙二醇液冷式 BTMS)
  • 案例研究:豐田的電池設計
  • 案例研究:BMW i3的電池設計
  • 案例研究:Tesla Model S BTMS

第6章 OEM的簡介:GENERAL MOTORS

第7章 OEM的簡介:BMW

第8章 OEM的簡介:VOLKSWAGEN

第9章 OEM的簡介:DAIMLER (MERCEDES)

第10章 OEM的簡介:TESLA

第11章 OEM的簡介:豐田

第12章 OEM的簡介:RENAULT NISSAN

第13章 OEM的簡介:FORD

第14章 OEM的簡介:BYD

第15章 成長機會、CTA (推薦行動)

第16章 結論、未來展望

第17章 附錄

目錄
Product Code: MDD0-18

With Increasing Demand for High-performance xEVs with Higher Capacity Batteries, the Adoption of Battery Thermal Management Systems will be Essential for Ensuring Efficiency and Vehicle Safety

This research focusses on legislative measures taken by governments globally to adopt and implement high-end battery technology, and bring in new business models for private and public sectors to develop battery thermal management systems (BTMS). Private and public sectors have constantly provided investments and funding to OEMs, Tier I suppliers, and thermal management suppliers to enhance the performance, efficiency and usability of battery systems, as well as reduce the cost of adoption for high-performance battery systems. Battery technology breakdown by OEM (current and future) and OEM profiles are discussed to point out key partnerships in co-developing the technology and the key technology trends within OEMs to enhance performance and reduce cost of adoption.

Research Scope:

  • Base year: 2018; Study period: 2010-2025; Forecast period: 2019-2030
  • Geographical Scope: Europe (Denmark, France, Germany, Italy, Netherlands, Norway, Portugal, Spain, Sweden, and the United Kingdom), China, South Korea and North America (the United States) and Japan.

Key Features:

This research aims to provide an in-depth analysis of battery thermal management technology and strategic imperatives of upcoming BTMS technology, technology roadmaps and technology advancement. The study will also highlight current and future product planning of various manufacturers and their growth potential.

The objectives of this study are:

  • To provide a strategic overview of the xEV battery market in Europe, North America, China, South Korea and Japan
  • To analyse key market and technology trends and present an overview of the market from a regional perspective
  • To offer a competitor analysis by evaluating competitive factors, competitor market shares, product portfolios and capabilities
  • To develop an actionable set of recommendations and conclusions
  • This involves the extraction of information from existing reports and project material within the Frost & Sullivan database; it also includes data and information gathered from technical papers, specialised magazines, seminars and Internet research. More than 10 interviews have been conducted over phone by senior consultants and industry analysts with original equipment suppliers, regulatory authorities, and distributors. Primary research has accounted for 80% of the total research.

Key Issues Addressed:

  • What is the business environment of battery thermal management systems? What kind of market dynamics and impact will it have on the automotive industry?
  • What are the key strategies that OEMs in Europe, North America, and Japan plan to use to produce high-performance batteries and what is their impact of thermal management systems?
  • What are the technology trends in Europe, North America, and Japan? What is the status of existing development and how will it evolve in the future?
  • How will the xEV battery market evolve in the next five to seven years?
  • What are the different types of regulatory standards applicable for xEV batteries?

Table of Contents

1. EXECUTIVE SUMMARY

  • Executive Summary-Findings for Battery Thermal Management
  • Executive Summary-Market Snapshot
  • Executive Summary-Battery Specification Roadmap
  • Executive Summary-Fire Safety Compliance Technologies
  • Executive Summary-xEV Battery Specifications
  • Executive Summary-OEM Battery Thermal Management Strategy
  • Executive Summary-Technology Roadmap by P-BTMS Solution
  • Executive Summary-Future Trend in BTMS: Centralised Active Cooling
  • Executive Summary-Current Benchmarking of OEM Sourcing Strategies
  • Executive Summary-Overview of Sourcing Strategy of Battery & Thermal Management System
  • Executive Summary-xEV Battery Who Supplies Whom: OEMs
  • Executive Summary-Chinese OEMs & Suppliers for xEV

2. RESEARCH SCOPE, OBJECTIVES, BACKGROUND AND METHODOLOGY

  • Research Scope
  • Research Aim and Objectives
  • Key Questions this Study Will Answer
  • Research Methodology
  • Key Participant Groups and Associated Brands Compared in this Study

3. DEFINITIONS

  • Definition-Electric Vehicle (xEV) in Scope
  • Definition-Basic BTMS Topology
  • Definition-Electric BTMS in Scope
  • Definition-Types of Passive BTMS
  • Definition-Types of Passive BTMS (continued)
  • Definition-Future Passive BTMS
  • Definition of Passive Battery Thermal Management Components

4. KEY TREND IMPACTING BATTERY THERMAL MANAGEMENT NEEDS

  • Consumer Feedback on Adoption of xEVs
  • Expected Driving Range
  • Current and Future Product Line by OEMs
  • Trends in Ultra-Fast Chargers

5. BATTERY THERMAL MANAGEMENT SYSTEM OUTLOOK

  • Battery Capacity, Range and Impact on Charging Capacity
  • Technology Roadmap by P-BTMS Solution
  • Active Thermal Management Systems by OEMs-Current and Future
  • P-BTMS Solutions by Key Cell Chemistries (Cathode Active Materials)
  • P-BTMS Solutions by Key Cell Structure
  • Case Study-General Motors: Chevy Volt (Glycol Liquid-cooled BTMS)
  • Case Study-Toyota Battery Design
  • Case Study-BMW i3 Battery Design
  • Case Study-Tesla Model S BTMS

6. OEM PROFILE-GENERAL MOTORS

  • General Motors
  • GM Battery Thermal Management System Roadmap-2010-2025

7. OEM PROFILE-BMW

  • BMW
  • BMW Hybrid/Electric Battery System Roadmap-2010-2025

8. OEM PROFILE-VOLKSWAGEN

  • Volkswagen
  • Volkswagen BTMS Roadmap-2010-2025

9. OEM PROFILE-DAIMLER (MERCEDES)

  • Daimler
  • Daimler Battery System Roadmap-2010-2025

10. OEM PROFILE-TESLA

  • Tesla
  • Tesla Electric Battery System Roadmap-2010-2025

11. OEM PROFILE-TOYOTA

  • Toyota
  • Toyota Battery System Roadmap-2010-2025

12. OEM PROFILE-RENAULT NISSAN

  • Renault Nissan
  • Renault Nissan Battery System Roadmap-2010-2025

13. OEM PROFILE-FORD

  • Ford
  • Ford Battery System Roadmap-2010-2025

14. OEM PROFILE-BYD

  • BYD
  • BYD Battery System Roadmap-2010-2025

15. GROWTH OPPORTUNITIES AND COMPANIES TO ACTION

  • 5 Major Growth Opportunities
  • Strategic Imperatives for Global Analysis of the Battery Thermal Management Market

16. CONCLUSIONS AND FUTURE OUTLOOK

  • Conclusions
  • Legal Disclaimer

17. APPENDIX

  • Chinese xEV Battery Shipments by Supplier
  • Market Engineering Methodology
  • List of Exhibits
  • List of Exhibits (continued)
  • List of Exhibits (continued)
  • List of Exhibits (continued)
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