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市場調査レポート

LEV (低排出ガス車):技術革新によるエンパワリング

Technology Innovations Empowering Low Emission Vehicles

発行 Technical Insights (Frost & Sullivan) 商品コード 347797
出版日 ページ情報 英文 75 Pages
納期: 即日から翌営業日
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本日の銀行送金レート: 1USD=101.55円で換算しております。
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LEV (低排出ガス車):技術革新によるエンパワリング Technology Innovations Empowering Low Emission Vehicles
出版日: 2015年12月21日 ページ情報: 英文 75 Pages
概要

当レポートでは、低排出ガス車 (ハイブリッド車・電気自動車・燃料電池自動車) の市場および技術について調査し、各地域における関連法規制、導入推進インセンティブ、導入推進イニシアチブ、主要企業および大学・研究機関による技術開発・イノベーションの動向、5カ年販売予測などをまとめています。

第1章 エグゼクティブサマリー

  • 調査範囲
  • 調査手法
  • 主要調査結果

第2章 LEV (低排出ガス車):スニークプレビュー&実現技術環境

  • LEVの概要
  • LEVの分類
  • ハイブリッド車 (HV) 技術
  • 電気自動車 (EV) 技術
  • 燃料電池自動車技術
  • HV:LEVの商業的分類
  • EV:LEVの商業的分類
  • LEVの影響因子
  • 導入推進因子
  • 導入阻害因子
  • イノベーションエコシステム
  • イノベーションへの影響因子

第3章 北米:LEV推進政策・イノベーション・取り組み

  • 米国:法規制・政策
  • カリフォルニア:法規制・政策
  • カナダ・メキシコ:法規制・政策
  • HV&EVの推進インセンティブ:アリゾナ・カリフォルニア
  • HV&EVの推進インセンティブ:コネチカット・フロリダ・コロンビア区
  • HV&EVの推進インセンティブ:ジョージア・ハワイ・イリノイ
  • HV&EVの推進インセンティブ:メリーランド・マサチューセッツ・NY
  • HV&EVの推進インセンティブ:テキサス・ワシントン
  • HV&EVの推進インセンティブ:カナダ
  • 亜鉛/空気電池のイノベーション:EnZinc Inc.,
  • リチウム/空気電池のイノベーション:IBM Research
  • カーボンフォーム電池のイノベーション:Firefly International Energy Co
  • リチウム金属電池のイノベーション:Solid Energy Systems
  • エネルギー貯蔵:Lawrence Berkeley National Lab, University of California
  • 改良型リチウムイオン電池
  • 固体電池:MIT・Samsung Advanced Institute of Technology

第4章 欧州:LEV推進政策・イノベーション・取り組み

  • 法規制・政策
  • HV&EVの推進インセンティブ
  • HV&EV推進イニシアチブ:欧州のその他の地域
  • 金属/空気電池のイノベーション:PHINERGY
  • 高度シリコンアノードリチウムイオン電池:NEXEON Limited
  • リチウム硫黄電池:OXIS Energy Limited
  • エレクトロモビリティソリューション:Siemens AG
  • 電気・ハイブリッドパワートレイン:Robert Bosch GmbH

第5章 アジア太平洋:LEV推進政策・イノベーション・取り組み

  • 法規制・政策:中国
  • 法規制・政策:インド
  • 法規制・政策:日本
  • 法規制・政策:韓国・オーストラリア
  • HV&EV推進イニシアチブ
  • スーパーキャパシターのイノベーション:Queensland University of Technology
  • 超高速充電池:Nanyang Technology University

第6章 戦略的機会

  • 市場の潜在性:EV
  • 市場の潜在性:EV・燃料電池
  • 将来の市場機会の戦略的展望

第7章 主要特許・主要コンタクト

第8章 Frost & Sullivanについて

目次
Product Code: D6B8-01-00-00-00

Moving towards an era of low carbon transportation

The research service delves into various technologies that are necessary to produce low emission vehicles (LEVs). Low emission vehicles are vehicles that emit at least 40% less emissions than a similar model vehicle. In general, this research service focuses on electric, hybrid, and fuel cell vehicles. Each type of vehicle and the technologies empowering them have been highlighted to provide a depth of information for the readers.

The report analyzes the various factors affecting the adoption of low emission vehicles (LEVs) in different geographical regions. In each region, various governmental regulations and incentives for LEVs are discussed in detail. Further, the LEV sales prediction for the next 5 years is included in the research service.

This research service provides

  • An overview of technologies empowering LEVs.
  • A review of key technological/ business challenges influencing the adoption of LEVs.
  • Regulations and incentives for LEV purchase in various countries.
  • The R&D efforts in developing new charging solutions and battery technologies are highlighted. This information will be useful for companies working across LEV value chain to align their R&D portfolios.
  • Insights into the road ahead for adoption of LEVs in the short and medium terms.
  • Various breakthrough innovations that could potentially enable LEVs in the near future to deliver better performance.

Table of Contents

1. EXECUTIVE SUMMARY

Executive Summary

  • 1. Research Scope
  • 2. Research Methodology
  • 3. Research Methodology Step by Step Approach
  • 4. Key Findings - Move Towards Low Carbon Economy
  • 5. Key Findings - Concerns & Need for Radical Changes

2. LEV - A SNEAK PREVIEW & ENABLING TECHNOLOGY LANDSCAPE

LEV - A Sneak Preview & Enabling Technology Landscape

  • 1. Overview of Low Emission Vehicles(LEVs)
  • 2. Classification of Low Emission Vehicles(LEVs)
  • 3. Hybrid Vehicle Technology
  • 4. Electric Vehicle Technology
  • 5. Fuel Cell Vehicle Technology
  • 6. Hybrid Vehicles - Commercial Classification of LEVs
  • 7. Electric Vehicles - Commercial Classification of LEVs
  • 8. Adoption Factors for LEVs
  • 9. Influencing Factors Driving Adoption
  • 10. Influencing Factors Hindering Adoption
  • 11. Innovation Ecosystem
  • 12. Factors Influencing Innovation

3. ANALYSIS OF NORTH AMERICAN PRACTICES, POLICES AND INNOVATIONS DRIVING LEVS

Analysis of North American Practices, Polices and Innovations Driving LEVs

  • 1. USA - Government Regulations and Policies
  • 2. California - Government Regulations and Policies
  • 3. Canada and Mexico - Government Regulations and Policies
  • 4. Incentives to Promote Hybrid and Electric Vehicles in Arizona and California
  • 5. Incentives to Promote Hybrid and Electric Vehicles in Connecticut, Florida and District of Columbia
  • 6. Incentives to Promote Hybrid and Electric Vehicles in Georgia, Hawaii, Illinois
  • 7. Incentives to Promote Hybrid and Electric Vehicles in Maryland, Massachusetts, and New York
  • 8. Incentives to Promote Hybrid and Electric Vehicles in Texas and Washington
  • 9. Incentives to Promote Hybrid and Electric Vehicles in Canada
  • 10. Zinc-Air Batteries Innovation - EnZinc Inc., California, USA
  • 11. Lithium Air Battery Innovation, IBM Research-Almaden, USA
  • 12. Carbon Foam Batteries Innovation - Firefly International Energy Co, Illinois, USA
  • 13. Lithium Metal Battery Innovation - Solid Energy Systems, Massachusetts, USA
  • 14. Energy Storage at Lawrence Berkeley National Lab, University of California, USA
  • 15. Improved Lithium Ion Batteries -
  • 16. Solid State Battery - MIT and Samsung Advanced Institute of Technology, USA

4. ANALYSIS OF EUROPEAN PRACTICES, POLICES AND INNOVATIONS DRIVING LEVS

Analysis of European Practices, Polices and Innovations Driving LEVs

  • 1. Government Regulations and Policies
  • 2. Prominent Initiatives to Promote Hybrid and Electric Vehicles in Europe
  • 3. Initiatives to Promote Hybrid and Electric Vehicles in Other Countries of Europe
  • 4. Metal-Air Battery Innovation - PHINERGY, Israel
  • 5. Advanced Silicon Anode Lithium Ion Battery - NEXEON Limited, Oxford, UK
  • 6. Lithium Sulfur Batteries - OXIS Energy Limited, Oxfordshire, UK
  • 7. Electro Mobility Solutions - Siemens AG, Germany
  • 8. Electric and Hybrid Powertrains - Robert Bosch GmbH, Stuttgart, Germany

5. ANALYSIS OF APAC PRACTICES, POLICES AND INNOVATIONS DRIVING LEVS

Analysis of APAC Practices, Polices and Innovations Driving LEVs

  • 1. Government Regulations and Policies in China
  • 2. Government Regulations and Policies in India
  • 3. Government Regulations and Policies in Japan
  • 4. Government Regulations and Policies in South Korea and Australia
  • 5. Initiatives to Promote Hybrid and Electric Vehicles in APAC
  • 6. Super Capacitors Innovation - Queensland University of Technology, Brisbane, Australia
  • 7. Ultra-fast Charging Batteries - Nanyang Technology University, Singapore

6. STRATEGIC OPPORTUNITIES

Strategic Opportunities

  • 1. Market Potential - Electric Vehicles
  • 2. Market Potential - Electric Vehicles and Fuel Cells
  • 3. Strategic Perspectives on Future Opportunities

7. KEY PATENTS AND CONTACTS

Key Patents and Contacts

  • 1. Key Contacts
  • 2. Electric Vehicles' Battery and Control System Patents
  • 3. Patents on Range, Mounting Structure and Brake Control of Electric Vehicles
  • 4. Hybrid Drive and Motor Vehicles Patents
  • 5. Hybrid Vehicle and Fuel Cell Patents
  • 6. Patents on Fuel Cell Advances
  • 7. Legal Disclaimer

8. THE FROST & SULLIVAN STORY

The Frost & Sullivan Story

  • 1. The Frost & Sullivan Story
  • 2. Value Proposition: Future of Your Company & Career
  • 3. Global Perspective
  • 4. Industry Convergence
  • 5. 360° Research Perspective
  • 6. Implementation Excellence
  • 7. Our Blue Ocean Strategy
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