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燃料電池車の世界市場:技術開発に向けた戦略的協力による業界の変革 (2020~2030年)

Strategic Collaborations Towards Technology Development Transforming The Global Fuel Cell Vehicles Market, 2020-2030

出版日: | 発行: Frost & Sullivan | ページ情報: 英文 113 Pages | 納期: 即日から翌営業日

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燃料電池車の世界市場:技術開発に向けた戦略的協力による業界の変革 (2020~2030年)
出版日: 2020年08月28日
発行: Frost & Sullivan
ページ情報: 英文 113 Pages
納期: 即日から翌営業日
  • 全表示
  • 概要
  • 目次
概要

自動車業界は現在、環境問題に対する技術面での対応が急速に進んでおり、電気自動車 (EV) が既に大きく普及しているほか、燃料電池車 (FCEV) の開発・普及の動きも本格化しています。現時点では、Hyundai Nexo、Toyota Mirai、Honda Clarityの3つのモデルのみが販売されていますが、今後10年間に25種類以上のモデルがリリースされ、世界の乗用車市場の1~1.5%を占めると見られています。今後の着実な普及・市場成長のためには、コスト引き下げや水素生産・補給インフラの整備、安全性の向上が課題となっています。

当レポートでは、世界の燃料電池車市場および関連インフラの整備状況と将来展望について分析し、現在の技術水準と今後の開発見通し、各地域/主要国の市場規模やインフラ整備状況 (水素ステーションなど)、各国政府の支援策、サプライチェーン全体の発展動向、今後取り組むべき課題と戦略 (2030年まで)、といった情報を取りまとめてお届けいたします。

目次

エグゼクティブサマリー

調査範囲・目的・調査手法

燃料電池車 (FCEV) と水素インフラ:全体的市場

  • 走行性能・距離:パワートレイン別
  • 現在のFCEVと仕様
  • 将来のモデルと仕様
  • 市場シナリオ分析
  • FCEV市場の内訳:メーカー別
  • 世界の燃料電池産業における事業協力 (パートナーシップ)
  • 世界の燃料電池スタックの出荷個数
  • 世界の H2生産量
  • 水素燃料の製造コスト
  • 天然ガスを使用した水素燃料の製造コスト
  • 水素の供給量
  • 世界各国の水素ステーションの件数:マッピング
  • 水素燃料ステーションの設置ベース
  • 技術ロードマップ:乗用車 (PC) の場合
  • 水素燃料電池システムのコスト構造

北米

  • 北米:FCEV市場のファクトシート
  • 米国:インセンティブと課税構造
  • 米国:水素開発のための資金調達と目標
  • 米国:水素の生産量
  • ケーススタディ:California Fuel Cell Partnership (CaFCP)
  • 米国:水素ステーションのネットワーク
  • 北米:水素/燃料電池プログラム
  • 北米:燃料電池技術のプロジェクト

欧州

  • 欧州:FCEV市場のファクトシート
  • 欧州:FCEV市場の予測
  • 欧州:補助金とインセンティブ
  • 欧州:重要な事業協力 (パートナーシップ)
  • 欧州:主要プロジェクト
  • 欧州政府の融資/投資額
  • 欧州:水素ステーションの件数
  • 欧州:水素の生産能力

韓国

  • 韓国:FCEV市場のファクトシート
  • 韓国:水素ステーションの件数
  • 韓国:水素ステーションの一覧
  • 韓国政府の融資/投資額
  • 韓国の水素を利用した都市 (2022年)

日本

  • 日本:FCEV市場のファクトシート
  • 日本:水素ステーションの件数
  • 日本:水素電池/燃料電池の戦略目標
  • 日本:H2モビリティ(JHyM)
  • 日本政府の支援
  • 日本の水素ステーション:規制、基準、ガイドライン

中国

  • 中国:FCEV市場の予測
  • 中国の水素燃料インフラ
  • 新エネルギー車(NEV)ポリシー
  • 中国のFC市場:水素インフラコストの概要
  • 中国の水素生産量
  • 中国:FCEVの目標
  • 中国の水素開発のための国内政策
  • 中国のFC市場:燃料電池技術のロードマップ
  • 中国のFC市場:燃料電池の開発のロードマップ

サプライヤー

  • 中国市場:主要企業のスナップショット
  • 世界市場 (中国を除く):主要企業のスナップショット

成長機会および推奨行動

  • 成長機会:社会的コラボレーション
  • FCEV市場の戦略的課題
  • 略語と頭字語の一覧

結論

付録

目次
Product Code: MF49-18

Establishing a Robust Refuelling Infrastructure and Lowering the Cost of H2 Production to Drive Growth Opportunities

The automotive industry is rapidly evolving in terms of technology as well as tackling environmental issues. Electric vehicles (EVs) have been introduced as a clean energy initiative as they have low or zero emissions, and have come a long way to become an integral part of OEMs' business strategies. Automakers like PSA and VW are creating separate EV business units to be prepared for the expected EV boom in the future. Along with long-range battery electric vehicles (BEVs), governments and OEMs are also looking at fuel cell electric vehicles (FCEVs) as a viable solution especially for light & heavy commercial vehicles (CVs) and sports utility vehicles (SUVs) in passenger cars.

Currently, there are only 3 models active in the market - Hyundai Nexo (most sold in 2019), Toyota Mirai, and Honda Clarity. Hyundai Tucson is awaiting an upgrade and we can expect a new Tucson and Clarity in the market next year. We expect about 25+ models to be available, together accounting for about 1-1.5% of global passenger car (PC) sales by the end of this decade.

Proton exchange membrane, or PEM, is currently the only type of fuel cells found viable for usage in mobility due to its high power density and other advantages related to low weight and volume compared to other types. It operates at low temperatures of about 80 degrees Celsius, which makes it suitable for mobility applications and other uses that require an initial high demand of power, which is of high density.

Cost, infrastructure, and safety are few most important barriers for the growth in FCEV sales. Companies across the value chain and governments are working closely towards reducing the cost of the vehicle, hydrogen production and retail pricing, increasing the number of refueling stations and improving safety, and we can expect FCEVs to have price parity with traditional internal combustion engine (ICE) vehicles by 2030.

This study gives us a detailed analysis of the current and future scenarios of FCEV sales, stations, hydrogen fuel, and the push from governments for their adoption in regions like North America, Europe, China, Japan, and South Korea. It can be used to gain insights into OEM strategies in establishing a profitable supply chain and to track the various automotive trends and their impact on the FCEV market.

Key Issues Addressed:

  • What is the current sales trend of FCEVs? Who are the major OEMs in the market and what are their key models?
  • How will the scenario change by 2030 in terms of sales? How will OEMs and regions perform in the year and who will lead the market?
  • What is the current hydrogen production and costs scenario and how will it change by 2030? What will be its impact on FCEV sales?
  • What are the goals and targets of governments and how are they pushing the growth of FCEV and its related markets?
  • How many refueling stations are currently in operation in different regions? What is the cost of establishing such stations and how will it reduce? How many refueling stations will be available in 2030?

Table of Contents

Executive Summary

  • Top Level Factsheet
  • Top Level Factsheet by Region
  • Current Market Size-Top Markets by Sales Volume
  • FCEV Milestones and Targets Set by Countries
  • Market Scenario Analysis
  • FCEV Market Breakdown by OEM
  • Fuel Cell Vehicles: Announced and Speculated Launches
  • Subsidies and Incentives across the World
  • Subsidies and Incentives-Top Countries
  • Global Fuel Cell Industry-Partnerships
  • Global H2 Production
  • Methods of Hydrogen Production
  • Hydrogen Production Hotspots
  • Hydrogen Production-Efficiencies and Costs by Region
  • Hydrogen Fuel Retail Cost Estimates
  • Map of H2 Refueling Stations around the World
  • Hydrogen Fuel Station Installation Base

Research Scope, Objectives, and Methodology

  • Research Scope
  • Research Aims and Objectives
  • Key Questions This Study Will Answer
  • Research Methodology
  • Product Segmentation-Electric Propulsion Technology

Total Market for FCEVs and Hydrogen Infrastructure

  • Driving Performance and Range-By Powertrain
  • Current FCEVs and Specifications
  • Future Models-Specifications
  • Market Scenario Analysis
  • FCEV Market Breakdown by OEM
  • Global Fuel Cell Industry-Partnerships
  • Global Fuel Cell Industry-Partnerships (continued)
  • Global Fuel Cell Industry-Partnerships (continued)
  • Global Fuel Cell Stack Shipments
  • Global H2 Production
  • Hydrogen Fuel Production Cost
  • Hydrogen Fuel Production Cost using Natural Gas
  • Hydrogen Delivery
  • Map of H2 Refueling Stations around the World
  • Hydrogen Fuel Station Installation Base
  • Technology Roadmap-PCs
  • H2 Fuel Cell System Cost Breakup

North America

  • North America-FCEV Market Factsheet
  • United States-Incentives and Taxation Structure
  • United States-Funding and Targets for H2 Development
  • United States-H2 Production
  • Case Study-California Fuel Cell Partnership (CaFCP)
  • United States-H2 Refueling Network
  • North America-Hydrogen and Fuel Cell Program
  • North America-Projects in Fuel Cell Technology

Europe

  • Europe-FCEV Market Factsheet
  • Europe-FCEV Market Forecasts
  • Europe-Subsidies and Incentives
  • Europe-Important Partnerships
  • Europe-Important Partnerships (continued)
  • Europe-Key Projects
  • Europe-Key Projects (continued)
  • Europe-Government Funding/Investments
  • Europe-H2 Refueling Stations
  • Europe-H2 Production Capacities

South Korea

  • South Korea-FCEV Market Factsheet
  • South Korea-H2 Refueling Stations
  • South Korea-Refueling Stations List
  • South Korea-Government Funding/Investments
  • South Korea-Hydrogen-powered Cities for 2022

Japan

  • Japan-FCEV Market Factsheet
  • Japan-H2 Refueling Stations
  • Japan-Strategic Targets for Hydrogen and Fuel Cells
  • Japan H2 Mobility (JHyM)
  • Japan-Government Support
  • Japan-H2 Refueling Stations: Regulations, Standards, and Guidelines

China

  • China-FCEV Market Forecasts
  • China-Hydrogen Fueling Infrastructure
  • New Energy Vehicle (NEV) Policy
  • Chinese FC Market-Hydrogen Infrastructure Cost Overview
  • China-Hydrogen Production
  • China-FCEV Targets
  • China-Local Policies for H2 Development
  • Chinese FC Market-Fuel Cell Technology Roadmap
  • Chinese FC Market-Fuel Cell Development Roadmap

Suppliers

  • China-Snapshot of Key Industry Participants
  • Global (ex China)-Snapshot of Key Industry Participants

Growth Opportunities and Companies to Action

  • Growth Opportunity-Social Collaboration
  • Strategic Imperatives for the FCEV Market
  • Abbreviations and Acronyms Used

Conclusions

  • Conclusion
  • Legal Disclaimer

Appendix

  • Market Engineering Methodology
  • List of Exhibits
  • List of Exhibits (continued)
  • List of Exhibits (continued)
  • List of Exhibits (continued)
  • List of Exhibits (continued)
  • List of Exhibits (continued)
  • List of Exhibits (continued)
  • List of Exhibits (continued)
  • List of Exhibits (continued)
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