水素の輸送と供給の世界市場：水素輸送と供給のオプションの予測と分析

あらゆる形態の水素の推定世界需要は、2020年の需要に対し、2030年までに2倍、2050年までに約5倍に増加すると予想されており、水素の生成、輸送、流通、および貯蔵のためのインフラも拡大する必要があると考えられています。この成長には、低炭素水素の低コスト生産が不可欠であり、これには安価な再生可能エネルギー資源や炭素回収および貯留インフラへのアクセスが必要となります。資源の利用可能性に差があるため、低炭素水素のコストは地域によって異っています。

当レポートでは、世界の水素の輸送と供給市場を調査し、新興の水素経済の状況、インフラの潜在的な成長、市場促進要因と障壁、および技術動向などの情報を提供しています。

目次

第1章 エグゼクティブサマリー

• 水素の輸送と供給に対する新たなニーズ
• 世界の展望

第2章 市場の問題

• イントロダクション
• 水素輸送と供給技術
  • パイプラインを利用した水素輸送
  • 船舶を利用した水素輸送
  • 道路を利用した水素輸送
  • さまざまな水素輸送と供給のオプション比較
• 市場促進要因
  • 水素の脱炭素化ポテンシャル
  • 産業クラスターと水素燃料補給ステーションへの水素供給
  • 既存インフラストラクチャを活用した水素輸送の可能性
  • 水素貿易
• 市場の障壁
  • グリーン水素の生産と輸送には多額の設備投資が必要
  • 水素の長距離輸送に関するインフラストラクチャ課題
  • 水素輸送に関する技術的課題
  • 水素輸送に関する制度的課題
• 主要業績評価指標

第3章 市場予測

• 調査手法
• 世界の市場概要
  • 水素輸送と供給の能力予測
  • 水素輸送と供給の収益予測
  • 水素輸送と供給の予測：技術別
• 地域市場概要
  • 北米
  • 欧州
  • アジア太平洋
  • ラテンアメリカ
  • 中東・アフリカ

第4章 結論と提言

第5章 頭字語と略語のリスト

第6章 目次

第7章 図表

第8章 調査範囲、情報源と調査手法、メモ

LIST OF CHARTS AND FIGURES

• Hydrogen Transport and Delivery Technology Capacity by Region, World Markets: 2022-2031
• Hydrogen Transport and Delivery Technology Capacity by Region, World Markets: 2022-2031
• Hydrogen Transport and Delivery Technology Revenue by Region, World Markets: 2022-2031
• Hydrogen Transport and Delivery Capacity by Technology, World Markets: 2022-2031
• Hydrogen Transport and Delivery Revenue by Technology, World Markets: 2022-2031
• Hydrogen Transport and Delivery Capacity by Technology, North America: 2022-2031
• Hydrogen Transport and Delivery Revenue by Technology, North America: 2022-2031
• Hydrogen Transport and Delivery Capacity by Technology, Europe: 2022-2031
• Hydrogen Transport and Delivery Revenue by Technology, Europe: 2022-2031
• Hydrogen Transport and Delivery Capacity by Technology, Asia Pacific: 2022-2031
• Hydrogen Transport and Delivery Revenue by Technology, Asia Pacific: 2022-2031
• Hydrogen Transport and Delivery Capacity by Technology, Latin America: 2022-2031
• Hydrogen Transport and Delivery Revenue by Technology, Latin America: 2022-2031
• Hydrogen Transport and Delivery Capacity by Technology, Middle East & Africa: 2022-2031
• Hydrogen Transport and Delivery Revenue by Technology, Middle East & Africa: 2022-2031

LIST OF TABLES

• Hydrogen Transport and Delivery Technology Capacity by Region, World Markets: 2022-2031
• Hydrogen Transport and Delivery Technology Revenue by Region, World Markets: 2022-2031
• Hydrogen Transport and Delivery Capacity by Technology, World Markets: 2022-2031
• Hydrogen Transport and Delivery Revenue by Technology, World Markets: 2022-2031
• Hydrogen Transport and Delivery Capacity by Technology, North America: 2022-2031
• Hydrogen Transport and Delivery Revenue by Technology, North America: 2022-2031
• Hydrogen Transport and Delivery Capacity by Technology, Europe: 2022-2031
• Hydrogen Transport and Delivery Revenue by Technology, Europe: 2022-2031
• Hydrogen Transport and Delivery Capacity by Technology, Asia Pacific: 2022-2031
• Hydrogen Transport and Delivery Revenue by Technology, Asia Pacific: 2022-2031
• Hydrogen Transport and Delivery Capacity by Technology, Latin America: 2022-2031
• Hydrogen Transport and Delivery Revenue by Technology, Latin America: 2022-2031
• Hydrogen Transport and Delivery Capacity by Technology, Middle East & Africa: 2022-2031
• Hydrogen Transport and Delivery Revenue by Technology, Middle East & Africa: 2022-2031
• Comparison of Different Hydrogen Transport and Delivery Technologies

With the estimated global demand for all forms of hydrogen expected to increase two-fold by 2030 and approximately five-fold by 2050 over 2020 demand, the infrastructure for its generation, transport, distribution, and storage must also scale. Integral to this growth is low-cost production of low carbon hydrogen, which requires inexpensive renewable energy resources or access to carbon capture and storage infrastructure. Differences in resource availability mean that the cost of low carbon hydrogen varies across regions.

A hydrogen transportation infrastructure is required to ensure that hydrogen produced in one region can be delivered to a demand site in another. The three mediums for transporting hydrogen are pipelines, transporting gaseous hydrogen through existing or dedicated pipelines; ships, transporting hydrogen and its derived fuels in the liquid state across different ports; and road, predominantly used for last mile delivery of hydrogen in its compressed or liquid state. Governing the selection of the hydrogen transport medium are factors such as the quantity of hydrogen to be supplied, the presence of an existing infrastructure, and the cost-effectiveness of the transportation technology.

This Guidehouse Insights report provides forecasts for the market potential for hydrogen transport and delivery technologies. It describes the status of the emerging hydrogen economy and the potential growth of its infrastructure. The report covers North America, Europe, Asia Pacific, Latin America, and the Middle East & Africa and includes 10-year forecasts through 2031. It also provides insights on market drivers and barriers and technology trends in the hydrogen transport and delivery technologies market.

KEY QUESTIONS ADDRESSED:

• What is driving adoption of hydrogen transport and delivery technologies?

• What market barriers are the hydrogen transport and delivery technologies market facing?

• What are the pros and cons and maturity of different hydrogen transport and delivery technologies?

• How does the hydrogen transport and delivery technologies market vary by region?

• What is the expected global revenue and capacity of hydrogen transport and delivery technologies in 2031?

WHO NEEDS THIS REPORT:

• Electrolyzer manufacturers
• Government agencies
• Hydrogen nonprofits and research organizations
• Renewable technology developers
• Utilities
• On-road and off-road transportation companies
• Investor community

Table of Contents

1. Executive Summary

• 1.1. Emerging Need for Transportation and Delivery of Hydrogen
• 1.2. Global Outlook

2. Market Issues

• 2.1. Introduction
• 2.2. Hydrogen Transport and Delivery Technologies
  • 2.2.1. Hydrogen Transport via Pipelines
  • 2.2.2. Hydrogen Transport via Ships
  • 2.2.3. Hydrogen Transport via Road
  • 2.2.4. Comparison of Different Hydrogen Transport and Delivery Options
• 2.3. Market Drivers
  • 2.3.1. The Decarbonization Potential of Hydrogen
  • 2.3.2. Supplying Hydrogen to Industrial Clusters and Hydrogen Refueling Stations
  • 2.3.3. Potential for Hydrogen Transport to Leverage Existing Infrastructure
  • 2.3.4. Hydrogen Trade
• 2.4. Market Barriers
  • 2.4.1. Extensive Capital Investment Is Required for the Production and Transportation of Green Hydrogen
  • 2.4.2. Infrastructural Challenges for Transportation of Hydrogen over Long Distances
  • 2.4.3. Technical Challenges with the Transportation of Hydrogen
  • 2.4.4. Institutional Challenges with Transporting Hydrogen
• 2.5. Key Performance Indicators

3. Market Forecasts

• 3.1. Methodology
• 3.2. Global Market Overview
  • 3.2.1. Hydrogen Transport and Delivery Capacity Forecast
  • 3.2.2. Hydrogen Transport and Delivery Revenue Forecast
  • 3.2.3. Hydrogen Transport and Delivery Forecast by Technology
• 3.3. Regional Market Overview
  • 3.3.1. North America
  • 3.3.2. Europe
  • 3.3.3. Asia Pacific
  • 3.3.4. Latin America
  • 3.3.5. Middle East and Africa

4. Conclusions and Recommendations

5. Acronym and Abbreviation List

6. Table of Contents

7. Table of Charts and Figures

8. Scope of Study, Sources and Methodology, Notes