サンプル依頼リスト カート
  • English
  • Korean
  • Traditional Chinese
  • Simplified Chinese
表紙:高圧水素容器の世界市場(2023年~2028年)
市場調査レポート
商品コード
1403889

高圧水素容器の世界市場(2023年~2028年)

Hydrogen Storage Pressure Vessel Market - (2023-2028)
出版日: | 発行: IndustryARC | ページ情報: 英文 132 Pages | 納期: 2~3営業日

● お客様のご希望に応じて、既存データの加工や未掲載情報(例:国別セグメント)の追加などの対応が可能です。  詳細はお問い合わせください。

価格
価格表記: USDを日本円(税抜)に換算
本日の銀行送金レート: 1USD=156.76円
高圧水素容器の世界市場(2023年~2028年)
出版日: 2023年12月01日
発行: IndustryARC
ページ情報: 英文 132 Pages
納期: 2~3営業日
  • 全表示
  • 概要
  • 目次
概要

世界の高圧水素容器の市場規模は、2028年までに12億米ドルに達し、予測期間の2023年~2028年にCAGRで30.8%の成長が見込まれています。

要点

南米が高圧水素容器市場においてもっとも高い成長率を示しています。ブラジルは、太陽光、風力、水力などの再生可能エネルギー資源が豊富です。グリーン水素は、従来の水素生成技術に代わる持続可能で環境に有益なものと考えられており、これらの資源を利用して生成することができます。グリーン水素発電の増加に伴い、高圧水素容器のような効果的な貯蔵オプションに対する需要が高まっています。

促進要因 - 高圧水素容器市場

技術研究と能力拡張への投資の増加

持続可能なエネルギー技術への需要が高まるにつれて、水素は航空宇宙、鉄道、海運、大型商用車など、電池やその他のエネルギー貯蔵オプションよりも優れたパフォーマンスを発揮する分野でますます使用されるようになります。

これらすべての用途で高圧水素容器の使用が必要となり、市場需要が増加します。水素エネルギーは政府のネットゼロ戦略において、より重要性を増しています。その結果、熟練した設計と生産能力への需要が高まっています。企業は、技術開発や製造能力の増強に投資することで、この需要に対応する予定です。

例えば、2023年8月、NPROXXはBMW iX5用のまったく新しい水素貯蔵容器を開発しました。2022年にFCEV用の新しいR134規格が施行されたとき、NPROXXのソリューションは、それに準拠した最初の700気圧の容器の1つとなっています。まとめると、BMW iX5 Hydrogen用の水素タンクシステムを設計するためのNPROXXとBMWグループの提携は、自動車部門における従来の燃料源のクリーンで効果的な代替品としての水素の可能性を示す上で、両社のパートナーシップが大きな影響力を持つことを示しています。

メタノールとアンモニアの需要の増加が市場成長を促進

バイオ燃料市場の拡大による産業の発展が、メタノールとアンモニアの需要を押し上げると思われます。水素をアンモニウムのかたちで化学貯蔵することは、水素高圧容器に水素を安全に貯蔵する効率的な方法です。アンモニア、メタン、メタノールは水素を多く含む化合物であり、水素流通貯蔵媒体に関する消費者の知識が深まるにつれて、市場の成長とシェアを促進しています。その結果、高圧水素容器市場は、これらの化学品への需要の増加に伴い、世界的に拡大すると予測されます。

Ammonia Energy Associationの2023年のレポートによると、欧州では毎年約250万トンの水素がアンモニアを生成するための原料として使用されており、現在の水素使用の3分の1超を占めています。水素の大半は現地で生産されるため、アンモニア部門は石油精製に次ぐ水素の生産者であり消費者でもあります。

水素の流通・輸送システムには、よく知られた課題があり、技術的にも未熟であることから、アンモニアは有用な水素の輸送手段となる可能性があります。炭素を含まないエネルギーキャリアーであるアンモニアは、適切な条件下で水素を貯蔵するソリューションを提供できる可能性があり、脱炭素エネルギーシステムの潜在的な選択肢として、ますます研究が進んでいます。

課題 - 高圧水素容器市場

規制情勢に対する厳しい要件への対応

厳しい規制は、高圧水素容器市場にとって大きなハードルです。複合材高圧容器は、自動車や輸送・流通の水素貯蔵においてすでに重要な役割を果たしており、この製品セグメントにおける将来の成長可能性は計り知れません。しかし、航空や大型輸送などの重大な用途における性能と安全性に関する規制は厳しく、メーカーは最適な化学と製造プロセスを選択するために樹脂サプライヤーに頼らざるをえません。

水素貯蔵の登場により、特に350~700barという高い圧力が要求されることから、技術的ハードルが生じています。例えば、Global Technical Regulation on Hydrogen and Fuel Cell Vehicles(GTR No.13)では、高い安全性マージンの圧力試験に加え、耐衝撃性、化学品への暴露、いくつかの温度/圧力サイクル試験が義務付けられています。水素貯蔵タンクの耐圧性は主に強化繊維の性能によって決まりますが、樹脂マトリクスも熱、化学品、衝撃に対する保護や、充填と排出の繰り返しに耐える耐疲労性と耐圧サイクル性を提供することで大きく寄与しています。それゆえ、世界中の厳しい法律や基準、そして競合の激化が主要地域における市場拡大を妨げると予測されます。その結果、これらの変数が市場に悪影響を及ぼし、高圧水素容器の需要が低下する可能性があります。

当レポートでは、世界の高圧水素容器市場について調査し、市場シェア、促進要因、セグメント、地域、主要企業などの分析を提供しています。

目次

第1章 高圧水素容器市場 - 市場の概要

  • 定義と範囲

第2章 高圧水素容器市場 - エグゼクティブサマリー

  • 市場の収益、市場規模、主要動向:企業別

第3章 高圧水素容器市場 - 情勢

  • 比較分析
    • 市場シェア分析 - 主要企業
    • 製品ベンチマーク - 主要企業
    • 5大財務分析
    • 特許分析 - 主要企業
    • 価格分析

第4章 高圧水素容器市場 - スタートアップ企業シナリオ(プレミアム)

  • 主要スタートアップ企業の分析
    • 投資
    • 収益
    • 市場シェア
    • 市場規模と用途分析
    • ベンチャーキャピタルと資金調達のシナリオ

第5章 高圧水素容器市場 - 産業の市場参入シナリオ(プレミアム)

  • 規制枠組みの概要
  • 新しいビジネスとビジネスのしやすさに関する指標
  • 成功したベンチャー企業のケーススタディ
  • 顧客分析 - 主要企業

第6章 高圧水素容器市場 - 市場要因

  • 市場促進要因
  • 市場抑制要因
  • ポーターのファイブフォース分析モデル

第7章 高圧水素容器市場 - 戦略的分析

  • バリューチェーン分析
  • 機会の分析
  • サプライヤーと販売業者の分析

第8章 高圧水素容器市場 - 圧力レベル別

  • 圧力レベル250Bar
  • 圧力レベル300Bar
  • 圧力レベル500Bar
  • 圧力レベル700Bar

第9章 高圧水素容器市場 - 分類別

  • タイプI
  • タイプII
  • タイプIII
  • タイプIV

第10章 高圧水素容器市場 - 用途別

  • エネルギー用途
  • 自動車用途
  • モバイル用途
  • 宇宙用途
  • その他

第11章 高圧水素容器市場 - 地域別

  • 北米
    • 米国
    • カナダ
    • メキシコ
  • 南米
    • ブラジル
    • アルゼンチン
    • その他の南米
  • 欧州
    • 英国
    • ドイツ
    • イタリア
    • フランス
    • その他の欧州
  • アジア太平洋
    • 中国
    • インド
    • 日本
    • 韓国
    • その他のアジア太平洋

第12章 高圧水素容器市場 - エントロピー

  • 新製品の発売
  • M&A、提携、JV、パートナーシップ

第13章 高圧水素容器シェア分析(プレミアム)

  • 市場シェア - 主要企業:国別
  • 市場シェア - 主要企業:地域別
  • 市場シェア - 主要企業:製品タイプ/製品カテゴリ別
  • 世界レベルの市場シェア - 主要企業
  • 企業にとってのベストプラクティス

第14章 高圧水素容器市場 - 主要企業のリスト:国別(プレミアム)

第15章 高圧水素容器市場の企業の分析(企業の収益、製品、M&A、発展)

目次
Product Code: EPR 0109

The Hydrogen Storage Pressure Vessel market size is forecast to reach USD 1.2 billion by 2028, after growing at a CAGR of 30.8% during the forecast period 2023-2028. Physically hydrogen can be stored as a liquid or as a gas. Generally, high-pressure tanks (tank pressure:250-700 bar) are needed to store hydrogen as a gas. Because the hydrogen boiling point is-252.8°C at one atmospheric pressure, liquid hydrogen storage needs cryogenictemperatures. Strong, lightweight materials like carbon fiber or metal alloys are commonly used for manufacturing hydrogen pressure vessels, which are built to resist the high pressures needed for hydrogen storage.

Report Coverage

The report "Hydrogen Storage Pressure Vessel Market- Forecast (2023-2028)", by IndustryARC, covers an in-depth analysis of the following segments of Hydrogen StoragePressure Vessel. By Pressure Level: Pressure Level, Pressure Levels 250 Bar, Pressure Levels 300 Bar, Pressure Levels 500 Bar, Pressure Levels 700 Bar

By Classification: Type I, Type II, Type III, Type IV

By Application: Energy Application, Automotive Application, Mobile Application, Space Application, Others.

By Geography: North America, South America, Europe, APAC.

Key Takeaways

The South America signifies the fastest growth rate in the hydrogen storage pressure vessel market. Brazil has a wealth of renewable energy resources, especially solar, wind, and hydropower. Green hydrogen, which is seen as a sustainable and environmentally beneficial substitute for traditional hydrogen production techniques, can be produced by utilizing these resources. There is a growing demand for effective storage options, such as hydrogen storage pressure vessels, as green hydrogen generation rises. For instance, In June 2023, in a Glimpse Into Renewable Energy's Future The University of Sao Paulo (USP), Shell Brasil, Raizen, Hytron, and Senai's biosynthetic and fibers innovation section, Cetiqt, worked together to create this ground-breaking project. The project includes building a hydrogen production facility and attempts to validate ethanol reforming technology.

On 13 January 2023, DSM Engineering Materials launched two new grades in its

Akulon® Fuel Lock range, FLX40-HP, and FLX-LP, for use as liner materials in Type IV pressure vessels for hydrogen storage. Manufacturers of tanks and pressure vessels will be able to achieve more robust processing performance and greater resilience in larger, sustainable designs by incorporating new materials.

On 21 February 2023, Through its first funding competition, the Alberta Hydrogen Centre of Excellence (HCOE) is giving $20 million to 18 projects that successfully promote hydrogen technology. Initiatives supported by Alberta Innovates will focus on advancing the development and application of technologies centered on hydrogen, constructing an independent and sustainable clean hydrogen economy in Alberta, and bolstering the province's technological lead in the use of clean hydrogen technologies. The Canadian market for hydrogen storage pressure vessels will be fueled by substantial investments.

By Pressure Level- Segment Analysis

Pressure Levels 250 Bar dominated the market in 2022. At a pressure of 250 bar, hydrogen can be stored. High-pressure tanks with a 250 bar pressure can hold hydrogen. For many years, compressed natural gas vehicles have safely utilized these tanks. The rise in environmental awareness, government initiatives to create and expand natural gas distribution infrastructure, and rising fuel costs are driving the growth of the worldwide automotive natural gas vehicle market. However, the increase in demand for electric vehicles is impeding the market's growth. Moreover, during the forecast period, growth prospects are anticipated due to the element of rising demand from emerging nations.

As the demand for clean transportation solutions grows, there could be increased interest in hydrogen-powered vehicles, particularly those utilizing 250-bar storage systems. This can drive market growth and investment in the hydrogen infrastructure.

By Classifications- Segment Analysis

Type III classification occupied a dominant position in the hydrogen storage pressure vessel market in 2022. A composite tank composed of aramid, glass fiber, or carbon fiber is called a

Type III pressure vessel. It features an aluminum or steel metal liner. The load is carried by the exterior carbon fiber vessel. Liquids and gasses are distributed and stored at high pressure using Type III pressure vessels.

These are composite carbon-fiber vessels with an inside steel or aluminum vessel. To handle the desired working pressure of 300 bar, a type III pressure vessel with an aluminum liner completely encased in carbon fiber composite was used.

By Application-Segment Analysis The Energy Application accounted for the largest share of the market in 2022. Hydrogen can play a key role in storing excess energy generated from renewable sources like wind and solar. High-pressure storage vessels enable the storage of hydrogen produced through electrolysis during periods of excess renewable energy production. According to IEA estimates, energy investments will total over USD 2.8 trillion by 2023. Clean energy, which includes nuclear power, storage, grids, low-emission fuels, renewable energy, efficiency upgrades, end-use renewables, and electrification, will cost more than USD 1.7 trillion. Hydrogen is considered a clean energy carrier as it can be produced using renewable energy sources and has the potential to replace traditional fossil fuels in various sectors. Energy investments are increasingly directed towards hydrogen technologies as part of efforts to transition to cleaner energy alternatives.

By Geography - Segment Analysis

The Europe region in the hydrogen storage pressure vessel market is anticipated to hold a major share with a CAGR of 28.66% during the forecast period (2023-2028). On 28 April 2023, Developing high-performance hydrogen powertrain solutions for the automobile sector, Viritech (Nuneaton, Warwickshire, U.K.) announced that it is expanding its partnership with Haydale a provider of functionalized graphene-enhanced nanomaterials.

The two companies will collaborate to develop Type V, linerless composite pressure vessel solutions for the storage of hydrogen in automotive applications.

Hydrogen storage and distribution pressure vessel prototypes will be built thanks to funding obtained through the Scottish Government's Hydrogen Innovation Scheme On 01 June 2023, by Glacier Energy, one of the leading global providers of specialized goods, services, and engineered solutions for renewable and conventional energy markets. The project that was granted looked into the possibility of producing an affordable, low-cost hydrogen storage vessel in partnership with Robert Gordon University. Thirty-two initiatives aimed at promoting innovation in the generation, delivery, and storage of renewable hydrogen in

Scotland received funding from the £7 ($8.49) million Hydrogen Innovation Scheme.

Drivers - Hydrogen Storage Pressure Vessel Market

Increasing Investments in Technology Research and Capacity Expansion:

As the demand for sustainable energy technologies grows, hydrogen will be increasingly used in areas where it outperforms batteries and other energy storage options, including aerospace, rail, maritime, and heavy-duty commercial vehicles.

All of these applications will necessitate the use of hydrogen storage pressure vessels, increasing market demand. Hydrogen energy is becoming more relevant in governments net-zero strategies. As a result, there is an increased demand for skilled design and production capabilities. Companies intend to accommodate this demand by investing in technology development and increasing manufacturing capacity.

For example, in August 2023, NPROXX created a brand-new hydrogen storage container for the BMW iX5. When the new R134 standard for FCEVs went into force in 2022, the NPROXX solution was among the first 700 bar boats to comply with it. In summary, the collaboration between NPROXX and the BMW Group to design the hydrogen tank system for the BMW iX5 Hydrogen demonstrates the significant impact of their partnership in showcasing the potential of hydrogen as a clean and effective substitute for conventional fuel sources in the automotive sector.

Rising Demand for Methanol and Ammonia to Drive Market Growth:

Industrial development will result from the growing market for biofuels, which would drive up demand for methanol and ammonia. Chemical storage of hydrogen in the form of ammonium is an efficient method of safely storing hydrogen in hydrogen pressure vessels. Ammonia, methane, and methanol are hydrogen-rich compounds that are driving market growth and share as consumer knowledge of hydrogen distribution storage mediums has grown. As a result, the market for hydrogen storage pressure vessels is expected to expand globally as demand for these chemicals rises.

According to the Ammonia Energy Association 2023 report, around 2.5 Mt of hydrogen is used as a feedstock to create ammonia in Europe each year, accounting for over a third of total current hydrogen usage. Because the majority of hydrogen is produced on-site, the ammonia sector is both the greatest producer and consumer of hydrogen, second only to oil refining.

Given the well-acknowledged challenges with hydrogen distribution and transportation systems, as well as their technological immaturity, ammonia could be a useful hydrogen transporter. Ammonia, a carbon-free energy carrier that could provide a solution to store hydrogen under moderate conditions, is increasingly being studied as a potential option for decarbonized energy systems. Challenges - Hydrogen Storage Pressure Vessel Market

Meeting Stringent Requirements for a Regulatory Landscape:

Stringent regulations are a major hurdle for the Hydrogen Storage Pressure Vessels market. Composite pressure vessels are already playing an important part in hydrogen storage, both in vehicles and for transport and distribution, and the future growth potential in this product segment is immense. However, performance and safety regulations in critical applications such as aviation and heavy-duty transportation are rigorous, and manufacturers must rely on resin suppliers to select the best chemistry and manufacturing process.

The emergence of hydrogen storage has created technical hurdles, particularly given the higher pressure requirements, which can range between 350 and 700 bar. For instance, impact resistance, chemical exposure, and several temperature/pressure-cycling tests are mandated in addition to high-safety-margin pressure testing under the Global Technical Regulation on Hydrogen and Fuel Cell Vehicles (GTR No. 13). Pressure resistance in hydrogen storage tanks is primarily determined by the performance of the reinforcing fibers, but the resin matrix also contributes significantly by offering protection against thermal, chemical, and impact exposure as well as fatigue and pressure cycling resistance to withstand repeated filling and emptying cycles. Hence, Stringent laws and standards around the world, as well as

increased rivalry, are expected to stymie market expansion in key regions. As a result, these variables may have a detrimental impact on the market, resulting in lower demand for hydrogen storage pressure vessels.

Market Landscape

In 2022, the top ten players in the hydrogen storage pressure vessel market share accounted for 71.7% of the share. Major players in the hydrogen storage vessel market are Hanwha, Plastic Omnium, ILJIN Hysolus, Worthington Industries, Chart Industries, Voith Composites, CIMC Enric, Hensoldt, and Others.

Developments:

In July 2022, Hanwha Solutions declared that it had joined Shell's endeavors to construct a substantial hydrogen refueling network in California. Hanwha

Cimarron, a hydrogen tank production subsidiary of Hanwha Solution, will supply Type IV high-pressure Neptune tanks.

Iljin Hysolus joins the Hyzon Alliance to raise the Alliance's aspirations by providing its knowledge of hydrogen storage solutions. The Alliance will improve both its present and prospects for deploying hydrogen-powered automobiles in October 2021.

In 2021, ThermaGuard hydrogen cylinders are a new product that Worthington Industries, Inc launched a new product. It is designed to meet the specific requirements of hydrogen fuel. ThermaGuard hydrogen cylinders, painstakingly designed to meet Worthington's aerospace-grade standards, are a more effective way to store and transport high-pressure hydrogen gas.

Table of Contents

1. Hydrogen Storage Pressure Vessel Market- Market Overview

  • 1.1 Definitions and Scope

2. Hydrogen Storage Pressure Vessel Market- Executive Summary

  • 2.1 Market Revenue, Market Size and Key Trends by Company

3. Hydrogen Storage Pressure Vessel Market- Landscape

  • 3.1 Comparative analysis
    • 3.1.1 Market Share Analysis- Top Companies
    • 3.1.2 Product Benchmarking- Top Companies
    • 3.1.3 Top 5 Financials Analysis
    • 3.1.4 Patent Analysis- Top Companies
    • 3.1.5 Pricing Analysis

4. Hydrogen Storage Pressure Vessel Market - Startup companies Scenario Premium Premium

  • 4.1 Top Startup Company Analysis by
    • 4.1.1 Investment
    • 4.1.2 Revenue
    • 4.1.3 Market Shares
    • 4.1.4 Market Size and Application Analysis
    • 4.1.5 Venture Capital and Funding Scenario

5. Hydrogen Storage Pressure Vessel Market - Industry Market Entry Scenario Premium Premium

  • 5.1 Regulatory Framework Overview
  • 5.2 New Business and Ease of Doing business index
  • 5.3 Case studies of successful ventures
  • 5.4 Customer Analysis - Top companies

6. Hydrogen Storage Pressure Vessel Market- Market Forces

  • 6.1 Market Drivers
  • 6.2 Market Constraints
  • 6.3 Porters five force model
    • 6.3.1 Bargaining power of suppliers
    • 6.3.2 Bargaining powers of customers
    • 6.3.3 Threat of new entrants
    • 6.3.4 Rivalry among existing players
    • 6.3.5 Threat of substitutes

7. Hydrogen Storage Pressure Vessel Market -Strategic analysis

  • 7.1 Value chain analysis
  • 7.2 Opportunities analysis
  • 7.3 Suppliers and Distributors Analysis

8. Hydrogen Storage Pressure Vessel Market- By Pressure Level (Market Size -$Billion)

  • 8.1 Pressure Levels 250 Bar
  • 8.2 Pressure Levels 300 Bar
  • 8.3 Pressure Levels 500 Bar
  • 8.4 Pressure Levels 700 Bar

9. Hydrogen Storage Pressure Vessel Market- By Classification (Market Size -$Billion)

  • 9.1 Type I
  • 9.2 Type II
  • 9.3 Type III
  • 9.4 Type IV

10. Hydrogen Storage Pressure Vessel Market- By Application (Market Size -$Billion)

  • 10.1 Energy Application
  • 10.2 Automotive Application
  • 10.3 Mobile Application
  • 10.4 Space Application
  • 10.5 Others

11. Hydrogen Storage Pressure Vessel Market - By Geography (Market Size -$Billion)

  • 11.1 North America
    • 11.1.1 U.S.
    • 11.1.2 Canada
    • 11.1.3 Mexico
  • 11.2 South America
    • 11.2.1 Brazil
    • 11.2.2 Argentina
    • 11.2.3 Rest of South America
  • 11.3 Europe
    • 11.3.1 U.K
    • 11.3.2 Germany
    • 11.3.3 Italy
    • 11.3.4 France
    • 11.3.5 Rest of Europe
  • 11.4 Asia Pacific
    • 11.4.1 China
    • 11.4.2 India
    • 11.4.3 Japan
    • 11.4.4 South Korea
    • 11.4.5 Rest of Asia Pacific

12. Hydrogen Storage Pressure Vessel Market- Entropy

  • 12.1 New Product Launches
  • 12.2 M&A's, Collaborations, JVs and Partnerships

13. Hydrogen Storage Pressure Vessel Share Analysis Premium

  • 13.1 Market Share by Country- Top companies
  • 13.2 Market Share by Region- Top companies
  • 13.3 Market Share by type of Product / Product category- Top companies
  • 13.4 Market Share at global level- Top companies
  • 13.5 Best Practices for companies

14. Hydrogen Storage Pressure Vessel Market - List of Key Companies by Country Premium

15. Hydrogen Storage Pressure Vessel Market Company Analysis

(Company Revenue, Products, M&A, Developments)

  • 15.1 Company 1
  • 15.2 Company 2
  • 15.3 Company 3
  • 15.4 Company 4
  • 15.5 Company 5
  • 15.6 Company 6
  • 15.7 Company 7
  • 15.8 Company 8
  • 15.9 Company 9
  • 15.10 Company 10

"*Financials would be provided on a best-efforts basis for private companies"