表紙:グリーン水素の世界市場の分析:プラントの生産能力、生産、プロセス、稼働効率、需給、最終用途産業、地域の需要(2015年~2032年)
年間契約型情報サービス
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グリーン水素の世界市場の分析:プラントの生産能力、生産、プロセス、稼働効率、需給、最終用途産業、地域の需要(2015年~2032年)

Global Green Hydrogen Market Analysis: Plant Capacity, Production, Process, Operating Efficiency, Demand & Supply, End-User Industries, Regional Demand, 2015-2032

出版日: 年間契約型情報サービス | 発行: ChemAnalyst | ページ情報: 英文

価格
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本日の銀行送金レート: 1USD=158.49円
グリーン水素の世界市場の分析:プラントの生産能力、生産、プロセス、稼働効率、需給、最終用途産業、地域の需要(2015年~2032年)
出版日: 年間契約型情報サービス
発行: ChemAnalyst
ページ情報: 英文
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  • 概要
  • 目次
概要

世界のグリーン水素の市場規模は急成長しており、2022年に約2万トンに達し、2032年までの予測期間にCAGRで132%の大幅な成長が見込まれています。近年、オーストラリアのToyota Corporationは、アルトナにあるToyota Australiaの廃止された自動車製造工場の一角をグリーン水素の再生可能エネルギーセンターに改造する、Toyota Ecopark Hydrogen Demonstration Projectという新しいプロジェクトの経営を開始しました。このプロジェクトの予算は約490万米ドルで、2023年1月に経営を開始しました。このセンターは、定置用エネルギーおよび輸送用エネルギーとして再生可能な水素を生産するために利用されます。

グリーン水素の拡大の主な理由は、グリーンアンモニアの合成です。グリーンアンモニアは、炭素を排出しない燃料、肥料、産業用発電、輸送として機能することができます。市場に寄与している主な理由の1つは、クリーンで再生可能なエネルギー源としての採用です。グリーン水素の需要は、二酸化炭素排出を削減できることから、近年大幅に増加しています。また、世界の需要の高まりにも対応しています。化石燃料に代わる長期的なエネルギー源であるため、その利用は増加すると予測されます。政府は、二酸化炭素排出を削減し、ゼロエミッションの目標を達成するためにさまざまなプログラムを立ち上げており、このことが将来的に市場を成長させると予測されます。全体の市場規模は大規模な成長を示し、予測期間に約1億2,500万トンに達する見込みです。

需要では、アジア太平洋が世界市場で大きなシェアを占めています。アジア太平洋は、2022年に世界市場の約50%のシェアを占めています。今後、アジア太平洋はエネルギー需要と再生可能エネルギーの両方で大きな発展を見せる可能性が高く、グリーン水素の重大な市場になる可能性があります。しかし、欧州がグリーン水素の第2位の消費国となっています。グリーン水素は、風車や電気自動車に電力を供給するための持続可能な主要エネルギー源であり、グリーン水素の利用を支持する厳しい政策もあります。

最終用途産業別では、グリーンアンモニアが主要セグメントであり、2022年の市場シェアは40%でした。また、輸送用燃料はグリーン水素のもう1つの重大な用途です。

当データベースでは、世界のグリーン水素市場について調査分析し、市場規模の予測や、生産能力と需要などのデータを提供しています。

オンラインデータをPDFまたはExcelとしてダウンロード可能です。データ内のテキスト等のコピー&ペースト及び、データの印刷は可能です。データは四半期ごとに更新されます。

目次

第1章 生産能力:企業別

第2章 生産能力:所在地別

第3章 生産能力:プロセス別

第4章 プラントの稼働効率

第5章 生産:企業別

第6章 需要:最終用途別

第7章 需要:地域別

第8章 需給ギャップ

第9章 価格分析と予測

目次
Product Code: 323

The global Green Hydrogen market has surged and reached roughly 20 thousand tonnes in 2022 and is expected to grow at a remarkable CAGR of 132% during the forecast period until 2032. Recently, Toyota Corporation, Australia started operating a new project named Toyota Ecopark Hydrogen Demonstration Project under which a sector of Toyota Australia's decommissioned car manufacturing plant in Altona was modified into a renewable energy center for Green Hydrogen. The project had a budget of approximately USD 4.9 million and began operating in January 2023. This center is utilized to produce renewable Hydrogen for both stationary energy and transportation energy usage.

Hydrogen is a gas utilized as an energy source that can also be employed as a raw material in the industrial sector. It is a primary element and is present naturally in nature. Traditional methods of extraction of Hydrogen are used to emit significant volumes of carbon dioxide. Green Hydrogen is synthesized by a clean method without any carbon dioxide emissions. The Water Electrolysis process, which separates water molecules into their Hydrogen and oxygen components, is used to produce green Hydrogen. Green Hydrogen is employed majorly for energy storage and power wind plants. In the future, its demand is anticipated to rise due to the reason that it is a renewable energy source. Although Energy Storage, Feedstock, and Transportation are the significant applications of Green Hydrogen, Energy Storage is the dominant application.

The leading reason for the expansion of green hydrogen is the synthesis of green ammonia. Green ammonia. Green ammonia can function as a zero-carbon emission fuel, fertilizer, industrial power generation, and transportation. One of the leading reasons contributing to the Green Hydrogen global market is its employment as a source of clean and renewable energy. The demand for green hydrogen has increased significantly in recent years due to its capacity to reduce carbon emissions. It also aids in meeting the growing demands of the world. Its use is anticipated to increase because it is a long-term energy source as a replacement for fossil fuels. The government has launched a variety of programmes to cut carbon emissions and reach the target of zero emissions, which is expected to grow the market for green hydrogen in the future years. The overall Green Hydrogen market is anticipated to experience massive growth and reach about 125000 thousand tonnes in the forecast period.

Based on demand, Asia Pacific holds the major share of the Green Hydrogen market all across the globe. Asia Pacific held a market share of roughly 50% of global Green Hydrogen in 2022. In the future, Asia Pacific will most likely experience high development in both energy demand and renewable energy, and it might be a significant market for green hydrogen. However, Europe stands as the second largest consumer of Green Hydrogen. Green Hydrogen is a sustainable and major source of energy in Europe to power windmills and electric vehicles along with stringent government policies which favor green hydrogen usage.

Based on the end-user industry, the Green Hydrogen market is segmented into various influential industries which are Green Ammonia, Transportation Fuel, Power & Heating, Refining, and Chemical Feedstock. Among these, Green Ammonia is the leading segment and held a market share of 40% in 2022. Moreover, Transportation Fuel is another impressive application of Green Hydrogen.

Significant companies for Global Green Hydrogen are Sinopec, Ningxia Baofeng Energy Group, Shell Plc, Jilin Chemical, Ohmium, Air Liquide, Acme Group, GAIL (India) Limited, Indian Oil Corporation Ltd, Toshiba Energy Systems and Solutions, SK Inc & Monolith, Hyosung Group, Linde Plc, Cleantech Group (Svevind Energy Group), N.V Nederlandse Gasunie, and others.

Years considered for this report:

Historical Period: 2015- 2022

Base Year: 2022

Estimated Year: 2023

Forecast Period: 2024-2032

The objective of the Study:

  • To assess the demand-supply scenario of Green Hydrogen, which covers the production, demand, and supply of Green Hydrogen around the globe.
  • To analyze and forecast the market size of Green Hydrogen.
  • To classify and forecast the Global Green Hydrogen market based on end-use and regional distribution.
  • To examine global competitive developments such as new capacity expansions, mergers & acquisitions, etc., of the Green Hydrogen market.

To extract data for the Global Green Hydrogen market, primary research surveys were conducted with Green Hydrogen manufacturers, suppliers, distributors, wholesalers, and Traders. While interviewing, the respondents were also inquired about their competitors. Through this technique, ChemAnalyst was able to include manufacturers that could not be identified due to the limitations of secondary research. Moreover, ChemAnalyst analyzed various segments and projected a positive outlook for the Global Green Hydrogen market over the coming years.

ChemAnalyst calculated Green Hydrogen demand around the globe by analyzing the historical data and demand forecast, which was carried out considering raw material to produce Green Hydrogen. ChemAnalyst sourced these values from industry experts and company representatives and externally validated them by analyzing the historical sales data of respective manufacturers to arrive at the overall market size. Various secondary sources, such as company websites, association reports, annual reports, etc., were also studied by ChemAnalyst.

Key Target Audience:

  • Green Hydrogen manufacturers and other stakeholders
  • Organizations, forums and alliances related to Green Hydrogen distribution
  • Government bodies such as regulating authorities and policy makers
  • Market research organizations and consulting companies

The study is useful in providing answers to several critical questions that are important for industry stakeholders such as Green Hydrogen manufacturers, customers and policy makers. The study would also help them to target the growing segments over the coming years, thereby aiding the stakeholders in taking investment decisions and facilitating their expansion.

Report Scope:

In this report, Global Green Hydrogen market has been segmented into following categories, in addition to the industry trends which have also been detailed below:

  • Market, by End-use: Green Ammonia, Transportation Fuel, Power & Heating, Refining, and Chemical Feedstock
  • Market, by Sales Channel: Direct Sale and Indirect Sale
  • Market, by Region: North America, Europe, Asia Pacific, Middle East and Africa, and South America.

Available Customizations:

With the given market data, ChemAnalyst offers customizations according to a company's specific needs.

Table of Contents

Table of Content

1. Capacity By Company

  • On our online platform, you can stay up to date with essential manufacturers and their current and future operation capacity on a practically real-time basis for Green Hydrogen.

2. Capacity By Location

  • To better understand the regional supply of Green Hydrogen by analyzing its manufacturers' location-based capacity.

3. Capacity By Process

  • To evaluate the demand of various methods and their capacities while looking for the future growth of each process.

4. Plant Operating Efficiency

  • To determine what percentage manufacturers are operating their plants or how much capacity is being currently used.

5. Production By Company

  • Study the historical annual production of Green Hydrogen by the leading players and forecast how it will grow in the coming years.

6. Demand by End- Use

  • Discover which end-user industry (Green Ammonia, Transportation Fuel, Power & Heating, Refining, and Chemical Feedstock) are creating a market and the forecast for the growth of the Green Hydrogen market.

7. Demand by Region

  • Analyzing the change in demand of Green Hydrogen in different regions, i.e., North America, Europe, Asia Pacific, Middle East and Africa, and South America, that can direct you in mapping the regional demand.

8. Demand-Supply Gap

  • Determine the supply-demand gap to gain information about the trade surplus or deficiency of Green Hydrogen.

9. Pricing Analysis & Forecast

  • Analyze historical prices since 2015 & Forecast on three months rolling period for next 12 months.
  • Years considered for this report:
  • Historical Period: 2015- 2022
  • Base Year: 2022
  • Estimated Year: 2023
  • Forecast Period: 2024-2032