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Green Hydrogen Market - Global Outlook & Forecast 2024-2029

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    Report

  • 313 Pages
  • February 2024
  • Region: Global
  • Arizton
  • ID: 5932694
1h Free Analyst Time
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The global green hydrogen market is expected to grow at a CAGR of 53.53% from 2023 to 2029.

MARKET OUTLOOK

Green hydrogen is produced by splitting water into hydrogen and oxygen using renewable electricity. This is quite a different pathway compared to gray and blue hydrogen. The green hydrogen market is in its nascent stage. Still, it holds substantial potential in addressing the challenges and limitations associated with directly replacing fossil fuels with electricity, particularly in industries requiring intense heat for processes such as steel, cement, glass, and chemicals. This unique capability positions hydrogen as a key player in decarbonizing industrial sectors, complementing electric arc furnaces (EAF) technologies in steelmaking.

Green hydrogen is emerging as a versatile and environment-friendly energy carrier in industries such as steelmaking. Moreover, the industrial sector can benefit from the green hydrogen market as a feedstock for the cleaner production of essential chemicals, including ammonia and organic. Green hydrogen is poised to play a crucial role, particularly in sectors such as shipping, aviation, and, to a lesser extent, heavy goods vehicles. The synthetic fuels derived from hydrogen, such as ammonia and methanol, and fuel cell technology offer promising solutions for decarbonizing these challenging sectors. However, it has been acknowledged that hydrogen faces stiff competition from other alternative fuel options, particularly battery electric vehicles, in light-duty vehicles such as passenger cars.

Presently, the European region stands out as a leader in implementing green hydrogen commercialization plants and supports the growth of the green hydrogen market. In contrast, areas including Latin America, the Middle East, and Asia Pacific are positioning themselves as future export hubs. The Middle East & Africa (MEA) region has abundant renewable energy sources, such as solar and wind, allowing the production of green hydrogen at a lower cost. This competitive advantage positions the MEA as a significant region in the export market, potentially challenging the established players in Asia Pacific and Europe.

FUTURE EXPORTERS OF GREEN HYDROGEN

India aims to become a leading exporter of green hydrogen, targeting a production goal of 5 million tons per year by the end of the decade. The country, currently focused on green hydrogen research facilities, is anticipating export markets to drive demand, allowing it to leverage its low production costs and emerge as a critical supplier. Despite objections from oil refiners, the government announced the launch of 48 projects capable of producing 3.5 million tons annually in 2023. The demand from the fertilizer industry is considered a potential avenue, and the government has released guidelines and USD 2.1 billion in subsidies to support the hydrogen sector, which includes electrolyzer manufacturers. However, domestic users may face challenges transitioning from gray to green hydrogen without demand-side incentives. Globally, the International Energy Agency (IEA) will demand about 180 million tons of hydrogen by 2030, allowing India to capture a significant share.

IMPACT OF TECHNOLOGY

The key technology for producing green hydrogen involves electrolysis, where an electrolyzer utilizes electricity from renewable sources to split water into hydrogen and oxygen. However, electrolyzers currently contribute significantly to the final cost of hydrogen production, making it imperative to create scale economies in manufacturing and enhance their performance for cost-effective clean hydrogen.

The electrolyzer technology is currently in its infant stage, rendering it relatively expensive for widespread adoption by countries. This high cost acts as a deterrent for underdeveloped nations from investing significantly in this technology. However, green hydrogen production costs will decrease as the market matures due to the emergence of cost-effective and advanced technologies. Reducing the cost of electrolyzers will play a pivotal role in making this renewable energy source more economically viable.

The potential impact of technology in the green hydrogen market extends beyond cost reduction. With continuous technological advancements, the efficiency of electrolysis processes is slated to improve, resulting in higher production yields and further contributing to cost-effectiveness. Moreover, the transition to green hydrogen depends on technological advancements, supportive policies, and international collaborations. Governments and regulatory bodies play a crucial role in incentivizing the adoption of green hydrogen technologies through subsidies, tax breaks, and research funding initiatives. The collaborative efforts at the global level can facilitate the exchange of knowledge and expertise, thereby accelerating the development and dissemination of cost-effective green hydrogen technologies.

SEGMENTATION INSIGHTS

INSIGHTS BY TECHNOLOGY

The alkaline electrolyzer technology accounted for the highest global green hydrogen market share in 2023. As the oldest electrolysis technology, alkaline electrolyzers are most widely deployed globally owing to the continuous stream of advancements and innovations in recent years. PEM electrolyzers are the second most preferred technology worldwide; their extended lifespan and superior efficiency distinguish them from alkaline electrolyzers. Alkaline and PEM electrolyzers possess distinct competitive advantages despite being technologically advanced and commercially available. Alkaline electrolyzers stand out for their cost-effectiveness in terms of installation, while PEM electrolyzers account for a significantly smaller physical footprint. Additionally, PEM electrolyzers boast of higher production rates and output pressures.

Segmentation by Technology

  • Alkaline Electrolyser
  • Proton Exchange Membrane Electrolyzer
  • Others

INSIGHTS BY SOURCE

The global green hydrogen market by source is segmented into wind, solar, and others. Wind energy, mainly onshore wind, has the largest share in powering green hydrogen production. Its abundance and cost-competitiveness make it a leading choice. Solar energy, while being slightly behind wind, is rapidly catching up. Its potential for decentralized production and integration with existing grids is appealing. Other sources in the green hydrogen market include geothermal, hydropower, and hybrids, which account for smaller shares but are slated to register the highest CAGR. Furthermore, the Middle East and North Africa (MENA) region, particularly the Gulf Cooperation Council (GCC) states, possess abundant renewable energy resources such as solar and wind power; this makes the region an ideal location for green hydrogen production. The UAE, in particular, benefits from the lowest solar power cost globally.

Segmentation by Source

  • Wind Energy
  • Solar Energy
  • Others

INSIGHTS BY END USER

The global green hydrogen market by end-user is segmented into refining, ammonia, and others. Green hydrogen can be applied as a feedstock in industries such as ammonia, methanol, refining, and steel; it can also be used as an energy carrier in fuel cells, energy storage, transportation fuel, and process heating. Among these options, the refining sector stands out as a critical player, accounting for the highest market share. Furthermore, the refining market is adopting green hydrogen as a sustainable and low-carbon alternative to traditional hydrogen production methods, aligning with global efforts to reduce carbon emissions. As the demand for cleaner energy sources intensifies, green hydrogen is becoming a preferred choice for refineries aiming to enhance their environmental performance and comply with stringent regulatory standards. Additionally, the ammonia production sector is emerging as a consumer of green hydrogen, further contributing to the diversification of end-user demand within the growing green hydrogen market.

Segmentation by End Users

  • Refining
  • Ammonia
  • Others

GEOGRAPHICAL ANALYSIS

Europe accounted for the highest global green hydrogen market share, valued at over USD 2 billion in 2023. The European Union, mainly through initiatives such as the 2050 Low Carbon Strategy (published in 2018) and the Green Pact for Europe (presented in 2019), has outlined comprehensive plans to decarbonize a significant portion of its renewable electricity energy consumption. A vital component of this strategy involves leveraging hydrogen as a renewable energy storage medium to address the gaps in energy needs. The EU aims to increase the share of hydrogen in its energy mix from 2% to potentially 14% by 2050, thereby recognizing its potential to effectively reduce and replace fossil fuels in the challenging-to-decarbonize sectors such as steel, chemicals, and transport. Such factors are projected to support the market growth during the forecast period.

Segmentation by Geography

  • Europe
  • Germany
  • Spain
  • France
  • Portugal
  • Italy
  • APAC
  • China
  • India
  • Japan
  • Australia
  • South Korea
  • North America
  • US
  • Canada
  • Middle East & Africa
  • Egypt
  • Morocco
  • South Africa
  • Saudi Arabia
  • UAE
  • Latin America
  • Chile
  • Brazil
  • Mexico
  • Argentina

COMPETITIVE LANDSCAPE

The global green hydrogen market is marked by a diverse competitive landscape, encompassing various technologies and players across different segments. Several companies actively contribute to the industry's development, with competition arising from traditional hydrogen production methods, green hydrogen technology providers, and companies selling green hydrogen as an end product. The traditional hydrogen production methods, represented by established players including Linde, Air Liquide, and Air Products and Chemicals, continue to optimize efficiency and reduce costs. These companies pose a challenge to adopting green hydrogen as the improvements in traditional methods may impact the cost-effectiveness of the transition to greener alternatives.

Key Company Profiles

  • Nel
  • ITM Power
  • ENGIE
  • Siemens Energy
  • Air Products and Chemicals

Other Prominent Vendors

  • McPhy Energy
  • Loop Energy
  • Messer
  • Elcogen
  • LONGi
  • John Cockerill
  • Plug Power
  • Cummins
  • Genvia
  • Air Liquide
  • Linde
  • Bloom Energy
  • Uniper
  • FuelCell Energy
  • Toshiba Energy Systems & Solutions Corporation
  • FUSION-FUEL
  • thyssenkrupp AG
  • Enapter
  • Ørsted
  • HydrogenPro
  • Topsoe
  • Sunfire
  • H2 Green
  • NTPC REL
  • Green Hydrogen Systems
  • Lhyfe
  • Iberdrola
  • Enel Green Power
  • Beijing SinoHy Energy
  • GUOFUHEE
  • Sungrow Power Supply
  • Shandong AUYAN New Energy Technology
  • Purification Equipment Research Institute of CSIC
  • Kohodo Hydrogen Energy
  • Ohmium

KEY QUESTIONS ANSWERED:

1. How big is the green hydrogen market?
2. What is the growth rate of the global green hydrogen market?
3. Which region dominates the global green hydrogen market share?
4. What are the significant trends in the green hydrogen market?
5. Who are the key players in the global green hydrogen market?

Table of Contents

1. Scope & Coverage
1.1. Market Definition
1.1.1. Inclusions
1.1.2. Exclusions
1.1.3. Market Estimation Caveats
1.2. Segments Covered & Definitions
1.2.1. Market by Technology
1.2.2. Market by Source
1.2.3. Market by End-user
1.2.4. Regions & Countries Covered
1.3. Market Derivation
1.3.1. Base Year
2. Premium Insights
2.1. Report Overview
2.1.1. Future Exporters of Green Hydrogen
2.2. Impact of Technology
2.3. Segment Analysis
2.3.1. Insights by Technology
2.3.2. Insights by Source
2.3.3. Insights by End-user
2.4. Regional Analysis
2.5. Competitive Landscape
2.6. Opportunity Pockets
3. Market at a Glance
4. Introduction
4.1. Overview of the Hydrogen Industry
4.2. Cost Analysis
4.3. Regulatory Changes and the Implementation of National Hydrogen Strategies
4.4. Key Insights of Developing Countries
4.5. Risk Factors
4.6. Value Chain
4.6.1. Upstream - the Production of Hydrogen
4.6.2. Midstream - Transportation & Storage
4.6.3. Downstream - End-users
5. Market Opportunities & Trends
5.1. Rising Investments in Green Hydrogen Projects
5.2. Technological Advancements and Increasing R&D Activities
5.3. Emergence of Anion Exchange Membrane
6. Market Growth Enablers
6.1. Increasing Government Support & Initiatives
6.2. Sustainability and Environmental Concerns
6.3. Rising Applications of Green Hydrogen
6.4. Surging Demand for Solid Oxide Electrolysis Cells (Soec) Technology
7. Market Restraints
7.1. Competitive Cost Challenges
7.2. Lack of Infrastructure Facilities
7.3. High Cost of Production
8. Market Landscape
8.1. Market Overview
8.2. Market Size & Forecast
8.3. Five Forces Analysis
8.3.1. Threat of New Entrants
8.3.2. Bargaining Power of Suppliers
8.3.3. Bargaining Power of Buyers
8.3.4. Threat of Substitutes
8.3.5. Competitive Rivalry
9. Technology
9.1. Market Snapshot & Growth Engine
9.2. Market Overview
9.3. Alkaline Electrolyzer
9.3.1. Market Size & Forecast
9.3.2. Market by Geography
9.4. Proton Exchange Membrane Electrolyzer
9.4.1. Market Size & Forecast
9.4.2. Market by Geography
9.5. Other
9.5.1. Market Size & Forecast
9.5.2. Market by Geography
10. Source
10.1. Market Snapshot & Growth Engine
10.2. Market Overview
10.3. Wind Energy
10.3.1. Market Size & Forecast
10.3.2. Market by Geography
10.4. Solar Energy
10.4.1. Market Size & Forecast
10.4.2. Market by Geography
10.5. Others
10.5.1. Market Size & Forecast
10.5.2. Market by Geography
11. End-users
11.1. Market Snapshot & Growth Engine
11.2. Market Overview
11.3. Refining
11.3.1. Market Size & Forecast
11.3.2. Market by Geography
11.4. Ammonia
11.4.1. Market Size & Forecast
11.4.2. Market by Geography
11.5. Others
11.5.1. Market Size & Forecast
11.5.2. Market by Geography
12. Geography
12.1. Market Snapshot & Growth Engine
12.2. Geographic Overview
13. Europe
13.1. Market Overview
13.2. Upcoming Markets for Green Hydrogen in Europe
13.2.1. UK
13.2.2. Denmark
13.2.3. Austria
13.2.4. Norway
13.3. Market Size & Forecast
13.4. Technology
13.4.1. Market Size & Forecast
13.5. Source
13.5.1. Market Size & Forecast
13.6. End-users
13.6.1. Market Size & Forecast
13.7. Key Countries
13.7.1. Germany: Market Size & Forecast
13.7.2. Spain: Market Size & Forecast
13.7.3. France: Market Size & Forecast
13.7.4. Portugal: Market Size & Forecast
13.7.5. Italy: Market Size & Forecast
14. APAC
14.1. Market Overview
14.2. Market Size & Forecast
14.3. Technology
14.3.1. Market Size & Forecast
14.4. Source
14.4.1. Market Size & Forecast
14.5. End-users
14.5.1. Market Size & Forecast
14.6. Key Countries
14.6.1. China: Market Size & Forecast
14.6.2. India: Market Size & Forecast
14.6.3. Australia: Market Size & Forecast
14.6.4. Japan: Market Size & Forecast
14.6.5. South Korea: Market Size & Forecast
15. North America
15.1. Market Overview
15.2. Market Size & Forecast
15.3. Technology
15.3.1. Market Size & Forecast
15.4. Source
15.4.1. Market Size & Forecast
15.5. End-users
15.5.1. Market Size & Forecast
15.6. Key Countries
15.6.1. US: Market Size & Forecast
15.6.2. Canada: Market Size & Forecast
16. Middle East & Africa
16.1. Market Overview
16.2. Upcoming Markets for Green Hydrogen in the Middle East & Africa
16.2.1. Oman
16.3. Market Size & Forecast
16.4. Technology
16.4.1. Market Size & Forecast
16.5. Source
16.5.1. Market Size & Forecast
16.6. End-users
16.6.1. Market Size & Forecast
16.7. Key Countries
16.7.1. Egypt: Market Size & Forecast
16.7.2. Morocco: Market Size & Forecast
16.7.3. South Africa: Market Size & Forecast
16.7.4. Saudi Arabia: Market Size & Forecast
16.7.5. UAE: Market Size & Forecast
17. Latin America
17.1. Market Overview
17.2. Market Size & Forecast
17.3. Technology
17.3.1. Market Size & Forecast
17.4. Source
17.4.1. Market Size & Forecast
17.5. End-users
17.5.1. Market Size & Forecast
17.6. Key Countries
17.6.1. Chile: Market Size & Forecast
17.6.2. Brazil: Market Size & Forecast
17.6.3. Mexico: Market Size & Forecast
17.6.4. Argentina: Market Size & Forecast
18. Competitive Landscape
18.1. Competition Overview
18.2. Recent Partnerships & Developments
19. Key Company Profiles
19.1. Nel
19.1.1. Business Overview
19.1.2. Product Offerings
19.1.3. Key Strategies
19.1.4. Key Strengths
19.1.5. Key Opportunities
19.2. Itm Power
19.2.1. Business Overview
19.1.1. Product Offerings
19.1.2. Key Strategies
19.1.3. Key Strengths
19.1.4. Key Opportunities
19.3. Engie
19.3.1. Business Overview
19.3.2. Product Offerings
19.3.3. Key Strategies
19.3.4. Key Strengths
19.3.5. Key Opportunities
19.4. Siemens Energy
19.4.1. Business Overview
19.4.2. Product Offerings
19.4.3. Key Strategies
19.4.4. Key Strengths
19.4.5. Key Opportunities
19.5. Air Products and Chemicals
19.5.1. Business Overview
19.5.2. Product Offerings
19.5.3. Key Strategies
19.5.4. Key Strengths
19.5.5. Key Opportunities
20. Other Prominent Vendors
20.1. Mcphy Energy
20.1.1. Business Overview
20.1.2. Product Offerings
20.2. Loop Energy
20.2.1. Business Overview
20.2.2. Product Offerings
20.3. Messer
20.3.1. Business Overview
20.3.2. Product Offerings
20.4. Elcogen
20.4.1. Business Overview
20.1.1. Product Offerings
20.5. Longi
20.5.1. Business Overview
20.5.2. Product Offerings
20.6. John Cockerill
20.6.1. Business Overview
20.6.2. Product Offerings
20.7. Plug Power
20.7.1. Business Overview
20.7.2. Product Offerings
20.8. Cummins
20.8.1. Business Overview
20.8.2. Product Offerings
20.9. Genvia
20.9.1. Business Overview
20.9.2. Product Offerings
20.10. Air Liquide
20.10.1. Business Overview
20.10.2. Product Offerings
20.11. Linde
20.11.1. Business Overview
20.11.2. Product Offerings
20.12. Bloom Energy
20.12.1. Business Overview
20.12.2. Product Offerings
20.13. Uniper
20.13.1. Business Overview
20.13.2. Product Offerings
20.14. Fuelcell Energy
20.14.1. Business Overview
20.14.2. Product Offerings
20.15. Toshiba Energy Systems & Solutions Corporation
20.15.1. Business Overview
20.15.2. Product Offerings
20.16. Fusion-Fuel
20.16.1. Business Overview
20.16.2. Product Offerings
20.17. Thyssenkrupp AG
20.17.1. Business Overview
20.17.2. Product Offerings
20.18. Enapter
20.18.1. Business Overview
20.18.2. Product Offerings
20.19. Orsted
20.19.1. Business Overview
20.19.2. Product Offerings
20.20. Hydrogenpro
20.20.1. Business Overview
20.20.2. Product Offerings
20.21. Topsoe
20.21.1. Business Overview
20.21.2. Product Offerings
20.22. Sunfire
20.22.1. Business Overview
20.22.2. Product Offerings
20.23. H2 Green
20.23.1. Business Overview
20.23.2. Product Offerings
20.24. Ntpc Rel
20.24.1. Business Overview
20.24.2. Product Offerings
20.25. Green Hydrogen Systems
20.25.1. Business Overview
20.25.2. Product Offerings
20.26. Lhyfe
20.26.1. Business Overview
20.26.2. Product Offerings
20.27. Iberdrola
20.27.1. Business Overview
20.27.2. Product Offerings
20.28. Enel Green Power
20.28.1. Business Overview
20.28.2. Product Offerings
20.29. Beijing Sinohy Energy
20.29.1. Business Overview
20.29.2. Product Offerings
20.30. Guofuhee
20.30.1. Business Overview
20.30.2. Product Offerings
20.31. Sungrow Power Supply
20.31.1. Business Overview
20.31.2. Product Offerings
20.32. Shandong Auyan New Energy Technology
20.32.1. Business Overview
20.32.2. Product Offerings
20.33. Purification Equipment Research Institute of Csic
20.33.1. Business Overview
20.33.2. Product Offerings
20.34. Kohodo Hydrogen Energy
20.34.1. Business Overview
20.34.2. Product Offerings
20.35. Ohmium
20.35.1. Business Overview
20.35.2. Product Offerings
21. Report Summary
21.1. Key Takeaways
21.2. Strategic Recommendations
22. Quantitative Summary
22.1. Market by Geography
22.2. Market by Technology
22.3. Market by Source
22.4. Market by End-users
22.5. Europe
22.5.1. Technology: Market Size & Forecast
22.5.2. Source: Market Size & Forecast
22.5.3. End-users: Market Size & Forecast
22.6. APAC
22.6.1. Technology: Market Size & Forecast
22.6.2. Source: Market Size & Forecast
22.6.3. End-users: Market Size & Forecast
22.7. North America
22.7.1. Technology: Market Size & Forecast
22.7.2. Source: Market Size & Forecast
22.7.3. End-users: Market Size & Forecast
22.8. Latin America
22.8.1. Technology: Market Size & Forecast
22.8.2. Source: Market Size & Forecast
22.8.3. End-users: Market Size & Forecast
22.9. Middle East & Africa
22.9.1. Technology: Market Size & Forecast
22.9.2. Source: Market Size & Forecast
22.9.3. End-users: Market Size & Forecast
23. Appendix
23.1. Research Methodology
23.2. Research Process
23.3. Report Assumptions & Caveats
23.3.1. Key Caveats
23.3.2. Currency Conversion
23.4. Abbreviations
List of Tables
Table 1 Focus Markets of Green Hydrogen Systems
Table 2 Top Green Hydrogen Projects Worldwide
Table 3 Green Hydrogen Initiatives by South Asian Countries
Table 4 Some of Saudi Arabia's Projects for Achieving Sustainability by 2030
Table 5 Comparison of Production Cost of Hydrogen
Table 6 Electrolyzer Capacity by Region (Gw)
Table 7 Characteristics of Different Electrolyzer Technologies
Table 8 Key Companies Manufacturing Alkaline Electrolyzers
Table 9 Alkaline Electrolyzer Green Hydrogen Market by Geography 2023-2029 ($ Billion)
Table 10 Key Companies Manufacturing Proton Exchange Membrane Electrolyzers
Table 11 Proton Exchange Membrane Electrolyzer Green Hydrogen Market by Geography 2023-2029 ($ Billion)
Table 12 Key Companies Manufacturing Solid Oxide Electrolysis Cell
Table 13 Other Technology Green Hydrogen Market by Geography 2023-2029 ($ Billion)
Table 14 Wind Energy Green Hydrogen Market by Geography 2023-2029 ($ Billion)
Table 15 Solar Energy Green Hydrogen Market by Geography 2023-2029 ($ Billion)
Table 16 Other Source Green Hydrogen Market by Geography 2023-2029 ($ Billion)
Table 17 Refining Green Hydrogen Market by Geography 2023-2029 ($ Billion)
Table 18 Ammonia Green Hydrogen Market by Geography 2023-2029 ($ Billion)
Table 19 Other End-user Green Hydrogen Market by Geography 2023-2029 ($ Billion)
Table 20 Development of Hydrogen Strategies and Roadmaps in Key Countries and Regions
Table 21 Green Hydrogen Market by Technology in Europe 2023-2029 ($ Billion)
Table 22 Green Hydrogen Market by Source in Europe 2023-2029 ($ Billion)
Table 23 Green Hydrogen Market by End-users in Europe 2023-2029 ($ Billion)
Table 24 Green Hydrogen Market by Technology in APAC 2023-2029 ($ Billion)
Table 25 Green Hydrogen Market by Source in APAC 2023-2029 ($ Billion)
Table 26 Green Hydrogen Market by End-users in APAC 2023-2029 ($ Billion)
Table 27 Green Hydrogen Market by Technology in North America 2023-2029 ($ Billion)
Table 28 Green Hydrogen Market by Source in North America 2023-2029 ($ Billion)
Table 29 Green Hydrogen Market by End-users in North America 2023-2029 ($ Billion)
Table 30 Green Hydrogen Market by Technology in the Middle East & Africa 2023-2029 ($ Billion)
Table 31 Green Hydrogen Market by Source in the Middle East & Africa 2023-2029 ($ Billion)
Table 32 Green Hydrogen Market by End-users in the Middle East & Africa 2023-2029 ($ Billion)
Table 33 Green Hydrogen Market by Technology in Latin America 2023-2029 ($ Billion)
Table 34 Green Hydrogen Market by Source in Latin America 2023-2029 ($ Billion)
Table 35 Green Hydrogen Market by End-users in Latin America 2023-2029 ($ Billion)
Table 36 Nel: Major Product Offerings
Table 37 Itm Power: Major Product Offerings
Table 38 Engie: Major Product Offerings
Table 39 Siemens Energy: Major Product Offerings
Table 40 Air Products and Chemicals: Major Product Offerings
Table 41 Mcphy Energy: Major Product Offerings
Table 42 Loop Energy: Major Product Offerings
Table 43 Messer: Major Product Offerings
Table 44 Elcogen: Major Product Offerings
Table 45 Longi: Major Product Offerings
Table 46 John Cockerill: Major Product Offerings
Table 47 Plug Power: Major Product Offerings
Table 48 Cummins: Major Product Offerings
Table 49 Genvia: Major Product Offerings
Table 50 Air Liquide: Major Product Offerings
Table 51 Linde: Major Product Offerings
Table 52 Bloom Energy: Major Product Offerings
Table 53 Uniper: Major Product Offerings
Table 54 Fuelcell Energy: Major Product Offerings
Table 55 Toshiba Energy Systems & Solutions Corporation: Major Product Offerings
Table 56 Fusion-Fuel: Major Product Offerings
Table 57 Thyssenkrupp: Major Product Offerings
Table 58 Enapter: Major Product Offerings
Table 59 Orsted: Major Product Offerings
Table 60 Hydrogenpro: Major Product Offerings
Table 61 Topsoe: Major Product Offerings
Table 62 Sunfire: Major Product Offerings
Table 63 H2 Green: Major Product Offerings
Table 64 Ntpcrel: Major Product Offerings
Table 65 Green Hydrogen Systems: Major Product Offerings
Table 66 Lhyfe: Major Product Offerings
Table 67 Iberdrola: Major Product Offerings
Table 68 Enel Green Power: Major Product Offerings
Table 69 Beijing Sinohy Energy: Major Product Offerings
Table 70 Guofuhee: Major Product Offerings
Table 71 Sungrow Power Supply: Major Product Offerings
Table 72 Shandong Auyan New Energy Technology: Major Product Offerings
Table 73 Purification Equipment Research Institute of Csic: Major Product Offerings
Table 74 Kohodo Hydrogen Energy: Major Product Offerings
Table 75 Ohmium: Major Product Offerings
Table 76 Global Green Hydrogen Market by Geography 2023-2029 ($ Billion)
Table 77 Global Green Hydrogen Market by Geography 2023-2029 (%)
Table 78 Global Green Hydrogen Market by Technology 2023-2029 ($ Billion)
Table 79 Global Green Hydrogen Market by Source 2023-2029 ($ Billion)
Table 80 Global Green Hydrogen Market by End-users 2023-2029 ($ Billion)
Table 81 Green Hydrogen Market by Technology in Europe 2023-2029 ($ Billion)
Table 82 Green Hydrogen Market by Source in Europe 2023-2029 ($ Billion)
Table 83 Green Hydrogen Market by End-users in Europe 2023-2029 ($ Billion)
Table 84 Green Hydrogen Market by Technology in APAC 2023-2029 ($ Billion)
Table 85 Green Hydrogen Market by Source in APAC 2023-2029 ($ Billion)
Table 86 Green Hydrogen Market by End-users in APAC 2023-2029 ($ Billion)
Table 87 Green Hydrogen Market by Technology in North America 2023-2029 ($ Billion)
Table 88 Green Hydrogen Market by Source in North America 2023-2029 ($ Billion)
Table 89 Green Hydrogen Market by End-users in North America 2023-2029 ($ Billion)
Table 90 Green Hydrogen Market by Technology in Latin America 2023-2029 ($ Billion)
Table 91 Green Hydrogen Market by Source in Latin America 2023-2029 ($ Billion)
Table 92 Green Hydrogen Market by End-users in Latin America 2023-2029 ($ Billion)
Table 93 Green Hydrogen Market by Technology in Middle East & Africa 2023-2029 ($ Billion)
Table 94 Green Hydrogen Market by Source in Middle East & Africa 2023-2029 ($ Billion)
Table 95 Green Hydrogen Market by End-users in Middle East & Africa 2023-2029 ($ Billion)
Table 96 Currency Conversion 2016-2023

Companies Mentioned

  • Nel
  • ITM Power
  • ENGIE
  • Siemens Energy
  • Air Products and Chemicals
  • McPhy Energy
  • Loop Energy
  • Messer
  • Elcogen
  • LONGi
  • John Cockerill
  • Plug Power
  • Cummins
  • Genvia
  • Air Liquide
  • Linde
  • Bloom Energy
  • Uniper
  • FuelCell Energy
  • Toshiba Energy Systems & Solutions Corporation
  • FUSION-FUEL
  • thyssenkrupp AG
  • Enapter
  • Ørsted
  • HydrogenPro
  • Topsoe
  • Sunfire
  • H2 Green
  • NTPC REL
  • Green Hydrogen Systems
  • Lhyfe
  • Iberdrola
  • Enel Green Power
  • Beijing SinoHy Energy
  • GUOFUHEE
  • Sungrow Power Supply
  • Shandong AUYAN New Energy Technology
  • Purification Equipment Research Institute of CSIC
  • Kohodo Hydrogen Energy
  • Ohmium

Methodology


Our research comprises a mix of primary and secondary research. The secondary research sources that are typically referred to include, but are not limited to, company websites, annual reports, financial reports, company pipeline charts, broker reports, investor presentations and SEC filings, journals and conferences, internal proprietary databases, news articles, press releases, and webcasts specific to the companies operating in any given market.

Primary research involves email interactions with the industry participants across major geographies. The participants who typically take part in such a process include, but are not limited to, CEOs, VPs, business development managers, market intelligence managers, and national sales managers. We primarily rely on internal research work and internal databases that we have populated over the years. We cross-verify our secondary research findings with the primary respondents participating in the study.



 

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