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세계의 그린 수소 시장 예측(2025-2030년)

Global Green Hydrogen Market Forecast 2025-2030

리서치사 Inkwood Research
발행일 2021년 09월 상품 코드 1028414
페이지 정보 영문 134 Pages
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세계의 그린 수소 시장 예측(2025-2030년) Global Green Hydrogen Market Forecast 2025-2030
발행일 : 2021년 09월 페이지 정보 : 영문 134 Pages

본 상품은 영문 자료로 한글과 영문목차에 불일치하는 내용이 있을 경우 영문을 우선합니다. 정확한 검토를 위해 영문목차를 참고해주시기 바랍니다.

세계 그린 수소 시장 규모는 2025년에서 2030년 사이에 매출액 54.72%, 판매 수량 76.92%의 CAGR로 확대될 것으로 예측됩니다. 이 시장의 성장은 정부의 그린 수소 프로젝트 투자 촉진, 재생 가능 에너지 비용 절감, 그리드 효율 향상, 혁신적인 그린 수소 제조 기술 확대 등이 요인이 되고 있습니다.

그린 수소는 재생 가능한 에너지원을 이용하여 제조됩니다. 기후변화의 위협이 가시화되면서 기업들은 재생 가능 기술에 대한 투자를 시작했고, 이산화탄소 배출량을 최소화하기 위한 규제와 정책을 강화하고 있습니다. 또, 재생 가능한 에너지원은 오랜 세월에 걸쳐 현저하게 발전해 오고 있어 경제의 저탄소화에 공헌할 가능성을 내포하고 있습니다.

청정한 수소는 지구온난화의 주요 원인인 이산화탄소 배출로 인한 심각한 영향을 줄이기 위한 대체 수단으로 효과적으로 이용될 수 있습니다. 호주, 캐나다, 오스트리아, 독일, 프랑스, 모로코, 네덜란드, 스페인, 노르웨이, 포르투갈, 이탈리아 등의 많은 국가들이 청정수소에 관한 국가 수소 전략을 발표하거나 기초하고 있습니다. 더욱이 국제에너지기구(IEA)에 따르면 청정수소를 사용하면 매년 약 8억 3천만 톤의 이산화탄소 배출을 막을 수 있습니다.

세계의 그린 수소(Green Hydrogen) 시장을 조사했으며, 시장 개요/지역별 동향/시장 진입 기업 개요 등의 정보를 제공합니다.

목차

제1장 조사 범위와 방법 조사 방법

  • 조사 목적
  • 조사 범위
  • 조사 방법
  • 가정 및 제한

제2장 개요

  • 시장 규모·추계
  • 시장 개요

제3장 부모 시장 분석 : 수소 시장

  • 그레이
  • 브라운
  • 블루
  • 그린

제4장 주요 추진 요인

  • 그린 수소 프로젝트에 대한 정부의 추진과 투자
  • 신 재생 에너지의 비용 절감
  • 새로운 그린 수소 제조 기술의 스케일링
  • 그리드 효율의 향상

제5장 주요 과제

  • 저장 및 수송 문제
  • 높은 생산 비용
  • 전용 인프라의 필요성

제6장 주요 분석

  • 기술 분석
    • 양성자 교환막 전해조
    • 알칼리 전해조
    • 고체 산화물 전해조
    • 음이온 교환
  • 잠재적인 녹색 수소의 사용
    • 발전
    • 수송
    • 산업
    • 난방 주택·상업용 건물
  • 포터의 5세력 모형
    • 구매자 전원
    • 공급 업체 파워
    • 대체
    • 이민자
    • 산업의 경쟁
  • 벤더 정세
  • 가치 사슬/분석
    • 제조
    • 처리
    • 수송 및 보관
    • 이용자

제7장 지역 분석

  • 주요국의 수소의 가능성
  • 국가별 분석
    • 미국
    • 캐나다
    • 영국
    • 네덜란드
    • 노르웨이
    • 독일
    • 프랑스
    • 스페인
    • 그리스
    • 덴마크
    • 오스트리아
    • 중국
    • 인도
    • 일본
    • 한국
    • 호주
    • 사우디
    • 오만
    • 아랍 에미리트
    • 칠레
    • 브라질

제8장 기업 개요

  • ACWA POWER
  • AIR LIQUIDE
  • AIR PRODUCTS AND CHEMICALS INC
  • CUMMINS INC
  • ENGIE
  • ERGOSUP
  • GREEN HYDROGEN
  • LINDE PLC
  • MCPHY ENERGY SA
  • NEL ASA
  • PLUG POWER
  • SGH2 ENERGY
  • SHELL
  • SIEMENS ENERGY
  • TOSHIBA ENERGY SYSTEMS&SOLUTIONS CORPORATION
  • TOTAL
  • UNIPER SE
LYJ 21.09.30

LIST OF TABLES

  • TABLE 1: GLOBAL GREEN HYDROGEN MARKET, FORECAST YEARS, 2020-2024 (IN $ MILLION)
  • TABLE 2: GLOBAL GREEN HYDROGEN MARKET, FORECAST YEARS, 2020-2024 (IN KILOTONS)
  • TABLE 3: GLOBAL GREEN HYDROGEN MARKET, FORECAST YEARS, 2025-2030 (IN $ MILLION)
  • TABLE 4: GLOBAL GREEN HYDROGEN MARKET, FORECAST YEARS, 2025-2030 (IN KILOTONS)
  • TABLE 5: GREEN HYDROGEN PROJECTS IN UNITED STATES
  • TABLE 6: GREEN HYDROGEN PROJECTS IN CANADA
  • TABLE 7: GREEN HYDROGEN PROJECTS IN UNITED KINGDOM
  • TABLE 8: GREEN HYDROGEN PROJECTS IN NETHERLANDS
  • TABLE 9: GREEN HYDROGEN PROJECTS IN NORWAY
  • TABLE 10: GREEN HYDROGEN PROJECTS IN GERMANY
  • TABLE 11: GREEN HYDROGEN PROJECTS IN FRANCE
  • TABLE 12: GREEN HYDROGEN PROJECTS IN SPAIN
  • TABLE 13: GREEN HYDROGEN PROJECTS IN GREECE
  • TABLE 14: GREEN HYDROGEN PROJECTS IN DENMARK
  • TABLE 15: GREEN HYDROGEN PROJECTS IN AUSTRIA
  • TABLE 16: GREEN HYDROGEN PROJECTS IN CHINA
  • TABLE 17: GREEN HYDROGEN PROJECTS IN INDIA
  • TABLE 18: GREEN HYDROGEN PROJECTS IN JAPAN
  • TABLE 19: GREEN HYDROGEN PROJECTS IN SOUTH KOREA
  • TABLE 20: GREEN HYDROGEN PROJECTS IN AUSTRALIA
  • TABLE 21: GREEN HYDROGEN PROJECTS IN SAUDI ARABIA
  • TABLE 22: GREEN HYDROGEN PROJECTS IN OMAN
  • TABLE 23: GREEN HYDROGEN PROJECTS IN UNITED ARAB EMIRATES
  • TABLE 24: GREEN HYDROGEN PROJECTS IN CHILE
  • TABLE 25: GREEN HYDROGEN PROJECTS IN BRAZIL

LIST OF FIGURES

  • FIGURE 1: PORTER'S FIVE FORCES ANALYSIS
  • FIGURE 2: VENDOR LANDSCAPE
  • FIGURE 3: VALUE CHAIN ANALYSIS
  • FIGURE 4: HYDROGEN POTENTIAL IN KEY COUNTRIES
  • FIGURE 5: UNITED STATES PRIMARY ENERGY CONSUMPTION, BY ENERGY SOURCE, 2020 (IN %)
  • FIGURE 6: CANADA PRIMARY ENERGY CONSUMPTION, BY ENERGY SOURCE, 2020 (IN %)
  • FIGURE 7: UNITED KINGDOM PRIMARY ENERGY CONSUMPTION, BY ENERGY SOURCE, 2019 (IN %)
  • FIGURE 8: NETHERLANDS PRIMARY ENERGY CONSUMPTION, BY ENERGY SOURCE, 2020
  • FIGURE 9: NETHERLANDS PRIMARY ENERGY CONSUMPTION, BY ENERGY SOURCE, 2019 (IN %)
  • FIGURE 10: NORWAY ELECTRIC ENERGY PRODUCTION, BY ENERGY SOURCE, 2018 (IN %)
  • FIGURE 11: GERMANY ELECTRIC ENERGY CONSUMPTION, BY ENERGY SOURCE, 2020 (IN %)
  • FIGURE 12: FRANCE POWER GENERATION, BY ENERGY SOURCE, 2019 (IN %)
  • FIGURE 13: SPAIN POWER GENERATION, BY ENERGY SOURCE, 2020 (IN %)
  • FIGURE 14: DENMARK TOTAL ENERGY SUPPLIED, BY ENERGY SOURCE, 2020 (IN %)
  • FIGURE 15: CHINA PRIMARY ENERGY CONSUMPTION, BY ENERGY SOURCE, 2019 (IN %)
  • FIGURE 16: INDIA PRIMARY ENERGY CONSUMPTION, BY ENERGY SOURCE, 2019 (IN %)
  • FIGURE 17: JAPAN PRIMARY ENERGY CONSUMPTION, BY ENERGY SOURCE, 2019 (IN %)
  • FIGURE 18: SOUTH KOREA PRIMARY ENERGY CONSUMPTION, BY ENERGY SOURCE, 2019 (IN %)
  • FIGURE 19: BRAZIL PRIMARY ENERGY CONSUMPTION BY ENERGY SOURCE, 2019 (IN %)

KEY FINDINGS

The global green hydrogen market is anticipated to grow with a CAGR of 54.72% in terms of revenue and 76.92% in terms of volume over the projected years of 2025 to 2030. The market growth is attributable to governmental promotion as well as investments in green hydrogen projects, the depreciating cost of renewable energy, improving grid efficiency, and scaling of innovative green hydrogen production technology.

MARKET INSIGHTS

Green hydrogen is produced using renewable sources of energy. With the threat of climate change becoming more eminent, companies are beginning to invest in renewable technologies and curating regulations and policies to minimize their carbon footprint. Besides, renewable energy sources have significantly developed over the years and harbor the potential to help economies move towards lower carbon emissions.

Clean hydrogen can be effectively used as an alternative to mitigate the dire impact of carbon dioxide emissions, emerging as the leading cause of global warming. Numerous countries across the world, including Australia, Canada, Austria, Germany, France, Morocco, the Netherlands, Spain, Norway, Portugal, and Italy, have published or drafted national hydrogen strategies supporting measures for clean hydrogen. Moreover, as per the International Energy Agency (IEA), the use of clean hydrogen could prevent the emission of nearly 830 million tons of carbon dioxide every year.

REGIONAL INSIGHTS

The global green hydrogen market growth assessment includes the in-depth evaluation of key countries such as China, India, Austria, Saudi Arabia, Germany, Brazil, and others. Germany is anticipated to be a significant consumer of clean hydrogen across Europe. The country's market growth is accredited to the numerous government initiatives aimed towards zero-emission of carbon dioxide as well as carbon neutrality targets by 2050. On the other hand, Austria already possesses a high share of renewable energy sources within its electricity mix, primarily owing to the country's extensive hydropower capacity. Furthermore, in Austria, variable renewable electricity's technical potential is more than twice as high as its projected final electricity demand in 2030.

COMPETITIVE INSIGHTS

The industrial rivalry across the global green hydrogen market is high due to the presence of numerous manufactures. Although vendors cannot increase the price of their products due to the intense competition, they attempt to capitalize on the market through global expansion strategies. This is achieved by means of partnerships and product enhancements in order to augment their performance and productivity.

Some of the top companies operating in the market are Siemens Energy, Shell, Air Liquide, etc.

Our report offerings include:

  • Explore key findings of the overall market
  • Strategic breakdown of market dynamics (Drivers, Restraints, Opportunities, Challenges)
  • Market forecasts for a minimum of 9 years, along with 3 years of historical data for all segments, sub-segments, and regions
  • Market Segmentation cater to a thorough assessment of key segments with their market estimations
  • Geographical Analysis: Assessments of the mentioned regions and country-level segments with their market share
  • Key analytics: Porter's Five Forces Analysis, Vendor Landscape, Opportunity Matrix, Key Buying Criteria, etc.
  • Competitive landscape is the theoretical explanation of the key companies based on factors, market share, etc.
  • Company profiling: A detailed company overview, product/services offered, SCOT analysis, and recent strategic developments

TABLE OF CONTENTS

1. RESEARCH SCOPE & METHODOLOGY

  • 1.1. STUDY OBJECTIVES
  • 1.2. SCOPE OF STUDY
  • 1.3. METHODOLOGY
  • 1.4. ASSUMPTIONS & LIMITATIONS

2. EXECUTIVE SUMMARY

  • 2.1. MARKET SIZE & ESTIMATES
  • 2.2. MARKET OVERVIEW

3. PARENT MARKET ANALYSIS: HYDROGEN MARKET

  • 3.1. GREY
  • 3.2. BROWN
  • 3.3. BLUE
  • 3.4. GREEN

4. KEY DRIVERS

  • 4.1. GOVERNMENTAL PROMOTION & INVESTMENTS IN GREEN HYDROGEN PROJECTS
  • 4.2. REDUCED COSTS OF RENEWABLE ENERGY
  • 4.3. SCALING OF NEW GREEN HYDROGEN PRODUCTION TECHNOLOGY
  • 4.4. IMPROVING GRID EFFICIENCY

5. KEY CHALLENGES

  • 5.1. STORAGE AND TRANSPORTATION ISSUES
  • 5.2. HIGH PRODUCTION COSTS
  • 5.3. NEED FOR DEDICATED INFRASTRUCTURES

6. KEY ANALYTICS

  • 6.1. TECHNOLOGICAL ANALYSIS
    • 6.1.1. PROTON EXCHANGE MEMBRANE ELECTROLYZER
    • 6.1.2. ALKALINE ELECTROLYZER
    • 6.1.3. SOLID OXIDE ELECTROLYZER
    • 6.1.4. ANION EXCHANGE
  • 6.2. POTENTIAL GREEN HYDROGEN USES
    • 6.2.1. POWER GENERATION
    • 6.2.2. TRANSPORATION
    • 6.2.3. INDUSTRY
    • 6.2.4. HEATING RESIDENTIAL & COMMERCIAL BUILDINGS
  • 6.3. PORTER'S FIVE FORCES ANALYSIS
    • 6.3.1. BUYERS POWER
    • 6.3.2. SUPPLIERS POWER
    • 6.3.3. SUBSTITUTION
    • 6.3.4. NEW ENTRANTS
    • 6.3.5. INDUSTRY RIVALRY
  • 6.4. VENDOR LANDSCAPE
  • 6.5. VALUE CHAIN ANALYSIS
    • 6.5.1. PRODUCTION
    • 6.5.2. PROCESSING
    • 6.5.3. TRANSPORTATION & STORAGE
    • 6.5.4. END-USERS

7. GEOGRAPHICAL ANALYSIS

  • 7.1. HYDROGEN POTENTIAL IN KEY COUNTRIES
  • 7.2. COUNTRY ANALYSIS
    • 7.2.1. UNITED STATES
      • 7.2.1.1. UNITED STATES ENERGY PROFILE
      • 7.2.1.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN UNITED STATES
      • 7.2.1.3. UNITED STATES GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.1.4. GREEN HYDROGEN PROJECTS IN UNITED STATES
    • 7.2.2. CANADA
      • 7.2.2.1. CANADA ENERGY PROFILE
      • 7.2.2.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN CANADA
      • 7.2.2.3. CANADA GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.2.4. GREEN HYDROGEN PROJECTS IN CANADA
    • 7.2.3. UNITED KINGDOM
      • 7.2.3.1. UNITED KINGDOM ENERGY PROFILE
      • 7.2.3.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN UNITED KINGDOM
      • 7.2.3.3. UNITED KINGDOM GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.3.4. GREEN HYDROGEN PROJECTS IN UNITED KINGDOM
    • 7.2.4. NETHERLANDS
      • 7.2.4.1. NETHERLANDS ENERGY PROFILE
      • 7.2.4.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN NETHERLANDS
      • 7.2.4.3. NETHERLANDS GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.4.4. GREEN HYDROGEN PROJECTS IN NETHERLANDS
    • 7.2.5. NORWAY
      • 7.2.5.1. NORWAY ENERGY PROFILE
      • 7.2.5.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN NORWAY
      • 7.2.5.3. NORWAY GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.5.4. GREEN HYDROGEN PROJECTS IN NORWAY
    • 7.2.6. GERMANY
      • 7.2.6.1. GERMANY ENERGY PROFILE
      • 7.2.6.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN GERMANY
      • 7.2.6.3. GERMANY GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.6.4. GREEN HYDROGEN PROJECTS IN GERMANY
    • 7.2.7. FRANCE
      • 7.2.7.1. FRANCE ENERGY PROFILE
      • 7.2.7.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN FRANCE
      • 7.2.7.3. FRANCE GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.7.4. GREEN HYDROGEN PROJECTS IN FRANCE
    • 7.2.8. SPAIN
      • 7.2.8.1. SPAIN ENERGY PROFILE
      • 7.2.8.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN SPAIN
      • 7.2.8.3. SPAIN GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.8.4. GREEN HYDROGEN PROJECTS IN SPAIN
    • 7.2.9. GREECE
      • 7.2.9.1. GREECE ENERGY PROFILE
      • 7.2.9.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN GREECE
      • 7.2.9.3. GREECE GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.9.4. GREEN HYDROGEN PROJECTS IN GREECE
    • 7.2.10. DENMARK
      • 7.2.10.1. DENMARK ENERGY PROFILE
      • 7.2.10.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN DENMARK
      • 7.2.10.3. DENMARK GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.10.4. GREEN HYDROGEN PROJECTS IN DENMARK
    • 7.2.11. AUSTRIA
      • 7.2.11.1. AUSTRIA ENERGY PROFILE
      • 7.2.11.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN AUSTRIA
      • 7.2.11.3. AUSTRIA GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.11.4. GREEN HYDROGEN PROJECTS IN AUSTRIA
    • 7.2.12. CHINA
      • 7.2.12.1. CHINA ENERGY PROFILE
      • 7.2.12.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN CHINA
      • 7.2.12.3. CHINA GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.12.4. GREEN HYDROGEN PROJECTS IN CHINA
    • 7.2.13. INDIA
      • 7.2.13.1. INDIA ENERGY PROFILE
      • 7.2.13.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN INDIA
      • 7.2.13.3. INDIA GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.13.4. GREEN HYDROGEN PROJECTS IN INDIA
    • 7.2.14. JAPAN
      • 7.2.14.1. JAPAN ENERGY PROFILE
      • 7.2.14.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN JAPAN
      • 7.2.14.3. JAPAN GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.14.4. GREEN HYDROGEN PROJECTS IN JAPAN
    • 7.2.15. SOUTH KOREA
      • 7.2.15.1. SOUTH KOREA ENERGY PROFILE
      • 7.2.15.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN SOUTH KOREA
      • 7.2.15.3. SOUTH KOREA GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.15.4. GREEN HYDROGEN PROJECTS IN SOUTH KOREA
    • 7.2.16. AUSTRALIA
      • 7.2.16.1. AUSTRALIA ENERGY PROFILE
      • 7.2.16.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN AUSTRALIA
      • 7.2.16.3. AUSTRALIA GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.16.4. GREEN HYDROGEN PROJECTS IN AUSTRALIA
    • 7.2.17. SAUDI ARABIA
      • 7.2.17.1. SAUDI ARABIA ENERGY PROFILE
      • 7.2.17.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN SAUDI ARABIA
      • 7.2.17.3. SAUDI ARABIA GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.17.4. GREEN HYDROGEN PROJECTS IN SAUDI ARABIA
    • 7.2.18. OMAN
      • 7.2.18.1. OMAN ENERGY PROFILE
      • 7.2.18.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN OMAN
      • 7.2.18.3. OMAN GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.18.4. GREEN HYDROGEN PROJECTS IN OMAN
    • 7.2.19. UNITED ARAB EMIRATES
      • 7.2.19.1. UNITED ARAB EMIRATES ENERGY PROFILE
      • 7.2.19.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN UNITED ARAB EMIRATES
      • 7.2.19.3. UNITED ARAB EMIRATES GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.19.4. GREEN HYDROGEN PROJECTS IN UNITED ARAB EMIRATES
    • 7.2.20. CHILE
      • 7.2.20.1. CHILE ENERGY PROFILE
      • 7.2.20.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN CHILE
      • 7.2.20.3. CHILE GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.20.4. GREEN HYDROGEN PROJECTS IN CHILE
    • 7.2.21. BRAZIL
      • 7.2.21.1. BRAZIL ENERGY PROFILE
      • 7.2.21.2. IMPORTANT INSTITUTIONS & POLICIES FOR THE ENERGY SECTOR IN BRAZIL
      • 7.2.21.3. BRAZIL GREEN HYDROGEN INDUSTRY: OVERVIEW
      • 7.2.21.4. GREEN HYDROGEN PROJECTS IN BRAZIL

8. COMPANY PROFILES

  • 8.1. ACWA POWER
  • 8.2. AIR LIQUIDE
  • 8.3. AIR PRODUCTS AND CHEMICALS INC
  • 8.4. CUMMINS INC
  • 8.5. ENGIE
  • 8.6. ERGOSUP
  • 8.7. GREEN HYDROGEN
  • 8.8. LINDE PLC
  • 8.9. MCPHY ENERGY SA
  • 8.10. NEL ASA
  • 8.11. PLUG POWER
  • 8.12. SGH2 ENERGY
  • 8.13. SHELL
  • 8.14. SIEMENS ENERGY
  • 8.15. TOSHIBA ENERGY SYSTEMS & SOLUTIONS CORPORATION
  • 8.16. TOTAL
  • 8.17. UNIPER SE
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