Green Hydrogen Market Size to Record 54.2% CAGR Through 2030

The global Green Hydrogen market size is forecasted to reach from US$ 1.9 billion in 2021 to US$  89.18 billion by 2030 and is anticipated to grow at compounded annual growth rate (CAGR) of 54.2% from 2022 to 2030, as per reports by market research and consulting organization Nova one advisor.

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Growing government investments and subsidies benefitting clean fuel usage along with hydrogen economy being touted as an eco-friendly alternative to fossil fuel economy are likely to strengthen the market growth over the forecast period.

The market is driven by the proliferating deployment of renewable energy sources in various end-use industries. Green hydrogen is produced through electrolysis of water, with renewable power generation sources, such as wind, solar, and other renewable energy sources. Furthermore, the growing scale of renewable energy is estimated to result in a lowered cost of clean power generation, thereby positively influencing the market growth over the forecast years.

Major players in the industry are focusing on innovation and technological advancements to reduce the costs of electrolyzer units, boosting the commercialization of green hydrogen production. In addition, market participants are emphasizing on practicing several strategic initiatives, such as joint ventures, partnerships, and mergers & acquisitions, to strengthen their foothold in the market over the coming years.

The countries realizing their untapped potential in the hydrogen market are expected to enhance the industry landscape over the coming years. In October 2019, Siemens announced a technical partnership on a 5 GW wind and solar combined energy project in Australia. The company is expected to provide its electrolyzer technology to generate green hydrogen through renewable-powered electrolysis. The clean hydrogen produced is intended to be exported to Asian markets.

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Driver for global green hydrogen market

Increasing use of green hydrogen in the mobility industry

As the world is moving towards net zero emission goals, it is getting ready to change the way it moves. The mobility industry is developing vehicles that would utilize hydrogen directly in fuel cells or in internal combustion engines. Hydrogen based forklifts have already been developed and are being utilized in a few industries across Europe, APAC and North American regions. The countries are planning to more than double the number of such hydrogen based vehicles by  2030.

Restraint for global green hydrogen market

High initial cost in establishing green hydrogen plant is a major market restraint

The initial cost involved with the production of green hydrogen is very high, while the lack of infrastructure to transport and store it poses an additional challenge. The fixed cost required to set up the production plant is only half the challenge while transportation of green hydrogen pose additional economical and safety challenges. On average green hydrogen costs nearly 2–3 times more than grey hydrogen. Application technology adds to the costs. Fuel cells cost nearly 1.5 to 2 times more than their fossil fuel counterparts. Even as synthetic fuel, the cost is nearly 5–7 times more than fossil jet fuel.

Opportunity for global green hydrogen market

Increasing investments by the government in establishing green hydrogen ecosystems

The governments of many developed countries are coming forward in developing infrastructure for green hydrogen. This is majorly happening in Europe followed by Asia. The development of infrastructure will facilitate manufacturers to expand their reach and capacity, which will assist them in lowering the price of green hydrogen. The involvement of the governments of the respective countries is very crucial for developing an ecosystem that accepts green hydrogen as an alternate fuel.

Challenge for global green hydrogen market

Lack of transportation infrastructure

In the present scenario, hydrogen is produced at locations where it is to be used. The lack of need for transportation has hence left the hydrogen market unexplored. Less than 8,000 km of pipeline has been installed worldwide, with 2,600 km in the US alone. With its European Hydrogen Backbone (EHB) initiative, Europe plans to install 39,700 km of hydrogen pipeline by 2040. Nearly 69% of this will be repurposed natural gas lines, and the rest will be newly established. Even after these, the infrastructure seems very small compared to more than 3 million km of natural gas line in operation today.

Europe is the largest market in terms of manufacturing and supplying green hydrogen. In terms of volume, it accounts for a share of 58.0% of the global green hydrogen market in 2020, followed by APAC at 27%.

Europe has been investing heavily in the green hydrogen projects. The European Hydrogen Backbone project is underway to develop nearly 40,000 km of dedicated hydrogen pipeline. This is boosting the investment in green hydrogen in the region. Major automotive manufacturers in the European region, such as Porsche, Ducati, BMW, and Audi, are focusing on the downsizing concept of car engines and manufacturing lightweight and fuel-efficient engines, which will also drive up the growth of the green hydrogen market. The European Union Automotive Fuel Economy (UNEP) standard has challenged automotive OEMs to decrease carbon emissions by using lightweight materials, which is further driving the market in this region.

Regional Insights

Europe led the global market in 2019 and accounted for the largest revenue share of over 57% owing to huge investments by the European economies, aiming for an energy transition into clean a hydrogen-based economy. For instance, in August 2019, the U.K. government announced a USD 14.8 billion investment plan for a project that is expected to use 4 GW of offshore wind for green hydrogen production by 2030.

The market in North America is anticipated to attain a prominent growth rate over the forecast period, with U.S. and Canada leading the region owing to the implementation of clean energy policies. In the U.S., California holds the majority of the market share with the growth driven by aggressive de-carbonization targets, such as phasing out of gas or diesel-powered public buses by 2040.

In Canada, Air Liquide is building a large-scale PEM electrolyzer with a 20 MW capacity, which will generate green hydrogen using hydropower. Such developments along with projects under pipeline in Canada will significantly aid the market growth in the region.

Asia Pacific is expected to register the highest CAGR over the forecast period, with Australia and Japan being the largest contributors to the regional growth. For instance, Toshiba is constructing a green hydrogen plant with a 10 MW electrolyzer capacity, which would be utilized to provide hydrogen for transportation application.

Some of the prominent players in the Green Hydrogen market include:

Ballard Power Systems, Enapter, Engie, Green Hydrogen Systems, Hydrogenics, Nikola Motors, Plug Power, SGH2 Energy Global LLC, Shell, and Siemens Gas and Power GmbH & Co. KG.

Segments Covered in the Report

This research report offers market revenue, sales volume, production assessment and prognoses by classifying it on the basis of various aspects. Further, this research study investigates market size, production, consumption and its development trends at global, regional, and country level for the period of 2017 to 2030 and covers subsequent region in its scope:

By Technology

  • Proton Exchange Membrane Electrolyzer
  • Alkaline Electrolyzer
  • Solid Oxide Electrolyzer

By Application

  • Power Generation
  • Transport
  • Others

By End Use Industry

  • Food & Beverages
  • Medical
  • Chemical
  • Petrochemicals
  • Glass
  • Others

Regional Segmentation

  • Asia-Pacific [China, Southeast Asia, India, Japan, Korea, Western Asia],
  • Europe [Germany, UK, France, Italy, Russia, Spain, Netherlands, Turkey, Switzerland],
  • North America [United States, Canada, Mexico],
  • South America [Brazil, Argentina, Columbia, Chile, Peru].
  • Middle East & Africa [GCC, North Africa, South Africa],

Research Methodology

A unique research methodology has been utilized to conduct a comprehensive research on the growth of the global Green Hydrogen market and arrive at conclusions on the future growth prospects of the market. This research methodology is a combination of primary and secondary research, which helps analysts warrant the accuracy and reliability of the drawn conclusions. Secondary sources referred to by analysts during the production of the global market report include statistics from company annual reports, SEC filings, company websites, World Bank database, investor presentations, regulatory databases, government publications, and industry white papers. Analysts have also interviewed senior managers, product portfolio managers, CEOs, VPs, and market intelligence managers, who contributed to the production of our study on the market as a primary source.

These primary and secondary sources provided exclusive information during interviews, which serves as a validation from mattress topper industry leaders. Access to an extensive internal repository and external proprietary databases allows this report to address specific details and questions about the global Green Hydrogen market with accuracy. The study also uses the top-down approach to assess the numbers for each segment and the bottom-up approach to counter-validate them. This has helped to estimates the future prospects of the global market more reliable and accurate.

Key Questions are

  • What are the key factors influencing the Green Hydrogen market in each region?
  • How much value will the global market generate by the end of the forecast period?
  • What will be the CAGR of the global market between 2022 and 2030?
  • What would be the Y-o-Y growth trend of the global market between 2022 and 2030?
  • What is the future scope and current trends in technologies of the global market?
  • What is the revenue of the global market based on segments?
  • Which key strategies are used by top players of the global market?
  • Which are the leading companies in the global market?
  • What are the essential strategies by key stakeholders in the market to expand their geographic presence?
  • What are the major advancements witnessed in the global market?

Why should you invest in this report?

If you are aiming to enter the global Green Hydrogen market, this report is a comprehensive guide that provides crystal clear insights into this niche market. All the major application areas for Green Hydrogen are covered in this report and information is given on the important regions of the world where this market is likely to boom during the forecast period of 2022-2030 so that you can plan your strategies to enter this market accordingly.

Besides, through this report, you can have a complete grasp of the level of competition you will be facing in this hugely competitive market and if you are an established player in this market already, this report will help you gauge the strategies that your competitors have adopted to stay as market leaders in this market. For new entrants to this market, the voluminous data provided in this report is invaluable.

Table Of Content

Chapter 1. Introduction

1.1. Research Objective

1.2. Scope of the Study

1.3. Definition

Chapter 2. Research Methodology

2.1. Research Approach

2.2. Data Sources

2.3. Assumptions & Limitations

Chapter 3. Executive Summary

3.1. Market Snapshot

Chapter 4. Market Variables and Scope 

4.1. Introduction

4.2. Market Classification and Scope

4.3. Industry Value Chain Analysis

4.3.1. Raw Material Procurement Analysis

4.3.2. Sales and Distribution Channel Analysis

4.3.3. Downstream Buyer Analysis

Chapter 5. COVID 19 Impact on Green Hydrogen Market

5.1. COVID-19 Landscape: Green Hydrogen Industry Impact

5.2. COVID 19 – Impact Assessment for the Industry

5.3. COVID 19 Impact: Global Major Government Policy

5.4. Market Trends and Opportunities in the COVID-19 Landscape

Chapter 6. Market Dynamics Analysis and Trends

6.1. Market Dynamics

6.1.1. Market Drivers

6.1.2. Market Restraints

6.1.3. Market Opportunities

6.2. Porter’s Five Forces Analysis

6.2.1. Bargaining power of suppliers

6.2.2. Bargaining power of buyers

6.2.3. Threat of substitute

6.2.4. Threat of new entrants

6.2.5. Degree of competition

Chapter 7. Competitive Landscape

7.1.1. Company Market Share/Positioning Analysis

7.1.2. Key Strategies Adopted by Players

7.1.3. Vendor Landscape

7.1.3.1. List of Suppliers

7.1.3.2. List of Buyers

Chapter 8. Global Green Hydrogen Market, By Technology

8.1. Green Hydrogen Market, by Technology Type, 2021-2030

8.1.1. Proton Exchange Membrane Electrolyzer

8.1.1.1. Market Revenue and Forecast (2019-2030)

8.1.2. Alkaline Electrolyzer

8.1.2.1. Market Revenue and Forecast (2019-2030)

8.1.3. Solid Oxide Electrolyzer

8.1.3.1. Market Revenue and Forecast (2019-2030)

Chapter 9. Global Green Hydrogen Market, By Application

9.1. Green Hydrogen Market, by Application, 2021-2030

9.1.1. Power Generation

9.1.1.1. Market Revenue and Forecast (2019-2030)

9.1.2. Transport

9.1.2.1. Market Revenue and Forecast (2019-2030)

9.1.3. Others

9.1.3.1. Market Revenue and Forecast (2019-2030)

Chapter 10. Global Green Hydrogen Market, By End Use 

10.1. Green Hydrogen Market, by End Use, 2021-2030

10.1.1. Food & Beverages

10.1.1.1. Market Revenue and Forecast (2019-2030)

10.1.2. Medical

10.1.2.1. Market Revenue and Forecast (2019-2030)

10.1.3. Chemical

10.1.3.1. Market Revenue and Forecast (2019-2030)

10.1.4. Petrochemicals

10.1.4.1. Market Revenue and Forecast (2019-2030)

10.1.5. Glass

10.1.5.1. Market Revenue and Forecast (2019-2030)

10.1.6. Others

10.1.6.1. Market Revenue and Forecast (2019-2030)

Chapter 11. Global Green Hydrogen Market, Regional Estimates and Trend Forecast

11.1. North America

11.1.1. Market Revenue and Forecast, by Technology (2019-2030)

11.1.2. Market Revenue and Forecast, by Application (2019-2030)

11.1.3. Market Revenue and Forecast, by End Use (2019-2030)

11.1.4. U.S.

11.1.4.1. Market Revenue and Forecast, by Technology (2019-2030)

11.1.4.2. Market Revenue and Forecast, by Application (2019-2030)

11.1.4.3. Market Revenue and Forecast, by End Use (2019-2030)

11.1.5. Rest of North America

11.1.5.1. Market Revenue and Forecast, by Technology (2019-2030)

11.1.5.2. Market Revenue and Forecast, by Application (2019-2030)

11.1.5.3. Market Revenue and Forecast, by End Use (2019-2030)

11.2. Europe

11.2.1. Market Revenue and Forecast, by Technology (2019-2030)

11.2.2. Market Revenue and Forecast, by Application (2019-2030)

11.2.3. Market Revenue and Forecast, by End Use (2019-2030)

11.2.4. UK

11.2.4.1. Market Revenue and Forecast, by Technology (2019-2030)

11.2.4.2. Market Revenue and Forecast, by Application (2019-2030)

11.2.4.3. Market Revenue and Forecast, by End Use (2019-2030)

11.2.5. Germany

11.2.5.1. Market Revenue and Forecast, by Technology (2019-2030)

11.2.5.2. Market Revenue and Forecast, by Application (2019-2030)

11.2.5.3. Market Revenue and Forecast, by End Use (2019-2030)

11.2.6. France

11.2.6.1. Market Revenue and Forecast, by Technology (2019-2030)

11.2.6.2. Market Revenue and Forecast, by Application (2019-2030)

11.2.6.3. Market Revenue and Forecast, by End Use (2019-2030)

11.2.7. Rest of Europe

11.2.7.1. Market Revenue and Forecast, by Technology (2019-2030)

11.2.7.2. Market Revenue and Forecast, by Application (2019-2030)

11.2.7.3. Market Revenue and Forecast, by End Use (2019-2030)

11.3. APAC

11.3.1. Market Revenue and Forecast, by Technology (2019-2030)

11.3.2. Market Revenue and Forecast, by Application (2019-2030)

11.3.3. Market Revenue and Forecast, by End Use (2019-2030)

11.3.4. India

11.3.4.1. Market Revenue and Forecast, by Technology (2019-2030)

11.3.4.2. Market Revenue and Forecast, by Application (2019-2030)

11.3.4.3. Market Revenue and Forecast, by End Use (2019-2030)

11.3.5. China

11.3.5.1. Market Revenue and Forecast, by Technology (2019-2030)

11.3.5.2. Market Revenue and Forecast, by Application (2019-2030)

11.3.5.3. Market Revenue and Forecast, by End Use (2019-2030)

11.3.6. Japan

11.3.6.1. Market Revenue and Forecast, by Technology (2019-2030)

11.3.6.2. Market Revenue and Forecast, by Application (2019-2030)

11.3.6.3. Market Revenue and Forecast, by End Use (2019-2030)

11.3.7. Rest of APAC

11.3.7.1. Market Revenue and Forecast, by Technology (2019-2030)

11.3.7.2. Market Revenue and Forecast, by Application (2019-2030)

11.3.7.3. Market Revenue and Forecast, by End Use (2019-2030)

11.4. MEA

11.4.1. Market Revenue and Forecast, by Technology (2019-2030)

11.4.2. Market Revenue and Forecast, by Application (2019-2030)

11.4.3. Market Revenue and Forecast, by End Use (2019-2030)

11.4.4. GCC

11.4.4.1. Market Revenue and Forecast, by Technology (2019-2030)

11.4.4.2. Market Revenue and Forecast, by Application (2019-2030)

11.4.4.3. Market Revenue and Forecast, by End Use (2019-2030)

11.4.5. North Africa

11.4.5.1. Market Revenue and Forecast, by Technology (2019-2030)

11.4.5.2. Market Revenue and Forecast, by Application (2019-2030)

11.4.5.3. Market Revenue and Forecast, by End Use (2019-2030)

11.4.6. South Africa

11.4.6.1. Market Revenue and Forecast, by Technology (2019-2030)

11.4.6.2. Market Revenue and Forecast, by Application (2019-2030)

11.4.6.3. Market Revenue and Forecast, by End Use (2019-2030)

11.4.7. Rest of MEA

11.4.7.1. Market Revenue and Forecast, by Technology (2019-2030)

11.4.7.2. Market Revenue and Forecast, by Application (2019-2030)

11.4.7.3. Market Revenue and Forecast, by End Use (2019-2030)

11.5. Latin America

11.5.1. Market Revenue and Forecast, by Technology (2019-2030)

11.5.2. Market Revenue and Forecast, by Application (2019-2030)

11.5.3. Market Revenue and Forecast, by End Use (2019-2030)

11.5.4. Brazil

11.5.4.1. Market Revenue and Forecast, by Technology (2019-2030)

11.5.4.2. Market Revenue and Forecast, by Application (2019-2030)

11.5.4.3. Market Revenue and Forecast, by End Use (2019-2030)

11.5.5. Rest of LATAM

11.5.5.1. Market Revenue and Forecast, by Technology (2019-2030)

11.5.5.2. Market Revenue and Forecast, by Application (2019-2030)

11.5.5.3. Market Revenue and Forecast, by End Use (2019-2030)

Chapter 12. Company Profiles

12.1. NEL ASA

12.1.1. Company Overview

12.1.2. Product Offerings

12.1.3. Financial Performance

12.1.4. Recent Initiatives

12.2. ITM Power

12.2.1. Company Overview

12.2.2. Product Offerings

12.2.3. Financial Performance

12.2.4. Recent Initiatives

12.3. ENGIE

12.3.1. Company Overview

12.3.2. Product Offerings

12.3.3. Financial Performance

12.3.4. Recent Initiatives

12.4. SEIMENS

12.4.1. Company Overview

12.4.2. Product Offerings

12.4.3. Financial Performance

12.4.4. Recent Initiatives

12.5. Air Products Inc.

12.5.1. Company Overview

12.5.2. Product Offerings

12.5.3. Financial Performance

12.5.4. Recent Initiatives

12.6. Messer Group GMBH

12.6.1. Company Overview

12.6.2. Product Offerings

12.6.3. Financial Performance

12.6.4. Recent Initiatives

12.7. Plug Power Inc.

12.7.1. Company Overview

12.7.2. Product Offerings

12.7.3. Financial Performance

12.7.4. Recent Initiatives

12.8. Cummins Inc.

12.8.1. Company Overview

12.8.2. Product Offerings

12.8.3. Financial Performance

12.8.4. Recent Initiatives

12.9. Air LIQUIDE

12.9.1. Company Overview

12.9.2. Product Offerings

12.9.3. Financial Performance

12.9.4. Recent Initiatives

12.10. LINDE

12.10.1. Company Overview

12.10.2. Product Offerings

12.10.3. Financial Performance

12.10.4. Recent Initiatives

Chapter 13. Research Methodology

13.1. Primary Research

13.2. Secondary Research

13.3. Assumptions

Chapter 14. Appendix

14.1. About Us

14.2. Glossary of Terms

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