Global Hydrogen Fuel Cell Market Outlook, Share, Size, Forecast to 2028
The global hydrogen fuel cell market has experienced significant growth in recent years, primarily driven by government initiatives and policies promoting renewable energy sources and cleaner transportation owing to the increasing concerns about climate change and the need to meet nationally determined carbon emissions reduction targets. Additionally, a growing number of nations have come up with industry targets that have to be met and policies that directly support investment in hydrogen technologies.
However, one significant restraint hindering the widespread adoption of hydrogen fuel cells is the high initial investment required for their deployment. The costs associated with the manufacturing, transportation, and installation of fuel cell systems can be prohibitive for many consumers. Additionally, the lack of a robust hydrogen refuelling infrastructure poses a challenge, as it hinders the growth of the fuel cell electric vehicle market and other hydrogen-associated markets on a global scale.
A fuel cell generates electricity in a clean and efficient way by using the chemical energy of hydrogen. If pure hydrogen is used as fuel, only electricity, water, and heat are produced. Fuel cells are one of a kind because they can be used in a number of applications. Hydrogen fuel cells are being adopted across various sectors, including transportation and stationary power generation, due to their efficiency, versatility, and zero-emission characteristics.
Working of a Fuel Cell
Hydrogen fuel cells function in a similar fashion to batteries. They generate heat and electricity as long as hydrogen is available. Two electrodes—a negative electrode (also known as the anode) and a positive electrode (also known as the cathode)—sandwiched around an electrolyte make up a fuel cell.
The anode receives hydrogen fuel, while the cathode receives air. A catalyst at the anode of the fuel cell splits hydrogen molecules into protons (hydrogen ions) and electrons, which travel via several routes to the cathode. An external circuit is traversed by the electrons, causing electricity to flow. The hydrogen protons move from the electrolyte to the cathode through the electrolyte, where they combine with oxygen and electrons to create heat and water.
Fuel cells are considered better than the traditional fossil fuel combustion-based technologies that are currently used in many power plants and vehicles in several ways. Fuel cells have a high energy efficiency relative to combustion engines because they can directly turn the chemical energy in fuel into electrical energy. Their efficiency can go up to over 60%. Compared to combustion engines, fuel cells produce less pollution or none at all. Hydrogen fuel cells only give off water. Since they do not emit carbon dioxide, they help solve important climate problems. There are also no air pollutants at the point of operation that cause smog and health problems. Fuel cells are also quiet during operations as they have few moving parts.
Driver
Rising Government Support for Promoting Hydrogen as a Fuel of the Future
Governments worldwide are increasingly recognizing the importance of transitioning to cleaner and more sustainable energy sources to address environmental concerns, reduce greenhouse gas emissions, and mitigate the impacts of climate change. In this context, hydrogen fuel cells have gained significant attention as a promising solution for decarbonizing various sectors, including transportation, industry, and power generation.
Several ways in which governments are supporting and promoting hydrogen as the fuel of the future include:
Financial Incentives: Governments are offering financial incentives such as grants, subsidies, tax credits, and research funding to encourage investments in hydrogen fuel cell technologies. These incentives make it more attractive for businesses and industries to adopt hydrogen-based solutions.
For instance, the United States Inflation Reduction Act of 2022 (IRA) encompasses measures aimed at curbing inflation while also promoting clean energy initiatives. It includes a series of tax credits that incentivize domestic renewable energy production, with a particular focus on clean hydrogen and fuel cell technologies. These incentives involve extensions, enhancements, and the creation of new federal tax credits to further drive clean energy adoption and the growth of the clean energy technologies market.
Policy and Regulatory Support: Governments are implementing policies and regulations that mandate or encourage the use of hydrogen fuel cells in specific applications. Some regions are setting targets for the deployment of hydrogen-powered vehicles or requiring a certain percentage of hydrogen in the energy mix.
The Japanese government is placing its bets on hydrogen vehicles as a key strategy to achieve carbon neutrality by 2050. To accomplish this goal, they have set an ambitious target of having 200,000 Fuel Cell Vehicles (FCVs) on the roads by 2025, a substantial increase from the approximately 3,600 FCVs in 2019.
Additionally, the government plans to establish 320 hydrogen filling stations as part of its third Strategic Roadmap for Hydrogen and Fuel Cells, further supporting the widespread adoption of hydrogen-powered fuel cell electric vehicles and advancing their commitment to a sustainable and greener future.
Infrastructure Development: Governments are investing in the development of the hydrogen economy, which includes infrastructure such as hydrogen production facilities, refuelling stations, and distribution networks. The establishment of a robust infrastructure is essential for the widespread adoption of hydrogen fuel cell technologies.
Collaborative Initiatives: Governments are actively engaging in partnerships and collaborations with private companies, research institutions, and international organizations to accelerate the development and deployment of hydrogen technologies.
For instance, the Clean Hydrogen Partnership (2021-2027) is a collaborative effort between the public and private sectors, backed by the European Commission through Horizon Europe. It follows the achievements of the previous Fuel Cells and Hydrogen Joint Undertaking and incorporates the EU-led initiative called the Hydrogen Valleys Platform, under Mission Innovation.
On March 1, 2023, the Commission and key stakeholders joined hands by signing a joint declaration, pledging to intensify and expedite their collective endeavors in research, development, demonstration, and deployment of Hydrogen Valleys.
Overall, rising government support for promoting hydrogen (especially green hydrogen) as the fuel of the future has created a favourable environment for the development, commercialization, and adoption of hydrogen fuel cell technologies. As a result, the global hydrogen fuel cell market is experiencing significant growth and is expected to play a crucial role in the global transition towards a more sustainable energy landscape.
Segment Analysis
Hydrogen Fuel Cells in Transportation
With increasingly stringent emissions regulations and government support for new energy vehicles, expectations regarding the future fuel cell electric vehicle (FCEV) market are growing. FCEVs can go 300-400 miles on a tank of hydrogen and can be refuelled in three to five minutes. They combine the zero-emissions driving of an electric vehicle with the range and convenience of a traditional internal combustion engine. FCEVs can save up to three times as much energy as regular vehicles.
Major car manufacturers have invested heavily in fuel cell vehicles and have developed their hydrogen fuel cell vehicles portfolios. Companies such as Toyota, Hyundai, and Honda have successfully released FCV cars, which registered encouraging sales in 2021.
In the year 2022, approximately 19,600 fuel cell electric vehicle (FCEVs) were sold across the globe. This marked a notable 6% rise from the previous year's sales. In terms of the overall electric vehicle (EV) market share, these FCEVs accounted for 0.2% in 2022. Out of the total 70,200 FCEVs that were deployed worldwide by the end of 2022, 82% were light-duty vehicles (LDVs).
As of 2022, South Korea has emerged as the dominant force in the global market for Fuel Cell Electric Vehicles (FCEVs), boasting an impressive cumulative sales figure of 29,500 units. These sales accounted for a significant 43% share of the total global FCEV market, followed by the United States (22%), China (16%), Japan (11%), and Germany (3%).
The application of fuel cell technology for long haul heavy duty vehicles is already showing promising results. Particularly, the Polymer Exchange Membrane Fuel Cell (PEM Fuel Cell) and Solid Oxide Fuel Cells (SOFC) technologies are being considered attractive alternatives to conventional diesel trucks and buses. Countries are actively supporting fuel cell trucks in Europe and Asia. Many pilot projects are underway in the Americas.
For instance, Nikola Corporation received a California Air Resources Board (CARB) Zero Emission Powertrain Executive Order in December 2022. The executive order is required by Nikola's Tre hydrogen fuel cell electric vehicle (FCEV) for it to be eligible for CARB's Hybrid and Zero Emission Truck and Bus Voucher Incentive Project (HVIP).
The US Energy Department's Argonne National Laboratory is developing a new, cost-saving hydrogen fuel station compressor that allows for more efficient refueling as part of its continued support for hydrogen fuel cell trucks and other vehicles.
Many nations have started recognizing fuel cell vehicles as an ideal mode of public transportation. For instance, the government of India plans to test hydrogen-powered buses in Leh (Ladakh) for public transportation, as part of an effort to promote renewable energy. The New York Metropolitan Transportation Authority (MTA) recently announced its plans to deploy two hydrogen fuel cell buses on a pilot basis.
In China, fuel cell Heavy Duty Vehicles (HDVs) constituted a significant 98% of their total cumulative FCEV sales up to 2022. However, in Germany, Japan, South Korea, and the United States, fuel cell HDVs represented much smaller portions, making up only 8.9%, 1.3%, 1.1%, and 0.6% of their respective total heavy duty FCEV sales.
Fuel cell manufacturers and automotive OEMs are investing heavily in increasing manufacturing capacity to reduce costs and cater to growing demand in the future. However, currently, despite several benefits, FCEVs’ adoption is limited by three major constraints: high costs, technical challenges, and a lack of hydrogen distribution and production infrastructure.
The uptake of FCEVs is predicted to be significant only in the long term. This is because of the considerable barriers, including the achievement of cost reductions by OEMs, the development of infrastructure, and the identification and standardization of the most efficient solution for hydrogen production. Despite the above constraints, various policy options being put into action by governments across the globe to promote and accelerate FCVs adoption are expected to fast-track the uptake process.
Fuel Cells in Power Generation and Backup
Organizations are looking at fuel cells as a pragmatic way to get reliable backup power because of the vulnerabilities associated with dependence on the central grid. Fuel cells have been proved to be a great energy source for backup power in times of crisis. For instance, after Hurricane Sandy hit the Caribbean and East Coast in 2012, fuel cells supplied emergency backup power to telecommunication towers in the Bahamas and the Northeast United States. When run times of three days or less are enough, fuel cells can be much cheaper than systems with batteries and generators.
Stationary Fuel cells are making inroads into the power generation market. Stationary fuel cells provide dependable, efficient, and clean off-grid power to homes, companies, telecommunications networks, utilities, and other structures through an electrochemical reaction rather than combustion.
Without the concern of efficiency losses associated with long-distance grid transmission, these systems directly supply electricity to clients on-site. Additionally, stationary fuel cells can be deployed almost anywhere due to their quiet operation and low emissions.
Furthermore, stationary fuel cell systems are significantly smaller and require less space relative to other sustainable energy technologies. For instance, around an acre of land can be used to site a 10 MW fuel cell facility. In contrast, roughly 10 acres and about 50 acres, respectively, are needed for each MW of solar and wind energy.
For instance, in Sept 2021, South Korea began the operation of the world’s largest hydrogen fuel cell power plant in its port city of Incheon. With a production capacity of 78.96 MW, the plant is capable of providing clean electricity to around 250,000 households per year.
The stationary application is the largest segment of the fuel cell market. While the transportation segment is expected to pick up the pace during the forecast period owing to the increasing availability of hydrogen fueling stations across different nations, mass production at full scale globally is expected to come to fruition around 2024 and 2025.
Regional Analysis
The Asia Pacific hydrogen fuel cell market is currently leading the global fuel cell landscape. The market in this region is driven by factors such as increasing government support for the deployment of fuel cell systems in order to achieve emission reduction targets and develop regional hydrogen economy, rapidly growing power generation and transportation industries, and a significant presence of key market players in countries such as Japan, South Korea, and China.
According to the Hydrogen Council, the total global capacity for fuel cell manufacturing currently stands at 12 GW, with Japan and South Korea leading as the largest supply markets. This growth indicates the increasing momentum and commitment towards hydrogen-based technologies on a global scale.
Opportunities
The maritime industry is under increasing pressure to reduce emissions. As a result, it is anticipated that alternative fuels and energy sources will be essential to the reduction of SOx, NOx, PM, and CO2 emissions. In addition to cutting-edge systems and technology for conventional engines, fuel cell power systems are being considered as a significant choice to enhance the usage of alternative fuels.
Operators of commuter rail in Europe are looking for decarbonization solutions as they look at shifting away from diesel. So effectively, with about 15,000 diesel trains in Europe that need to be replaced over the next 15 years, including about 3,000 in Germany alone point out at a huge market opportunity for the fuel cell manufacturers.
The increasing demand for clean transportation, such as fuel cell electric vehicles (FCEVs), and its promising aspects in long-haul trucks and other commercial fuel cell vehicles present a significant opportunity for the growth of the automotive fuel cell market in the transportation sector in the region.
Hydrogen production and distribution: the growing emphasis on developing hydrogen production and distribution infrastructure presents opportunities for the growth of the hydrogen fuel cell market.
The use of fuel cells for stationary power applications, such as power generation for buildings and data centers, presents an opportunity for the stationary fuel cell market to grow in this sector.
Recent Developments
In July 2023, SFC Energy AG, a prominent provider of hydrogen and methanol fuel cells for both stationary and mobile hybrid power solutions, initiated the manufacturing of these fuel cells at its facility in New Delhi/Gurgaon, India.
In July 2023, Toyota Motors unveiled its strategic vision to concentrate on marketing hydrogen-powered trucks and cars primarily in Europe and China. This initiative is part of their ambitious goal to sell a total of 200,000 hydrogen-powered vehicles globally by the year 2030.
The Bosch Group has announced the commencement of volume production of fuel-cell power modules at its facility in Stuttgart-Feuerbach, Germany. As a significant milestone, the company announced its partnership with the US-based Nikola Corporation, which will act as the pilot customer for Bosch's fuel cell technology.
Bloom Energy Corporation (BE) and U.K. hydrocarbon producer Perenco have partnered to deploy 2.5 megawatts (MWs) of BE's solid oxide fuel cells (SOFC) at Wytch Farm, an onshore oil field in Dorset, England. The installation of this platform is scheduled for late 2023.
In May 2023, BASF Environmental Catalyst and Metal Solutions, a renowned global leader in precious metals and catalysis, teamed up with Advent Technologies Holdings, Inc., a prominent innovator in the fuel cell and hydrogen technology sectors. Together, they have reached a new agreement to collaborate on establishing a comprehensive component supply chain for fuel cells. Furthermore, both companies are in discussions to expand their partnership into the domain of water electrolysis, reinforcing their commitment to advancing clean and sustainable energy solutions in the fuel cell and hydrogen industries.
The U.S. Department of Energy (DOE), in May 2023, announced the allocation of USD 42 million in funding for 22 projects in 14 states to advance clean hydrogen technologies. Managed by the Hydrogen and Fuel Cell Technologies Office (HFTO), the projects will focus on solar fuels, using sunlight to produce clean hydrogen.
In April 2023, Norwegian cleantech company TECO 2030 ASA initiated manual production of hydrogen fuel cell stacks at its Innovation Center located in Narvik, Norway. This move marks a significant step in the company's efforts to advance clean hydrogen technology and contribute to the development of sustainable energy solutions.
Korea Shipbuilding & Offshore Engineering (KSOE), the intermediate holding company of HD Hyundai, signed a memorandum of understanding (MOU) with Fraunhofer IKTS (Europe's largest research institute and a fuel cell stack manufacturer) in January 2023 to develop fuel cell systems for ships and power generation and acquire technologies for green hydrogen production.
In Dec 2022, Electric truck maker Nikola and Plug Power Inc., a fuel cell maker, formed a supply partnership to accelerate the use of green hydrogen. Under the agreement, Plug Power will supply Nikola with up to 125 tons of green hydrogen per day and sell it equipment to convert 30 tons of hydrogen gas into a liquified form per day at a hydrogen production facility Nikola is building in Arizona.
The economic downturn induced by the coronavirus hindered the sales of FCEVs due to the financial uncertainty faced by OEMs and customers. However, in the medium to long term, the fundamentals are strong, so the market is expected to proliferate during the forecast period.
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The study examines the drivers, restraints, and regional trends influencing Global hydrogen fuel cells market demand and growth.
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What Do We Cover in the Report?
Global Hydrogen Fuel Cell Market Drivers & Restraints
The study covers all the major underlying forces that help the market develop and grow and the factors that constrain market growth.
The report includes a meticulous analysis of each factor, explaining the relevant, qualitative information with supporting data.
Each factor's respective impact in the near, medium, and long term will be covered using Harvey balls for visual communication of qualitative information and as a guide for you to analyze the degree of impact.
Global Hydrogen Fuel Cell Market Analysis
This report discusses an overview of the market, the latest updates, important commercial developments and structural trends, and government policies and regulations
This section provides an assessment of COVID-19's impact on global hydrogen fuel cells market demand.
Global Hydrogen Fuel Cell Market Size and Demand Forecast
The report provides global market size and demand forecast until 2028, including year-on-year (YoY) growth rates and CAGR.
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The report examines the critical elements of the Global Hydrogen Fuel Cell industry supply chain, its structure, and the participants.
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The report dissects the Global Hydrogen Fuel Cells Market into segments based on application and geographical regions. A detailed summary of the current scenario, recent developments, and market outlook will be provided for each segment.
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Regional Market Analysis
The report covers detailed profiles of major countries across the world. Each country's analysis covers the current market scenario, market drivers, government policies and regulations, and market outlook.
In addition, market size, demand forecasts, and growth rates will be provided for all regions.
Following are the notable countries covered under each region.
North America: United States, Canada, Mexico, and the Rest of North America
South America: Argentina, Chile, and the Rest of South America
Europe: Germany, France, the United Kingdom (UK), Russia, and the Rest of Europe
Asia-Pacific: China, India, Japan, South Korea, Australia, and the Rest of APAC
Middle-East & Africa: Saudi Arabia, Brazil, South Africa, and other countries
Key Company Profiles
This report presents detailed profiles of Key companies in the Global Hydrogen Fuel Cell industry, such as Doosan Fuel Cell, Bloom Energy, Ballard Power Systems Inc., Plug Power Inc., etc.
Generally, each company profile includes an overview of the company, relevant products and services, a financial overview, and recent developments.
Competitive Landscape
The report provides a comprehensive list of notable companies in the market, including mergers and acquisitions (M&As), joint ventures (JVs), partnerships, collaborations, and other business agreements.
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Executive Summary
Executive summary will be jam-packed with charts, infographics, and forecasts. This chapter summarizes the findings of the report crisply and clearly.
The report begins with an Executive Summary chapter and ends with Conclusions and Recommendations.
Also, check out our latest reports on
Global Hydrogen Fuel Cell Truck (FCT) Market
Global Fuel Cell Electric Vehicle (FCEV) Market
Global Solid Oxide Fuel Cell (SOFC) Market
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