Europe Hydrogen Storage Tanks and Transportation Market
Europe Hydrogen Storage Tanks and Transportation Market by Modular Storage (Fuel Storage, Distribution Systems), Application (Vehicles, Railways, Marine, Stationary Storage, Trailers), Tank Type (Type 1, 2, 3, 4), Pressure - Forecast to 2030
OVERVIEW
Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis
The hydrogen storage tanks & transportation market in Europe is projected to reach USD 379.4 million by 2030 from USD 34.9 million in 2025, at a CAGR of 61.2%, driven by strong policy support under decarbonization targets, increasing investments in hydrogen infrastructure, and growing adoption of hydrogen across mobility and industrial sectors. The market is further supported by the rapid expansion of hydrogen refueling networks, advancements in storage technologies such as lightweight composite and cryogenic tanks, and rising demand for efficient storage and long-distance transportation solutions. Additionally, Europe’s focus on energy security, cross-border hydrogen trade, and large-scale green hydrogen projects is accelerating the development of a robust hydrogen storage and transportation ecosystem across the region.
KEY TAKEAWAYS
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BY COUNTRYThe Netherlands is expected to register the highest CAGR in the hydrogen storage tanks & transportation market in Europe, driven by strong government support, large-scale hydrogen import and storage projects, and its strategic position as a key logistics hub for hydrogen distribution across Europe.
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BY MODULAR STORAGEThe hydrogen fuel storage systems segment accounted for the largest market share of 63.2% in 2024.
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By APPLICATIONThe vehicles segment is likely to record the highest CAGR of 67.4% during the forecast period due to the increasing adoption of fuel cell vehicles (FCVs) across passenger and commercial transportation, supported by government incentives and decarbonization targets.
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By CONTAINER STORAGE CAPACITYThe 40ft segment is likely to record the highest CAGR during the forecast period.
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BY TANK TYPEThe type 4 segment accounted for the largest market share of 50.1% in 2024.
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BY PRESSUREThe 200-500 bar segment is likely to record the highest CAGR during the forecast period.
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COMPETITIVE LANDSCAPE - KEY PLAYERSKey players such as Hexagon Purus (Norway), Worthington Enterprises (US), Plastic Omnium (France), Tenaris (US), and Luxfer Holdings PLC (UK) have formed strategic collaborations and project-based partnerships to explore hydrogen generation methods.
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COMPETITIVE LANDSCAPE - STARTUPS/SMESBayoTech (US) and NPROXX (Netherlands) emerge as key startups/SMEs in the market, driven by their focus on innovative and low-carbon hydrogen solutions.
The hydrogen storage tanks & transportation market in Europe is growing rapidly due to a strong regulatory push toward decarbonization, ambitious net-zero targets, and extensive government funding for hydrogen infrastructure development. The region is witnessing increasing adoption of hydrogen across mobility, energy, and industrial sectors, supported by expanding refueling networks and cross-border hydrogen transport initiatives. Additionally, rising investments in green hydrogen production, coupled with advancements in lightweight composite and cryogenic storage technologies, are driving demand for efficient storage and transportation solutions. Europe’s focus on energy security and reducing dependence on fossil fuel imports is further accelerating the development of a robust hydrogen logistics ecosystem across the region.
TRENDS & DISRUPTIONS IMPACTING CUSTOMERS' CUSTOMERS
The hydrogen storage tanks & transportation market in Europe is projected to register a CAGR of 56.2% during the forecast period. Hydrogen storage tanks & transportation manufacturers such as Worthington Enterprises (US), Hexagon Purus (Norway), Tenaris (US), Plastic Omnium (France), and Luxfer Holdings PLC (US) have diversified their product and service offerings across the entire value chain to expand their revenue streams. They are diversifying their business—from traditional operations toward digitization—and have started transitioning toward adopting refrigerants featuring low emissions.
Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis
MARKET DYNAMICS
Level
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Growing adoption of low-emission fuels
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Rising deployment of hydrogen storage tanks in transportation applications
Level
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Energy loss during hydrogen production
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High cost of composite material-based tanks and strict regulatory approvals
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Advancements in storage technologies
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Growing government programs to assist hydrogen economy growth
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High costs associated with blue hydrogen production
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Safety concerns related to hydrogen storage and transportation
Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis
Driver: Growing adoption of low-emission fuels
Low-emission fuels, including liquid and gaseous biofuels, as well as hydrogen and its derivatives, are pivotal for reducing emissions, particularly in sectors where direct electrification presents challenges or is economically unfeasible, such as heavy industry and long-distance transportation. Despite their significance, these cleaner fuel options only represented approximately 3% of global final energy consumption in 2023. Notably, hydrogen stands out for its cleaner combustion properties, containing less carbon than traditional fossil fuels and emitting fewer CO2 emissions. The production of hydrogen has been steadily increasing over time, propelled by the implementation of stricter environmental regulations and more demanding engine specifications.
Restraint: Energy loss during hydrogen production
Hydrogen's economic feasibility and environmental sustainability as an energy carrier are significantly impacted by energy loss during manufacturing. Hydrogen can be produced by a variety of techniques, including biomass gasification, electrolysis, and steam methane reforming (SMR). All of the methods have considerable energy requirements and related losses throughout the conversion processes, even if each one has its own unique benefits. In addition to raising operating expenses, the energy losses in hydrogen generation lessen the benefits hydrogen has for the environment as a clean energy source. Modern technology, more efficient processes, and the incorporation of renewable energy sources are all necessary to reduce these losses. The secret to boosting the efficiency of reactor designs, the creation of new materials, and catalyst optimization is research and development.
Opportunity: Advancements in storage technologies
Advancements in storage technologies can lead to increased efficiency in hydrogen tanks and transportation systems, allowing for better utilization of hydrogen as an energy carrier. Improved efficiency in hydrogen storage technologies and transportation systems is a crucial driver for the broader adoption of hydrogen as an energy carrier. These advancements enable more effective utilization of hydrogen, contributing to the overall viability and sustainability of hydrogen-based energy solutions. Storing hydrogen gas within metal cylinders via compression is a widely adopted method. However, it presents a significant challenge in the form of hydrogen embrittlement, which poses a considerable threat to the integrity of the storage vessels. Hydrogen embrittlement denotes the process by which hydrogen atoms permeate and weaken the structural integrity of the metal, leading to potential deterioration and safety hazards. As such, mitigating strategies are imperative to safeguard against this phenomenon and ensure the reliability and safety of hydrogen storage systems.
Challenges:High costs associated with blue hydrogen production
Green hydrogen is obtained from renewable resources or low-carbon power. Green hydrogen can assist energy-intensive, difficult-to-decarbonize industries and sectors, such as steel, chemical, transportation, shipping, and aviation, in achieving net-zero CO2 emissions. However, production prices must be reduced to make it affordable for all nations. Blue hydrogen, created from fossil fuels and carbon capture and storage, costs twice as much as green hydrogen (CCUS). CCUS is still the primary low-carbon hydrogen generation method. It is likely to remain the same as production costs are lower than for other low-carbon technologies, such as water electrolysis. Electrolysis is an established technology that has long been employed in some industrial processes, such as the creation of chlorine in the chlor-alkali process. The production of dedicated hydrogen has not yet gained widespread use. Currently, 30 kt of hydrogen is created exclusively through electrolysis yearly, or around 0.03% of all hydrogen produced. The level is low because electrolytic hydrogen production costs (USD 3– 8/kg H2) are higher than those from unrestricted fossil fuels (USD 0.5–1.7/kg H2).
EUROPE HYDROGEN STORAGE TANKS AND TRANSPORTATION MARKET: COMMERCIAL USE CASES ACROSS INDUSTRIES
| COMPANY | USE CASE DESCRIPTION | BENEFITS |
|---|---|---|
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Nel Hydrogen aims to revolutionize hydrogen production and distribution for transit depots by implementing a novel approach. The company seeks to develop an efficient system that supports clusters of transit depot fueling sites. Specifically, it aims to produce green hydrogen at a low cost in regions that are abundant in renewable energy resources. This hydrogen will then be transported short distances to various fueling locations, facilitating easy swapping of full and empty trailers. The challenge lies in efficiently coordinating production, transportation, and distribution to meet the demands of multiple transit agencies while ensuring economic viability and environmental sustainability. | Nel Hydrogen's innovative strategy for low-cost green hydrogen production and efficient distribution presents a sustainable solution for supporting transit depot fueling sites. By installing an electrolyzer system with a capacity of 8,000 kg/day in an area abundant in renewable energy resources near the metro LA area, Nel secures a cost-effective Power Purchase Agreement (PPA) for hydrogen production. Transportation is optimized through the use of high-pressure trailers, facilitating uninterrupted supply to transit depots through seamless swapping and simultaneous filling at production and fueling sites. Leveraging renewable power ensures low carbon intensity, maximizing the value of Low Carbon Fuel Standard (LCFS) credits to offset operational costs. This approach is tailored to support four bus depots, each with a daily demand of 2,000 kg of hydrogen, thereby contributing to the transition toward clean energy transportation while addressing the specific challenges of transit depot fueling. Overall, Nel Hydrogen's integrated approach promises a sustainable and economically viable model for the hydrogen economy. |
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Honda Motor Company in Torrance, California, endeavored to create a smaller and more effective solar-hydrogen refueling station with the goal of making it suitable for household use. This station incorporates solar PV panels to generate electricity, enabling the production of hydrogen through electrolysis. While previous versions of Honda's refueling stations demonstrated progress in solar power technology, the newest iteration, introduced in early 2010, aimed to improve efficiency and affordability even further. Moreover, the station aimed to take advantage of emerging grid technologies such as net metering and smart grids to make the most efficient use of energy. | Honda Motor Company addressed the challenges and objectives by introducing a novel high-differential pressure electrolyzer in their new solar-hydrogen refueling station, eliminating the need for a compressor. This technological innovation resulted in a 25% improvement in system efficiency compared to previous iterations while simultaneously reducing the size and cost of critical components. The station's capacity and flow rate, albeit modest, were designed to produce 0.5 kg of hydrogen over an 8-hour period, deemed sufficient for a consumer with a consistent commute of 10,000 miles per year. Furthermore, the station was engineered to capitalize on net metering and anticipated smart grid advancements. By exporting surplus electrical power to the grid during daylight hours and drawing energy during off-peak times, the station optimally utilizes resources, thereby enhancing sustainability and cost-effectiveness. Through this integrated approach, Honda Motor Company showcased a pioneering solution in sustainable transportation infrastructure, setting a benchmark for compact and efficient hydrogen refueling systems with potential household applications. |
Logos and trademarks shown above are the property of their respective owners. Their use here is for informational and illustrative purposes only.
MARKET ECOSYSTEM
The hydrogen storage tanks & transportation market ecosystem in Europe is structured across a well-integrated value chain, starting with raw material suppliers such as Owens Corning, Jushi, and PPG Industries, which provide critical inputs like composites and glass fiber essential for high-pressure and lightweight storage solutions. These materials are utilized by storage tank providers, including Worthington Industries, Tenaris, and Hexagon Purus, who develop advanced hydrogen storage systems for various applications. The distribution layer is supported by players such as CATEC Gases, Pragma Industries, and Luxfer Gas Cylinders, enabling efficient movement of hydrogen through cylinders and transport systems. At the end-user level, companies like ElringKlinger, TotalEnergies, and Doosan drive demand through applications in mobility, energy, and industrial sectors, collectively contributing to the development of a scalable and efficient hydrogen storage and transportation infrastructure across the region.
Logos and trademarks shown above are the property of their respective owners. Their use here is for informational and illustrative purposes only.
MARKET SEGMENTS
Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis
Europe Hydrogen Storage Tanks & Transportation Market, By Modular Storage
By modular storage, the market is segmented into hydrogen fuel storage systems and hydrogen distribution systems, with hydrogen fuel storage systems expected to register a higher CAGR, driven by increasing adoption of fuel cell vehicles and the growing need for efficient onboard hydrogen storage solutions across mobility applications.
Europe Hydrogen Storage Tanks & Transportation Market, By Application
By application, the vehicles segment is expected to register the highest CAGR, driven by the rapid adoption of hydrogen fuel cell vehicles, supportive government incentives, and growing investments in hydrogen refueling infrastructure for both passenger and commercial mobility.
Europe Hydrogen Storage Tanks & Transportation Market, By Container Storage Capacity
By container storage capacity, the 40 ft segment is estimated to hold the largest market share, driven by its higher storage capacity, cost efficiency in bulk hydrogen transportation, and suitability for long-distance logistics and industrial-scale applications.
Europe Hydrogen Storage Tanks & Transportation Market, By Tank Type
By tank type, the type IV segment is estimated to hold the largest market share, driven by its lightweight composite structure, higher hydrogen storage efficiency, and growing adoption in mobility and high-pressure transport applications.
Europe Hydrogen Storage Tanks & Transportation Market, By Pressure
By pressure, the 200–500 bars segment is expected to register the highest CAGR, driven by its optimal balance between storage efficiency, safety, and cost-effectiveness for mobility and industrial applications.
REGION
Germany to be prominent market in Europe throughout forecast period
Germany is estimated to account for the largest share of the hydrogen storage tanks & transportation market in Europe, driven by strong industrial demand, significant investments in hydrogen infrastructure, and robust government support for energy transition and decarbonization initiatives. The country’s well-established manufacturing base and presence of key industry players further strengthen its position in the market. Additionally, expanding hydrogen refueling infrastructure and increasing adoption across mobility and industrial applications are supporting sustained market growth in Germany.
EUROPE HYDROGEN STORAGE TANKS AND TRANSPORTATION MARKET: COMPANY EVALUATION MATRIX
Hexagon Purus emerges as a star player in the hydrogen storage tanks & transportation market in Europe, driven by its strong portfolio in lightweight composite cylinders, established partnerships, and growing presence in hydrogen mobility applications. Meanwhile, Luxfer Holdings PLC is emerging as a key leader, supported by its expanding product offerings and increasing focus on advanced storage solutions to cater to evolving hydrogen infrastructure needs.
Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis
KEY MARKET PLAYERS
- Hexagon Purus (Norway)
- Worthington Enterprises (US)
- Plastic Omnium (France)
- Tenaris (US)
- Luxfer Holdings PLC (England)
- Marine Service Noord (Netherlands)
- UMOE Advanced Composites (Japan)
- BNH Gas Tanks LLP (India)
- Pragma Industries (France)
- Taizhan Strength Equipments Co., Ltd. (China)
- CALVERA HYDROGEN (Spain)
- Faber Italy (Italy)
- VAKO GMBH CO. KG (Germany)
- WELDSHIP (US)
- Advanced Structural Technologies (US)
- Mahytec (France)
- AMS Composite Cylinders (UK)
- Shijiazhuang Enric Gas Equipment Co., Ltd. (China)
- BayoTech (US)
- Doosan Mobility Innovation (South Korea)
- Quantum Fuel Systems LLC (US)
- Steelhead Composites, Inc. (US)
- NPROXX (Netherlands)
- Composite Advanced Technologies, LLC (US)
- ALSAFE COMPANY (China)
MARKET SCOPE
| REPORT METRIC | DETAILS |
|---|---|
| Market Size in 2024 (Value) | USD 26.2 MN |
| Market Forecast in 2030 (Value) | USD 379.4 MN |
| Growth Rate | CAGR of 61.2% from 2025 to 2030 |
| Years Considered | 2020-2030 |
| Base Year | 2023 |
| Forecast Period | 2025-2030 |
| Units Considered | Value (USD BN), Volume (Units) |
| Report Coverage | Revenue Forecast, Company Ranking, Competitive Landscape, Growth Factors, and Trends |
| Segments Covered |
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| Countries Covered | Italy, Germany, UK, France, Netherlands, Rest of Europe |
WHAT IS IN IT FOR YOU: EUROPE HYDROGEN STORAGE TANKS AND TRANSPORTATION MARKET REPORT CONTENT GUIDE
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RECENT DEVELOPMENTS
- June 2023 : Plastic Omnium and Rein Hytech, a subsidiary of Shenergy Group, formed a 50/50 joint venture called PO-Rein. This cooperative company intends to expedite China's hydrogen development. The agreement is a strategic step to strengthen Plastic Omnium's footprint in the Chinese market, notably in the realm of hydrogen technology. By merging the experience of Plastic Omnium and Rein Hytech, the joint venture contributes to the development of high-pressure hydrogen containers, which is in line with China's rising need for hydrogen solutions.
- February 2023 : Hexagon Purus secured an order to deliver mobile hydrogen refueling stations and stationary storage solutions to Deutsche Bahn, the German national railway company. This development underscores the increasing importance of hydrogen as a clean and sustainable energy source for transportation. The order encompasses both mobile hydrogen refueling stations and stationary storage units, showcasing Hexagon Purus's versatility in providing comprehensive hydrogen.
- May 2022 : Plastic Omnium partnered with Hyliko, which provides solutions for transporters and logistics operators. The partnership's first phase includes an order for 315 high-pressure hydrogen vessels to equip 45 vehicles by the end of 2024. The companies also intend to collaborate on the development of new hydrogen storage systems, which will boost truck ranges by about 60%.
- December 2020 : Worthington Enterprises launched a bundle, Max9 Bundle. The new Max9 Bundle features a distinctive steel frame as well as a new cylinder configuration that boosts storage capacity by nearly a quarter while maintaining the traditional bundle footprint.
Table of Contents
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Methodology
The study involved major activities in estimating the current size of the Europe hydrogen storage tanks and transportation market. Exhaustive secondary research was done to collect information on the peer and parent markets. The next step was to validate these findings, assumptions, and sizing with industry experts across the value chain through primary research. Both top-down and bottom-up approaches were employed to estimate the total market size. Thereafter, market breakdown and data triangulation were used to estimate the market size of the segments and subsegments.
Secondary Research
This research study on the Europe hydrogen storage tanks and transportation market involved the use of extensive secondary sources, directories, and databases, such as Hoover’s, Bloomberg, Factiva, IRENA, International Energy Agency, and Statista Industry Journal, to collect and identify information useful for a technical, market-oriented, and commercial study of the Europe hydrogen storage tanks and transportation market. The other secondary sources included annual reports, press releases & investor presentations of companies, white papers, certified publications, articles by recognized authors, manufacturer associations, trade directories, and databases.
Primary Research
The Europe hydrogen storage tanks and transportation market comprises several stakeholders, such as hydrogen storage tanks and transportation manufacturers, technology providers, and technical support providers in the supply chain. The demand side of this market is characterized by the rising demand for storage solutions in various applications such as energy, mobility, industrial, and transportation. The supply side is characterized by rising demand for contracts from the industrial sector and mergers & acquisitions among big players. Various primary sources from both the supply and demand sides of the market were interviewed to obtain qualitative and quantitative information. Following is the breakdown of primary respondents:
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Market Size Estimation
Both top-down and bottom-up approaches were used to estimate and validate the total size of the Europe hydrogen storage tanks and transportation market. These methods were also used extensively to estimate the size of various subsegments in the market. The research methodology used to estimate the market size includes the following:
- The key players in the industry and market have been identified through extensive secondary research, and their market share has been determined through primary and secondary research.
- The industry’s value chain and market size, in terms of value, have been determined through both primary and secondary research processes.
- All percentage shares, splits, and breakdowns have been determined using secondary sources and verified through primary sources.
Europe hydrogen storage tanks and transportation market Size: Top-Down Approach
Data Triangulation
After arriving at the overall market size from the above estimation process, the total market has been split into several segments and subsegments. Data triangulation and market breakdown processes have been employed to complete the overall market engineering process and arrive at the exact statistics for all the segments and sub-segments, wherever applicable. The data has been triangulated by studying various factors and trends from both the demand- and supply sides. Along with this, the market has been validated using both the top-down and bottom-up approaches.
Market Definition
Hydrogen can be stored or transported in cylinders, tubes, and cryogenic tanks as a compressed gas or cryogenic liquid for industrial usage or as a propellant in space missions. Hydrogen can be stored in three ways: as compressed gas in high-pressure tanks, as a liquid at -253°C in dewars, or in chemical form by reacting or adsorbing with chemicals or metal compounds. When resources run short, hydrogen stored in various forms can be recovered. In contrast to the energy held in batteries, which declines over time, hydrogen may be stored for extended periods.
Key Stakeholders
- Hydrogen Storage Tanks and Transportation Dealers and Suppliers
- Government and Research Organizations
- Power and Energy Associations
- Repairs and Maintenance Service Providers
- State and National Regulatory Authorities
- Research And Consulting Companies in the Clean Energy Generation Sector
- Organizations, Forums, Alliances, And Associations
- Industrial Authorities and Association
State and National Regulatory Authorities Objectives of the Study
- To define, describe, segment, and forecast the Europe hydrogen storage tanks and transportation market size, by tank type, pressure, modular storage, material type and application, in terms of value.
- To forecast the Europe hydrogen storage tanks and transportation market size, by tank type, and application in terms of volume.
- To forecast the market size across four key regions: North America, Europe, Asia Pacific, and RoW, along with country-level analysis, in terms of value and volume.
- To describe key elements required to manufacture a hydrogen storage tanks and transportation.
- To provide statistical data for installed hydrogen storage tanks and transportation for each region and country.
- To provide detailed information regarding key drivers, restraints, opportunities, and challenges influencing the market growth.
- To provide the supply chain analysis, trends/disruptions impacting customer business, market mapping, pricing analysis, and regulatory landscape pertaining to the Europe hydrogen storage tanks and transportation market.
- To strategically analyze the ecosystem, standards and regulations, patent analysis, trade analysis, Porter’s five forces, and case studies pertaining to the market under study.
- To strategically analyze micromarkets1 with respect to individual growth trends, prospects, contributions to the overall market size.
- To analyze opportunities for stakeholders in the Europe hydrogen storage tanks and transportation market and draw a competitive landscape for market players.
- To benchmark players within the market using the company evaluation matrix, which analyzes market players based on several parameters within the broad categories of business and product strategies.
- To compare the key market players with respect to the market share, product specifications, and applications.
- To strategically profile the key players and comprehensively analyze their market ranking and core competencies.
- To analyze competitive developments in the Europe hydrogen storage tanks and transportation market, such as contracts, agreements, investments, expansions, product launches, partnerships, joint ventures, and collaborations.
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Growth opportunities and latent adjacency in Europe Hydrogen Storage Tanks and Transportation Market