Automotive Gas Cylinder Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, 2021-2031

The Global Automotive Gas Cylinder Market is projected to expand from USD 9.57 Billion in 2025 to USD 12.77 Billion by 2031, reflecting a compound annual growth rate of 4.93%. This industry involves the manufacturing of pressure vessels specifically engineered to store liquefied petroleum gas, compressed natural gas, and hydrogen for vehicle propulsion.

Market momentum is primarily sustained by strict emission regulations and a worldwide shift toward low-carbon energy sources, prompting government incentives for alternative fuel technologies. According to the Hydrogen Council, committed investments in clean hydrogen projects that reached the final investment decision stage rose to roughly USD 75 billion in 2024. This significant influx of capital highlights the growing financial backing for the infrastructure necessary to support alternative fuels.

Aside from these primary drivers, the industry is experiencing a notable shift toward Type IV composite cylinders, which offer substantial weight advantages compared to conventional steel counterparts. However, the market faces a major hurdle in the form of high costs associated with establishing extensive refueling infrastructure. These financial demands limit network density and consumer accessibility, which ultimately restricts the widespread adoption of gas-powered vehicles in crucial regions.

Market Drivers

The rising uptake of hydrogen, LPG, and CNG vehicles serves as a major force driving the global automotive gas cylinder market. As the automotive sector pivots to achieve decarbonization goals, there has been a surge in demand for specialized on-board storage systems compatible with alternative propulsion methods. This movement is especially prominent within the hydrogen landscape, where the expansion of fuel cell electric vehicles (FCEVs) necessitates the use of high-pressure Type IV composite cylinders. According to the International Energy Agency's 'Global EV Outlook 2024' released in April 2024, the global inventory of fuel cell electric vehicles grew by nearly 20% in 2023, totaling 87,600 units. This increase in vehicle deployment directly boosts manufacturing volumes for gas containment solutions, as original equipment manufacturers require lightweight vessels to guarantee safety and range efficiency.

Concurrently, supportive government subsidies and incentives for green mobility play a crucial role in mitigating the high upfront costs linked to alternative fuel technologies. By offering grants for vehicle acquisition and funding the substantial capital needed for refueling networks, policymakers effectively lower risks for manufacturers and consumers alike.

For example, the U.S. Department of Energy announced in November 2024 that the administration awarded up to USD 2.2 billion to two Regional Clean Hydrogen Hubs to expedite infrastructure expansion and commercial-scale deployment. Such significant public investment enhances industry confidence, as evidenced by the financial results of major component suppliers. Highlighting this sector-wide growth, Hexagon Purus reported record quarterly revenue of NOK 544 million in November 2024, marking a 43% rise from the same period the prior year, largely due to demand for mobility and hydrogen infrastructure.

Market Challenges

The substantial expense involved in developing widespread refueling infrastructure represents a major obstacle to the growth of the Global Automotive Gas Cylinder Market. Establishing a dependable and dense network for hydrogen and compressed natural gas necessitates immense capital investment, often requiring specialized safety equipment and high-pressure storage that drastically elevate initial project costs. This financial constraint limits the rate at which refueling stations can be established, resulting in considerable gaps in geographic coverage. As a result, individual consumers and fleet operators encounter logistical inflexibility and range anxiety, which directly suppresses the demand for both gas-powered vehicles and the pressure vessels they require.

This insufficient infrastructure density pushes the market into a stagnant cycle. Without an adequate number of accessible refueling points, vehicle manufacturers remain reluctant to increase production, which subsequently lowers the volume of gas cylinder orders from suppliers. The gravity of this infrastructure deficit is highlighted by recent industry statistics. According to The Transport Project, the combined network of public natural gas fueling stations throughout Canada and the United States consisted of approximately 1,600 locations in 2024. This scarce availability, when compared to the extensive transportation network, underscores the logistical and financial hurdles barring the wider adoption of gas-powered transport.

Market Trends

The integration of IoT-enabled smart cylinder monitoring is evolving pressure vessels from passive storage containers into intelligent data nodes that broadcast essential status metrics. This trend entails embedding advanced connectivity modules and sensors directly into cylinder valves to monitor geolocation, internal pressure, and gas levels in real time.

For fleet operators and distributors, this connectivity facilitates automated replenishment models and predictive maintenance, thereby eliminating unexpected run-outs and significantly lowering logistical inefficiencies. This transition toward digital precision is swiftly replacing conventional mechanical gauges, which often suffer from estimation errors and poor visibility. For instance, Rotarex SRG introduced a patented digital multivalve system in February 2024 capable of delivering precise electronic level readings over a 3% to 80% range, offering a marked improvement in accuracy over traditional float-based mechanical options.

At the same time, the market is being defined by strategic alliances for fuel cell vehicle integration, as automotive OEMs form deep partnerships with cylinder manufacturers to guarantee supply chains for high-performance storage systems. These collaborations are crucial for refining Type IV composite cylinder designs to accommodate the specific chassis limitations of commercial fuel cell electric vehicles (FCEVs) while satisfying strict range and safety standards. By shifting from transactional supplier interactions to co-development partnerships, manufacturers are effectively scaling production to address the needs of heavy-duty transport decarbonization. Highlighting the magnitude of this industrial expansion, Forvia reported in May 2024 that it had delivered and produced over 11,000 hydrogen tanks worldwide in 2023, reflecting the increasing volume of serial production contracts driving this integration.

Key Players Profiled in the Automotive Gas Cylinder Market

• Luxfer Holdings PLC
• Ryder Industries Ltd.
• Hexagon Purus ASA
• Stellantis N.V.
• Worthington Cylinders GmbH
• Nexteer Automotive Corporation
• Everest Kanto Cylinder Ltd.
• Krosaki Harima Corporation
• Chengdu Yachuan Gas Equipment Co., Ltd.
• Stelrad Group PLC

Report Scope

In this report, the Global Automotive Gas Cylinder Market has been segmented into the following categories:

Automotive Gas Cylinder Market, by Product Type:

• Type 1
• Type 2
• Type 3
• Type 4
• Type 5

Automotive Gas Cylinder Market, by Vehicle Type:

• Passenger
• Light Commercial
• Heavy Commercial

Automotive Gas Cylinder Market, by Material Type:

• Steel
• Aluminium
• Composite

Automotive Gas Cylinder Market, by Region:

• North America
• Europe
• Asia-Pacific
• South America
• Middle East & Africa

Competitive Landscape

Company Profiles: Detailed analysis of the major companies present in the Global Automotive Gas Cylinder Market.

Available Customization

The analyst offers customization according to your specific needs. The following customization options are available for the report:

• Detailed analysis and profiling of additional market players (up to five).

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