Industrial Gases for Glass Market - Global Industry Size, Share, Trends, Opportunity, and Forecast Segmented By Type (Hydrogen, Oxygen, Nitrogen, Argon and Acetylene), By Glass Type (Container Glass, Flat Glass and Glass Fiber), By Function (Forming & Melting, Atmospheric Control and Finishing/Polishing), By Transportation Mode (Cylinder & Packaged Gas Distribution, Merchant Liquid Distribution and Tonnage Distribution), By Region and Competition, 2020-2030F

Market Overview

The Global Industrial Gases for Glass Market, valued at USD 5.15 Billion in 2024, is projected to experience a CAGR of 10.02% to reach USD 9.13 Billion by 2030. Industrial gases for the glass market, encompassing oxygen, nitrogen, hydrogen, and argon, are integral to various glass manufacturing processes, including melting, forming, and finishing, enhancing efficiency, quality, and environmental performance. The market's expansion is primarily driven by escalating global demand for glass in construction, automotive, and packaging sectors, the growing adoption of oxygen-fuel combustion in furnaces for improved energy efficiency, and the increasing application of specialty gases for advanced glass types.

According to Glass Alliance Europe, overall glass production in Europe decreased by 4% in 2024, totaling slightly over 36 million tonnes, reflecting an influential factor on industrial gas demand. A significant challenge impeding market expansion is the volatility in raw material and energy prices, which substantially impacts operational costs for glass manufacturers and their investment in gas-intensive advanced production technologies.

Key Market Drivers

Technological advancements in glass manufacturing processes represent a critical driver for the global industrial gases for glass market. Innovations such as oxygen-fuel combustion and advanced annealing techniques significantly optimize energy consumption and enhance product quality, directly influencing the demand for industrial gases like oxygen and nitrogen. These technological shifts require precise gas mixtures and controlled environments to achieve desired material properties and production efficiencies. For instance, the transition to more efficient melting furnaces often involves increased oxygen enrichment, leading to higher consumption of industrial oxygen. According to Gerresheimer, in May 2023, the company announced an investment of approximately €80 million in two new glass furnaces scheduled to go into operation in 2024 and 2025, highlighting ongoing investment in advanced manufacturing capabilities that are inherently gas-intensive.

The increasing demand for specialty and high-performance glass also substantially influences the market for industrial gases. This segment includes glass for pharmaceutical packaging, display technologies, and automotive applications, which often necessitate strict quality control and unique material characteristics achievable through specialized production methods. These methods frequently rely on ultra-high purity gases and specific gas compositions during forming, coating, and heat treatment to impart properties like strength, optical clarity, or chemical resistance. According to Corning Incorporated, in January 2024, its Specialty Materials segment reported $1.0 billion in net sales for Q4 2023, reflecting sustained demand for advanced glass products. Overall, the European glass packaging industry produced 21.6 million tonnes of glass packaging in 2023, according to FEVE, in June 2024, illustrating the substantial scale of glass production globally that depends on a consistent supply of industrial gases.

Download Free Sample Report

Key Market Challenges

The volatility in raw material and energy prices presents a significant challenge for the Global Industrial Gases for Glass Market. This instability directly elevates operational costs for glass manufacturers, affecting their profitability and ability to fund improvements. Consequently, investment in crucial gas-intensive advanced production technologies, which rely on industrial gases such as oxygen and nitrogen to enhance efficiency and product quality, is curtailed or postponed.

Reduced capital expenditure in new facilities and upgrades within the glass manufacturing sector directly hampers the growth of the industrial gases market. This situation leads to a decrease in demand for advanced gas applications designed for optimized glass melting, forming, and finishing processes. According to the WKO Statistical Report 2024-2025, total employment in the European glass industry experienced a decline of 1.1% in 2024 compared to the previous year, with numbers falling from 178,000 to 176,000. This contraction in workforce indicates a broader reduction in industry activity, which inevitably translates to lower operational throughput and subsequently diminished consumption of industrial gases. The prevailing uncertainty surrounding energy expenses dissuades glass manufacturers from committing to long-term investments that would otherwise drive increased demand for industrial gas supply.

Key Market Trends

The two most significant trends influencing the Global Industrial Gases for Glass Market are the growing adoption of green hydrogen for glass melting and the deployment of smart gas management systems. These trends represent distinct pathways for sustainable and efficient glass production.

The growing adoption of green hydrogen for glass melting signifies a pivotal shift towards decarbonization within glass manufacturing, moving beyond traditional fossil fuels and even conventional industrial hydrogen. The integration of green hydrogen, produced via renewable electricity, directly influences the demand landscape for industrial gases by fostering a new supply chain and requiring adapted furnace designs and gas delivery systems. Glass manufacturers are actively exploring and implementing pilot projects to assess the viability and scalability of this sustainable fuel source. For instance, AGC (AGC Inc. ) announced in October 2023 that it successfully conducted a demonstration test of glass production using hydrogen as fuel in an actual production furnace at its Kansai Plant in Japan. According to FEVE, the European container glass federation, in June 2024, the sector aims to reduce its direct CO2 emissions by 50% by 2030, with green hydrogen identified as a critical element in achieving this ambitious target. This transition is expected to drive substantial investments in hydrogen production, storage, and distribution infrastructure, thereby impacting the industrial gas market.

The deployment of smart gas management systems represents a significant move towards enhancing operational efficiency, safety, and sustainability across glass production facilities. These advanced systems leverage sensors, data analytics, and automation to monitor, control, and optimize gas consumption in real-time, reducing waste and ensuring precise delivery for various processes. Such technological integration directly influences the industrial gases market by enabling more efficient utilization of gases like oxygen, nitrogen, and argon, potentially reducing overall consumption per unit of glass produced while maintaining or improving product quality. Air Products (Air Products Inc. ) showcased new industrial gas supply innovations and smart technologies for glass melting at the 86th Conference on Glass Problems in October 2025, aimed at increasing production and reducing fuel consumption. According to FEVE, in its June 2024 report, the European container glass industry invested approximately €700 million in 2023, with a substantial portion allocated to furnace modernizations and efficiency upgrades that often incorporate such intelligent systems. This trend fosters a demand for integrated gas supply solutions that include digital monitoring and predictive maintenance capabilities, moving beyond simple bulk gas delivery.

Segmental Insights

The Atmospheric Control segment within the Global Industrial Gases for Glass Market is experiencing rapid growth due to increasing demands for enhanced product quality and operational efficiency. Industrial gases such as nitrogen and hydrogen are crucial for preventing undesirable reactions and defects, particularly in sophisticated processes like float glass manufacturing where maintaining an inert environment protects the glass surface and equipment. Furthermore, these gases optimize combustion, contributing to improved melting efficiency and overall glass product consistency. This emphasis on precision and superior output, driven by advancements in glass manufacturing technologies and sustainable practices, underpins the segment's expansion. The ability to mitigate atmospheric contaminants during production processes is paramount for achieving high-performance glass.

Regional Insights

Asia Pacific stands as the leading region in the global industrial gases for glass market, driven by substantial industrial expansion and rapid urbanization across its key economies. The region's robust growth in construction and automotive sectors fuels a significant demand for various glass products, directly impacting the need for industrial gases in their production. Furthermore, regional initiatives prioritizing sustainable manufacturing and increasingly stringent environmental regulations encourage the adoption of advanced melting technologies and cleaner combustion methods, such as oxygen-enriched processes, which are highly reliant on industrial gases. This convergence of industrial growth and a focus on sustainable practices firmly establishes Asia Pacific's market dominance.

Recent Developments

• In September 2025, Linde introduced its latest innovations for the glass industry, including the OPTIFIRE™ family of burners and the OPTIMELT™ Thermochemical Regenerator technology. These advancements are designed to enhance glass manufacturing efficiency and support decarbonization efforts. The OPTIFIRE™ burners, utilizing oxy-fuel melting, aim to decrease fuel consumption and increase productivity through faster melting cycles. Additionally, the OPTIMELT™ technology is an advanced heat recovery system for oxyfuel-fired glass furnaces, offering significant reductions in energy consumption and associated carbon dioxide emissions.

• In February 2025, Linde announced securing a record number of 59 new long-term agreements during 2024 for small on-site nitrogen and oxygen supply projects. These agreements included collaborations with glass manufacturers who are actively seeking ways to reduce emissions and improve operational efficiency. The projects leverage Linde's proprietary ECOVAR® technology, known for its efficiency, adaptability, and reliability. This initiative represents new collaborations and expanded deployments of industrial gas solutions directly supporting the glass market's sustainability and productivity goals.

• In September 2024, Air Liquide announced successful tests, conducted in February 2024, in collaboration with SGD Pharma, a pharmaceutical glass container manufacturer. These tests focused on the partial replacement of natural gas with hydrogen for glass melting, a critical step in decarbonizing the energy-intensive glass industry. The research demonstrated that up to 50% of natural gas could be substituted with hydrogen without compromising glass quality or furnace performance. This breakthrough research highlights hydrogen as a promising industrial gas solution to achieve zero greenhouse gas emissions during combustion.

• In March 2024, Europe’s first carbon capture trial in the flat glass industry commenced at Pilkington UK’s Greengate manufacturing site, part of the NSG Group. This collaborative project, led by C-Capture as part of the XLR8 CCS initiative, aims to deploy a low-cost carbon capture solution for hard-to-abate industries. A carbon capture solvent compatibility unit successfully began separating CO2 from waste flue gas from an industrial glass-making furnace. This breakthrough research and collaboration underscore efforts to integrate industrial gas-related technologies for significant emission reductions in glass production.

Key Market Players

• Air Products & Chemicals, Inc.
• Linde plc
• Praxair, Inc.
• Taiyo Nippon Sanso Corporation
• Air Liquide SA
• Gulf Cryo Holding CSC
• HyGear B.V.
• Iwatani Corporation
• Yingde Gas Group Co. Ltd.
• Messer SE & Co. KGaA

Report Scope:

In this report, the Global Industrial Gases for Glass Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

• Industrial Gases for Glass Market, By Type:

o   Hydrogen

o   Oxygen

o   Nitrogen

o   Argon

o   Acetylene

• Industrial Gases for Glass Market, By Glass Type:

o   Container Glass

o   Flat Glass

o   Glass Fiber

• Industrial Gases for Glass Market, By Function:

o   Forming & Melting

o   Atmospheric Control

o   Finishing/Polishing

• Industrial Gases for Glass Market, By Transportation Mode:

o   Cylinder & Packaged Gas Distribution

o   Merchant Liquid Distribution

o   Tonnage Distribution

• Industrial Gases for Glass Market, By Region:

o   North America

§  United States

§  Canada

§  Mexico

o   Europe

§  France

§  United Kingdom

§  Italy

§  Germany

§  Spain

o   Asia Pacific

§  China

§  India

§  Japan

§  Australia

§  South Korea

o   South America

§  Brazil

§  Argentina

§  Colombia

o   Middle East & Africa

§  South Africa

§  Saudi Arabia

§  UAE

Competitive Landscape

Company Profiles: Detailed analysis of the major companies presents in the Global Industrial Gases for Glass Market.

Available Customizations:

Global Industrial Gases for Glass Market report with the given market data, TechSci Research offers customizations according to a company's specific needs. The following customization options are available for the report:

Company Information

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

Global Industrial Gases for Glass Market is an upcoming report to be released soon. If you wish an early delivery of this report or want to confirm the date of release, please contact us at [email protected]