Global Cryogenic Equipment Market was valued at USD 21.08 billion in 2022 and is anticipated to project robust growth in the forecast period with a CAGR of 8.19% through 2028.
The cryogenic equipment market refers to the global industry involved in the design, manufacturing, and supply of specialized equipment designed to handle and manipulate materials at extremely low temperatures. This market encompasses a diverse range of products, including cryogenic storage tanks, liquefaction systems, vaporization units, and related components used in various applications such as healthcare, energy, aerospace, and industrial processes. Cryogenic equipment is essential for the storage, transportation, and processing of gases and fluids like nitrogen, oxygen, and liquefied natural gas (LNG) at temperatures below -150 degrees Celsius (-238 degrees Fahrenheit). The market is characterized by its technologically advanced products, stringent safety standards, and a complex regulatory landscape. As industries continue to evolve and demand for cryogenic applications grows, the cryogenic equipment market plays a crucial role in facilitating the efficient and safe handling of substances at extreme low temperatures across diverse sectors on a global scale.
Key Market Drivers
Increasing Demand in Healthcare and Medical Applications
The global cryogenic equipment market is experiencing a significant boost due to the rising demand in healthcare and medical applications. Cryogenic equipment, such as cryogenic storage tanks and cryogenic freezers, play a crucial role in the storage and transportation of medical gases, biological samples, and pharmaceutical products at extremely low temperatures. With the growth of the healthcare sector globally, there has been a parallel increase in the need for advanced cryogenic solutions.
Cryopreservation techniques, used in the storage of biological materials like stem cells, tissues, and organs, are becoming more prevalent. This is particularly important in the field of organ transplantation and regenerative medicine. As research and development in the healthcare industry continue to expand, the demand for cryogenic equipment is expected to rise, providing a substantial driver for the growth of the global cryogenic equipment market.
Expanding Applications in the Energy Sector
The energy sector is another major driver propelling the growth of the global cryogenic equipment market. Cryogenic technologies are widely employed in the liquefied natural gas (LNG) industry, enabling the efficient storage, transportation, and distribution of natural gas. The increasing focus on clean and sustainable energy sources has led to a surge in LNG projects globally, driving the demand for cryogenic equipment.
Moreover, the use of cryogenic equipment for the production of liquid hydrogen and oxygen is gaining traction in the space exploration sector. With governments and private entities investing heavily in space exploration and satellite deployment, the demand for cryogenic equipment for rocket propulsion systems and satellite launch vehicles is on the rise. This expanding application in the energy and space sectors is a crucial driver for the global cryogenic equipment market.
Growing Industrial Gas Demand
The industrial gas industry is a significant driver for the global cryogenic equipment market. Cryogenic equipment is extensively used in the production, storage, and distribution of industrial gases such as nitrogen, oxygen, and argon. These gases find applications in diverse industries, including manufacturing, metal fabrication, chemicals, and electronics. The increasing demand for industrial gases, driven by industrialization, is boosting the need for advanced cryogenic equipment.
The steel industry, for instance, relies heavily on oxygen produced through cryogenic processes for efficient steelmaking. Additionally, the electronics industry uses high-purity gases produced and stored with cryogenic equipment in the manufacturing of semiconductors. As various industries continue to expand and upgrade their processes, the demand for industrial gases and, consequently, cryogenic equipment is expected to grow, contributing to the overall growth of the market.
Advancements in LNG Infrastructure
The global focus on cleaner energy sources and the transition from traditional fuels to natural gas have led to significant advancements in liquefied natural gas (LNG) infrastructure. Cryogenic equipment, such as LNG storage tanks and vaporization systems, plays a critical role in the entire LNG value chain. The growing demand for LNG as a cleaner alternative to traditional fossil fuels, particularly in transportation and power generation, is driving investments in LNG infrastructure globally.
Countries are investing in expanding their LNG import and export capabilities, leading to the construction of new LNG terminals and liquefaction plants. This surge in LNG infrastructure projects is directly boosting the demand for cryogenic equipment. As the world aims to reduce greenhouse gas emissions and increase the share of natural gas in the energy mix, the demand for LNG and, subsequently, cryogenic equipment is anticipated to witness sustained growth.
Aerospace and Defense Applications
The aerospace and defense sector is emerging as a significant driver for the global cryogenic equipment market. Cryogenic technology is integral to the development and operation of space launch vehicles, satellite systems, and missile systems. Liquid oxygen and liquid hydrogen, stored and handled with cryogenic equipment, are commonly used as propellants in rockets and missiles.
As governments invest in space exploration and defense capabilities, there is a growing need for reliable and advanced cryogenic solutions. The development of space programs by both established space agencies and private aerospace companies is fueling the demand for cryogenic equipment. Additionally, the increasing geopolitical tensions are leading to investments in defense capabilities, further contributing to the growth of the cryogenic equipment market in the aerospace and defense sector.
Research and Development in Cryogenic Technologies
The continuous research and development in cryogenic technologies are driving innovations and advancements in cryogenic equipment. Scientists and engineers are exploring new materials, design concepts, and manufacturing processes to enhance the efficiency, safety, and reliability of cryogenic systems. This focus on innovation is resulting in the development of next-generation cryogenic equipment with improved insulation properties, reduced heat leakage, and increased durability.
The ongoing R&D efforts are also expanding the range of applications for cryogenic equipment, opening up new markets and opportunities. For example, cryogenic cooling systems are gaining prominence in the electronics industry for cooling high-performance computing systems and superconducting devices. The collaboration between research institutions, industry players, and government agencies is fostering a conducive environment for technological breakthroughs, positively influencing the growth of the global cryogenic equipment market.
In conclusion, the global cryogenic equipment market is being propelled by a convergence of factors, including the increasing demand in healthcare, expanding applications in the energy sector, growing industrial gas demand, advancements in LNG infrastructure, aerospace and defense applications, and ongoing research and development in cryogenic technologies. These drivers collectively contribute to the market’s growth and underscore the crucial role that cryogenic equipment plays across various industries and applications.
Government Policies are Likely to Propel the Market
Environmental Regulations and Emissions Standards
Governments worldwide are increasingly implementing stringent environmental regulations and emissions standards to address climate change and promote sustainable practices across industries. In the context of the global cryogenic equipment market, these policies play a pivotal role in shaping the industry’s trajectory.
To combat greenhouse gas emissions, governments are imposing limits on industrial processes, including those related to cryogenic technologies. For instance, regulations may mandate the reduction of fugitive emissions from cryogenic storage tanks and transportation systems. Additionally, there is a growing emphasis on the use of environmentally friendly refrigerants in cryogenic applications to minimize the industry’s carbon footprint.
These policies not only foster environmental sustainability but also drive innovation within the cryogenic equipment market. Manufacturers are incentivized to develop and adopt technologies that enhance energy efficiency and reduce emissions, ensuring compliance with evolving regulatory standards.
Trade and Export Controls
Given the strategic importance of cryogenic technologies in various sectors, governments often implement trade and export controls to safeguard national security interests and prevent the proliferation of sensitive technologies. The global cryogenic equipment market is subject to these policies, which regulate the international trade of cryogenic products, components, and related technologies.
Governments may restrict the export of certain cryogenic equipment to countries or entities deemed to pose security risks. Export control policies aim to strike a balance between supporting the growth of the cryogenic industry and preventing the misuse of advanced technologies in ways that could compromise national security.
These policies necessitate robust compliance measures within the cryogenic equipment market, requiring manufacturers and exporters to adhere to licensing requirements and export restrictions. Companies operating in this space must navigate a complex landscape of international regulations to ensure responsible and lawful trade practices.
Research and Development Funding
Governments worldwide recognize the strategic importance of cryogenic technologies in driving innovation, supporting critical industries, and maintaining a competitive edge in the global economy. Consequently, many governments implement policies to allocate funding for research and development (R&D) initiatives within the cryogenic equipment sector.
These R&D funding policies aim to spur technological advancements, improve the efficiency of cryogenic systems, and explore new applications for cryogenic technologies. Governments may collaborate with academic institutions, research organizations, and industry partners to facilitate joint R&D projects that contribute to the growth and evolution of the cryogenic equipment market.
By providing financial incentives for innovation, governments play a pivotal role in fostering a conducive environment for breakthroughs in cryogenic technology. This support ensures that the industry remains at the forefront of advancements, addressing emerging challenges and capitalizing on new opportunities.
Safety and Regulatory Standards
Cryogenic equipment operates under extreme conditions and involves the handling of substances at extremely low temperatures. Recognizing the potential risks associated with such processes, governments worldwide implement comprehensive safety and regulatory standards to protect workers, the public, and the environment.
These policies cover various aspects of cryogenic equipment, including the design, installation, operation, and maintenance of cryogenic systems. Standards may address the construction materials used, the integrity of storage vessels, emergency response procedures, and training requirements for personnel working with cryogenic equipment.
Governments collaborate with industry stakeholders to develop and update safety standards, ensuring that they remain relevant and effective in mitigating risks. Compliance with these standards is not only a legal requirement but also a crucial aspect of corporate responsibility for companies operating in the cryogenic equipment market.
Energy Efficiency and Conservation Measures
With a growing emphasis on energy efficiency and conservation, governments worldwide are implementing policies to incentivize the adoption of technologies that reduce energy consumption. In the context of the global cryogenic equipment market, these policies influence the design, manufacturing, and operation of cryogenic systems to minimize energy wastage.
Governments may offer financial incentives, tax credits, or subsidies for the adoption of energy-efficient cryogenic technologies. This includes measures such as improved insulation materials, advanced refrigeration systems, and optimized transportation methods for cryogenic fluids.
By promoting energy efficiency within the cryogenic equipment market, governments aim to address broader environmental and economic goals, including the reduction of energy-related carbon emissions and the sustainable use of resources. Companies in the cryogenic sector must align their practices with these policies to benefit from incentives and contribute to the global effort to combat climate change.
Infrastructure Development and Investment
Governments recognize the critical role that cryogenic technologies play in various industries, from healthcare and energy to aerospace and manufacturing. To support the growth of the cryogenic equipment market, governments implement policies that prioritize infrastructure development and investment in key areas.
Infrastructure policies may include initiatives to expand the capacity of LNG terminals, improve the transportation networks for cryogenic fluids, and enhance the overall resilience of the cryogenic supply chain. By investing in infrastructure, governments aim to create an environment conducive to the efficient production, storage, and distribution of cryogenic products.
These policies not only benefit the cryogenic equipment market directly but also contribute to the economic development of regions involved in cryogenic activities. Governments collaborate with industry stakeholders to identify strategic infrastructure projects that align with national priorities and foster long-term sustainability in the cryogenic equipment sector.
Key Market Challenges
High Initial Capital Investment and Operational Costs
One significant challenge faced by the global cryogenic equipment market is the substantial initial capital investment required for the design, construction, and implementation of cryogenic facilities. Cryogenic systems, which operate at extremely low temperatures, demand specialized materials, advanced engineering, and stringent safety measures, all of which contribute to elevated costs. The high initial capital investment poses a barrier to entry for smaller companies and can be a significant financial burden for businesses, impacting the overall growth and accessibility of the cryogenic equipment market.
The construction of cryogenic storage tanks, liquefaction plants, and transportation infrastructure involves the use of materials designed to withstand extreme temperatures, such as stainless steel and specialized alloys. Additionally, the insulation systems required to minimize heat leakage and maintain low temperatures add to the overall cost. Moreover, compliance with stringent safety standards and regulations necessitates additional investments in safety features and training programs for personnel.
Operational costs also pose a challenge, as cryogenic equipment requires continuous monitoring, maintenance, and skilled personnel for its efficient operation. The energy consumption of cryogenic systems, especially in liquefied natural gas (LNG) production and storage, contributes significantly to operational expenses. As energy prices fluctuate, companies in the cryogenic equipment market must navigate the challenge of optimizing operational efficiency to manage costs effectively.
To address this challenge, industry participants are exploring innovative financing models, such as public-private partnerships and leasing arrangements, to ease the burden of high upfront costs. Additionally, advancements in materials science and engineering are being pursued to develop cost-effective alternatives that maintain the performance and safety standards of traditional cryogenic equipment.
Complex Regulatory Landscape and Compliance
The global cryogenic equipment market operates within a complex regulatory landscape, with diverse standards and requirements set by different countries and regions. Compliance with these regulations poses a significant challenge for companies operating in the cryogenic sector, especially those engaged in international trade and collaboration.
Regulations cover various aspects, including safety standards, environmental considerations, and export controls. The diversity of regulatory frameworks can create confusion and increase the compliance burden for manufacturers and users of cryogenic equipment. Companies must invest considerable resources in understanding and adhering to the specific requirements of each market in which they operate, leading to complexities in global supply chains.
For example, safety standards for cryogenic storage and transportation may vary from country to country, requiring companies to tailor their equipment and processes to meet specific regulatory requirements. Export controls, aimed at preventing the proliferation of sensitive technologies, add an additional layer of complexity, necessitating careful navigation of international trade regulations.
Furthermore, the regulatory landscape is dynamic, with standards evolving over time in response to technological advancements and changing geopolitical dynamics. Staying abreast of these changes and ensuring continuous compliance can be resource-intensive and may impact the speed at which companies can bring new cryogenic products to market.
To address the challenges posed by the complex regulatory landscape, industry stakeholders advocate for international harmonization of standards to create a more uniform set of regulations. This would not only simplify compliance efforts but also foster greater collaboration and trade between countries. Companies in the cryogenic equipment market must proactively engage with regulatory bodies, industry associations, and government agencies to stay informed about changes in regulations and actively participate in shaping future standards. Additionally, investment in robust compliance management systems and training programs is essential to navigate the intricate web of global regulations effectively.
Segmental Insights
Product Type Insights
The Tank segment held the largest Market share in 2022. Cryogenic storage tanks are fundamental to the market because they play a central role in storing large quantities of liquefied gases at extremely low temperatures. These tanks are used to store gases such as LNG, liquid oxygen, liquid nitrogen, and argon.
The ability to store and transport cryogenic liquids is crucial for various industries, including energy (LNG), healthcare (medical gases), and manufacturing (industrial gases).
The growth of the liquefied natural gas (LNG) industry has significantly contributed to the dominance of cryogenic storage tanks. LNG is stored and transported in cryogenic tanks to maintain it in a liquid state at very low temperatures.
The increasing global demand for cleaner energy sources has driven substantial investments in LNG infrastructure, further boosting the demand for cryogenic tanks.
Cryogenic storage tanks are versatile and find applications across diverse industries. They are used in the healthcare sector for storing medical gases, in the food industry for flash freezing, and in manufacturing processes requiring the storage of various cryogenic liquids.
The versatility and adaptability of cryogenic tanks to different applications contribute to their dominance in the market.
Continuous advancements in materials, insulation technologies, and safety features of cryogenic tanks have enhanced their efficiency and reliability. These improvements have further solidified the position of cryogenic storage tanks as a dominant product in the market.
Ongoing investments in cryogenic infrastructure, including storage facilities and transportation networks, have led to a consistent demand for cryogenic storage tanks. Countries and regions expanding their LNG import/export capabilities contribute significantly to this demand.
Cryogenic storage tanks are designed and built to comply with stringent safety and regulatory standards. Their reliability in storing and handling cryogenic fluids at extremely low temperatures aligns with safety requirements, making them a preferred choice in industries where safety is paramount.
Cryogenic storage tanks are designed for long-term storage, making them suitable for applications where a consistent and reliable supply of cryogenic liquids is necessary.
End User Insights
The Energy & Power segment held the largest Market share in 2022. The Energy & Power sector, particularly the LNG industry, is a major consumer of cryogenic equipment. LNG, which is natural gas cooled to cryogenic temperatures for storage and transportation, is becoming increasingly important as a cleaner and more versatile energy source.
The demand for LNG is growing globally, driven by factors such as the transition to cleaner fuels, increased energy consumption, and the rise in international LNG trade.
Cryogenic storage tanks and transportation systems are integral components of the LNG supply chain. Cryogenic conditions are necessary to keep natural gas in a liquid state, reducing its volume for more efficient storage and transport.
The construction and expansion of LNG infrastructure, including liquefaction plants, storage terminals, and LNG carriers, contribute significantly to the demand for cryogenic equipment.
The Energy & Power sector is undergoing a transition toward cleaner energy alternatives, and LNG is positioned as a key player in this shift. LNG is considered a cleaner-burning fuel compared to traditional fossil fuels, contributing to reduced greenhouse gas emissions.
Governments and industries worldwide are increasingly adopting LNG as a cleaner energy source for power generation, industrial processes, and transportation, further driving the demand for cryogenic equipment.
Cryogenic technologies are essential for the production and storage of hydrogen, which is gaining prominence as a clean and sustainable energy carrier. Cryogenic storage is particularly effective in maintaining hydrogen at extremely low temperatures, allowing for denser storage.
The increasing focus on green hydrogen and the development of hydrogen-based energy systems contribute to the demand for cryogenic equipment in the Energy & Power sector.
Cryogenic technologies play a crucial role in enhancing the efficiency and reliability of power plants. For example, cryogenic air separation units are used to produce industrial gases like oxygen and nitrogen, which find applications in combustion processes for power generation.
The overall growth in global energy demand, coupled with the need for cleaner and more efficient energy sources, drives investments in energy infrastructure. Cryogenic equipment supports the development and operation of advanced energy systems.
The strategic importance of LNG in global energy trade makes the Energy & Power sector a key driver of the cryogenic equipment market. LNG terminals and facilities, equipped with cryogenic technology, facilitate international energy trade and distribution.
Regional Insights
North America
North America is a prominent player in the global cryogenic equipment market, driven by the region’s well-established industries, technological advancements, and a strong emphasis on energy infrastructure. The United States and Canada are key contributors to the market, with a significant presence of companies engaged in the production and application of cryogenic technologies.
The boom in shale gas exploration and production has fueled the demand for cryogenic equipment, particularly in the liquefied natural gas (LNG) sector. The United States, with its expanding LNG export capacity, is a major driver of cryogenic equipment growth in the region.
Advanced healthcare infrastructure and robust biotechnology sectors in North America contribute to the demand for cryogenic equipment, especially in the storage of biological samples and medical gases.
Europe
Europe holds a significant share in the global cryogenic equipment market, driven by its well-established industrial base, focus on renewable energy, and advancements in research and development.
European countries are investing in LNG infrastructure, boosting the demand for cryogenic equipment. The region’s efforts to diversify its energy sources contribute to the growth of LNG applications.
Europe is a hub for biomedical research and pharmaceuticals. The demand for cryogenic equipment in preserving biological materials and supporting medical research is on the rise.
Asia-Pacific
Asia-Pacific is a rapidly growing market for cryogenic equipment, driven by industrialization, increasing energy demand, and advancements in healthcare infrastructure. Countries like China, India, and Japan play pivotal roles in shaping the regional market landscape.
The rapid industrialization in Asia-Pacific fuels the demand for industrial gases, driving the adoption of cryogenic equipment in various manufacturing processes.
As countries in the region focus on transitioning to cleaner energy sources, the demand for LNG and cryogenic equipment for energy storage and transportation is on the rise.
Key Market Players
Air Liquide S.A.
Linde Plc
Praxair Inc.
Chart Industries Inc.
Baker Hughes Company
IHI Corporation
Kawasaki Heavy Industries Ltd
Mitsubishi Heavy Industries Ltd
Howden Group
Burckhardt Compression
Report Scope:
In this report, the Global Cryogenic Equipment Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:
• Cryogenic Equipment Market, By Product Type:
–Valve
–Tank
–Vaporizer
–Pump
–Others
• Cryogenic Equipment Market, By Cryogen Type:
–Nitrogen
–Oxygen
–Argon
–Liquefied Natural Gas
–Others
• Cryogenic Equipment Market, By End User:
–Energy & Power
–Chemical
–Electronics
–Shipping
–Metallurgical
–Others
• Cryogenic Equipment Market, By Region:
–North America
· United States
· Canada
· Mexico
–Europe
· France
· United Kingdom
· Italy
· Germany
· Spain
–Asia-Pacific
· China
· India
· Japan
· Australia
· South Korea
–South America
· Brazil
· Argentina
· Colombia
–Middle East & Africa
· South Africa
· Saudi Arabia
· UAE
· Kuwait
· Turkey
Competitive Landscape
Company Profiles: Detailed analysis of the major companies present in the Global Cryogenic Equipment Market.
Available Customizations:
Global Cryogenic Equipment Market report with the given Market data, Tech Sci 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).
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