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Houston, United States
11-50 Employees
2009
Founded in 2009 and acquired by Plug Power in 2022, Joule is an engineering, process equipment, services and process optimization company dedicated to finding new and better ways to meet the needs of midstream operators. We like to think, offer recommendations and work out new solutions that meet specifications while improving performance. With our experience in performing balance-of-plant engineering, technical services, site commissioning and startup, operator training and complicated maintenance contracts, we bring innovative problem solving to every project. To realize sustained growth resulting from in-depth knowledge of customer dynamics and demands, delivering superior customer service and high-quality products that meet their hydrocarbon processing needs both effectively and economically. Meeting customer expectations, and adding real-world value, while maintaining an unrelenting focus on safety. Joule provides innovative engineered equipment and services that maximize operational performance, improve project economics and enhance energy efficiency. Each offers exceptional operational efficiency, and minimizes energy requirements. Lastly, each piece of equipment is flexibly designed—featuring options built around your specific operation.
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Hydrogen Liquefaction Plants
... Hydrogen Liquefaction Plants | ...
Frankfurt, Germany
Air Liquide Engineering & Construction builds the Group’s production units - mainly air gas separation and renewable and low carbon hydrogen production units - and provides external customers with efficient, sustainable, customized technology and process solutions.
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Hydrogen Liquefaction
... Hydrogen Liquefaction | Air Liquide Engineering & ...
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Hydrogen Liquefaction
... Hydrogen Liquefaction ...
Las Vegas, United States
101-250 Employees
1996
We provide innovative equipment, technologies and services through our global group of companies to help our customers to make a difference. We are proud to announce that our team of experts at Nikkiso Clean Energy & Industrial Gases Group (CE&IG) has completed the first service disassembly project in Qatar for the largest cryogenic pump ever delivered on a global scale! Fueling & Solutions – allows for centralized management of product and project development across channels and in multiple market segments. Energy Infrastructure & Strategic Projects – offers turnkey solutions for energy infrastructure including geothermal plants, compressed hydrogen distribution systems, energy recovery solutions, and offshore marine fueling systems. Cryogenic Industries is the parent company of Nikkiso ACD, Nikkiso Cosmodyne and Nikkiso Cryoquip and a commonly-controlled group of 20 operating entities, including Nikkiso Cosmodyne India (formerly Rhine Engineering), Nikkiso ACD Cryo (Europe), Nikkiso Cryoquip Australia, Nikkiso Cryoquip – U.K, and Nikkiso Cryogenic Industries Service Companies. NCI’s innovative designs have resulted in the first application of high pressure pumps for use on regasification LNG carriers, the first and only cryogenic pumps installed on an LNG GBS, compact high flow pumps for the world’s largest FPSO under construction, as well as compact, higher speed pumps used for a variety of LNG, LPG and other applications. Your global choice for innovative equipment and solutions in liquid gases and beyond. Nikkiso Cosmodyne Commissions TGNO-1000 Developed for Float Glass Applications.
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Turboexpanders - Nikkiso
... Cosmodyne Hydrogen Liquefiers Hydrogen liquefaction is a key enabling technology for storing the lightest element on earth economically. As a liquid, this versatile energy carrier can be distributed efficiently. With over 60 years of cryogenic process plant experience and over 450 ...
Harlow, United Kingdom
101-250 Employees
1924
Molecular Products is a world leader in the design and manufacture of life critical devices for the treatment of breathable gases. Where there is a finite quantity of air, Molecular Products’ leading edge technologies will sustain human life independently, or collectively, to maintain a breathable environment. Our innovative technology portfolio includes activated carbon filtration media for use in air purifying respirators, to carbon dioxide absorbers for the removal of carbon dioxide during anesthesia. These products are exported to over 80 countries for a broad range of markets including medical, defense, diving and industrial safety. Molecular Products business has grown from its beginnings as a small producer of lab-based and industrial chemicals, to an international manufacturer of cutting edge solutions to maintain breathable atmospheres in some of the most challenging environments. Our global footprint includes three manufacturing facilities, five sales offices, six regional logistics hubs and a team of truly innovative people. Molecular Products’ portfolio of defense products provide collective or personal protection in life critical applications to sustain a breathable atmosphere. Molecular Products’ manufactured soda lime is the CO2 absorbent of choice for hospitals, anesthesia workstation manufacturers and healthcare companies worldwide.
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Ionex Type OP Catalyst - Molecular Products
... Ionex Type OP Catalyst is a specially manufactured catalyst used in hydrogen liquefaction and storage systems. This material efficiently catalyses […] ...
Farum, Denmark
11-50 Employees
2014
All our products and technologies help drive us towards that goal. We are upscaling production of our current products as well as constantly developing new and improved surface topologies to produce the most efficient superconductor systems. Founded in 2014, SUBRA A/S is a spin-out from the Technical University of Denmark and is based on more than 15 years of innovation and research in superconductor technology and surface science. Sustainability and the Climate Solution We are commited to a sustainable future and to being a key player in the Climate Solution. Currently available superconductor substrates At SUBRA we are proud to offer the most advanced superconductor substrate solutions currently on the market. We focus on innovation, industrial scale production and making a sustainable impact through energy technology development and global collaboration.
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Featured
Technology and Applications – SUBRA A/S
... Supermagnets for hydrogen liquefaction ...
Kazan, Russia
1962
We are leveraging our extensive experience and innovative manufacturing technology to expand our material manufacturing business. Established in 1962 when Korea was still in an embryonic stage of economic development, Doosan opened a new industrial chapter by embarking on an ambitious undertaking to build Korea’s largest heavy industrial complex in Changwon in 1976.
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History : Doosan Enerbility
... Contract Signed to Build Korea’s First Hydrogen Liquefaction ...
Paris, France
501-1000 Employees
1971
Specialized in extreme cryogenics and gas engineering, we offer novel and competitive solutions for our customers. Air Liquide advanced Technologies is recognized for its leading expertise in:. The GM&T World Business Unit delivers technological solutions - molecules, equipment and services - to support the fast moving markets of energy transition and deep tech, in order to contribute to Air Liquide sustainable growth. It is a great source of innovations, including ships that use renewable energy as a means of propulsion. Air Liquide supports its industrial customers by offering its expertise and its cutting edge technologies so they can maintain the advantage in their field.
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Featured
Operational support | Air Liquide Advanced Technologies
... centers, major scientific equipment suppliers, and industrial R&D departments, our helium and hydrogen refrigeration and liquefaction systems can be integrated into a complete installation, from the recovery of gas to its storage in liquid form. Specific skills are needed to ...
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Some interesting numbers and facts about the results you have just received for Hydrogen Liquefaction
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 8 |
| Amount of suitable service providers | 6 |
| Average amount of employees | 501-1000 |
| Oldest suiting company | 1924 |
| Youngest suiting company | 2014 |
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Hydrogen liquefaction is a complex process that involves cooling hydrogen gas to a point where it transitions from a gaseous to a liquid state, specifically below its boiling point at -252.87°C (-423.17°F) under atmospheric pressure. This transformation is critical for various applications, primarily due to the significant volume reduction achieved, which facilitates more efficient storage and transport of hydrogen. In the field of energy, liquefied hydrogen is gaining prominence as a clean fuel alternative, offering a sustainable solution to global energy demands while minimizing environmental impact. The process itself is energy-intensive, requiring advanced refrigeration techniques and equipment to achieve the extremely low temperatures necessary for liquefaction. Despite these challenges, the ability to store and transport hydrogen in liquid form is a key enabler for its use in fuel cells, which power a wide range of applications from vehicles to stationary power systems. The development and optimization of hydrogen liquefaction technologies are therefore pivotal for the expansion of hydrogen as a viable, renewable energy source, potentially revolutionizing energy systems worldwide by providing a cleaner, more sustainable alternative to fossil fuels. Through enhancing the efficiency and reducing the costs associated with hydrogen liquefaction, its role within the renewable energy sector is poised to increase, underscoring its importance in the transition towards a more sustainable energy future.
1. Increased Energy Density
Liquefying hydrogen significantly increases its energy density, making it a more efficient form of energy storage compared to its gaseous state. This property is crucial for applications requiring high energy output, such as powering fuel cells in electric vehicles or providing energy for industrial processes.
2. Ease of Transport and Storage
The process of hydrogen liquefaction facilitates easier transport and storage. Liquefied hydrogen requires less space and can be transported over long distances more economically, either by truck or ship, compared to compressed hydrogen gas. This advantage is vital for creating a more flexible and extensive hydrogen supply chain.
3. Improved Safety
Storing hydrogen in its liquid form can be safer than in its gaseous state. Liquefied hydrogen is stored at lower pressures, reducing the risk of leaks and explosions. This safety feature is especially important in densely populated areas or in applications where safety is paramount.
4. Greater Purity
The liquefaction process can help in purifying hydrogen, removing impurities that may be present in the gaseous form. This higher purity is beneficial for certain sensitive applications, such as in the semiconductor industry, where even minor impurities can affect manufacturing processes.
1. Technology Efficiency
Ensure the supplier utilizes the most advanced and efficient technology for hydrogen liquefaction. This impacts the operational cost and environmental footprint.
2. Experience and Reliability
Look for suppliers with a proven track record in designing, constructing, and maintaining hydrogen liquefaction plants. Experience indicates reliability and capability.
3. Safety Standards
Given the high-pressure and low-temperature conditions involved, it's crucial that the supplier adheres to the highest safety standards to prevent accidents.
4. Customization Ability
Select a supplier capable of customizing the liquefaction process to fit specific needs, including scale, location, and integration with existing systems.
5. After-Sales Support
Evaluate the supplier's commitment to after-sales support, including maintenance, training, and availability of spare parts, which is essential for long-term operational sustainability.
6. Cost-Effectiveness
While not compromising on quality and safety, consider the overall cost-effectiveness of the supplier’s solution, including initial investment, operational costs, and potential subsidies or incentives.
Hydrogen liquefaction plays a critical role in the energy sector, especially for businesses investing in renewable energy solutions. Through the process of liquefying hydrogen, companies can store and transport energy more efficiently than in its gaseous state. This application is particularly beneficial for remote or off-grid locations, where energy storage and transportation can present significant challenges. In the automotive industry, hydrogen liquefaction is pivotal for fuel cell vehicle manufacturers. Liquefied hydrogen serves as a compact, high-density fuel source, enabling longer driving ranges and shorter refueling times compared to compressed hydrogen gas. This technology supports the industry’s shift towards sustainable, zero-emission vehicles by providing a viable and efficient energy solution. The aerospace sector benefits from hydrogen liquefaction by using liquefied hydrogen as a powerful, efficient rocket fuel. Its high energy density and low molecular weight make it an ideal propellant, significantly enhancing the payload capacity and efficiency of space missions. This application underscores the versatility of liquefied hydrogen in supporting ventures that require extreme energy outputs, such as launching satellites or manned spaceflights. Finally, in the field of manufacturing, hydrogen liquefaction finds its use in creating a more sustainable production environment. It serves as a clean, efficient energy source for high-temperature industrial processes, reducing the reliance on fossil fuels and minimizing carbon emissions. This application not only aids in achieving environmental goals but also enhances energy security for manufacturing operations.
Hydrogen liquefaction technology, pivotal for the efficient storage and transportation of hydrogen as a clean energy carrier, is currently positioned at a Technology Readiness Level (TRL) of 6 to 7. This classification is attributed to the successful demonstration of hydrogen liquefaction processes in relevant environments, showcasing a level of maturity that suggests the technology is nearing full-scale, operational deployment. The process of hydrogen liquefaction involves cooling and compressing hydrogen gas to a liquid state at -253°C, requiring sophisticated cryogenic technologies. Despite its technical feasibility, the reason hydrogen liquefaction hasn't progressed to a higher TRL lies in the considerable energy consumption and associated costs of the liquefaction process, as well as the need for advanced materials that can withstand the extreme operating conditions without compromising efficiency. Current research and development efforts are focused on optimizing the liquefaction cycle, improving the efficiency of cryogenic coolers, and developing materials that offer better thermal performance and durability. These technical challenges must be addressed to advance the technology to higher readiness levels, enabling more widespread adoption of hydrogen as a key component of the global energy transition towards cleaner alternatives.
In the Short-Term, the focus on hydrogen liquefaction technology is set to improve efficiency and reduce costs. Immediate advancements include the development of novel, more effective catalysts that enable lower-temperature liquefaction processes. These improvements aim to reduce energy consumption significantly, making hydrogen storage and transportation more economically viable. Additionally, the integration of renewable energy sources into liquefaction plants is expected to reduce the carbon footprint associated with hydrogen production. The Mid-Term phase sees the scaling of hydrogen liquefaction facilities with the introduction of modular and mobile liquefaction units. This innovation allows for decentralized hydrogen production closer to the point of use, minimizing transportation costs and losses. Enhanced insulation materials for storage tanks are also anticipated, which will further improve the efficiency of hydrogen storage by reducing boil-off rates. The implementation of AI and machine learning for operational optimization is another key development, leading to more efficient and adaptable liquefaction processes. Looking at the Long-Term, breakthroughs in cryogenic technology could revolutionize hydrogen liquefaction. Quantum levitation methods for near-zero energy loss during storage and magnetic refrigeration techniques for liquefaction are under research. These advancements promise to drastically lower the energy requirements for hydrogen liquefaction and storage, aligning with the global push towards sustainability. Furthermore, the emergence of global hydrogen trade routes, supported by advancements in liquefaction technology, is likely to establish hydrogen as a cornerstone of the global renewable energy infrastructure.
Some interesting questions that has been asked about the results you have just received for Hydrogen Liquefaction
What are related technologies to Hydrogen Liquefaction?
Based on our calculations related technologies to Hydrogen Liquefaction are Water/Ocean Cleaning Technologies, Waste Management, Renewable Energy, Sustainable Fashion, Smart Grid
Which industries are mostly working on Hydrogen Liquefaction?
The most represented industries which are working in Hydrogen Liquefaction are Manufacturing, Science and Engineering, Commerce and Shopping, Design, Energy
How does ensun find these Hydrogen Liquefaction Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
