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San Francisco, United States
1-10 Employees
Delivering hydrogen at 2000 psi Waimana Hydrogen has the highest energy content upon exit of any electrolyzer on market.
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Next Generation Green Hydrogen Electrolyzer
... Next Generation Green Hydrogen Electrolyzer ...
Moss Landing, United States
11-50 Employees
Verdagy offers a commercially available product that is not only on track to be on price parity with fossil fuels, we are ready to partner and scale our customer’s decarbonization efforts. Verdagy is backed by over a decade of technology & product development with 100 patents. Verdagy’s ability to operate efficiently and reliably across a broad dynamic range makes Verdagy’s an ideal electrolyzer for coupling to renewable energy sources. Verdagy is close to major centers of science and culture, but in a world of its own. Verdagy offers a commercially available product that is not only on track to be on price parity with fossil fuels, we are ready to partner and scale with your decarbonization efforts. Verdagy is forging the fastest path to broad market adoption for green hydrogen. Verdagy’s advanced alkaline water electrolysis (Advanced AWE) combines mature, cost effective AWE with the advantages of large, single-element electrolyzer cells using sophisticated membranes. We are backed by a diverse group of financial investors, renewable energy developers and Fortune 100 corporations.
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Scaling up hydrogen electrolyzers for industrial-size challenges
... Verdagy is building hydrogen electrolyzers with the industry’s lowest CapEx and highest efficiency to achieve best-in-class levelized costs of hydrogen. We focus on industrial production levels and can scale up to gigawatts. ...
Dongguan, China
51-100 Employees
2008
We are committed to building positive relationships with our customers and partners, providing them with the best products and services, and continuously striving for excellence in everything we do. We are committed to ethical and sustainable business practices that promote the well-being of our employees, customers, and communities. Our factory is a leading manufacturer and supplier of office equipment and food vacuum sealers, providing excellent quality products to customers around the world. We specialize in producing office laminators, paper cutters, binding machines, paper shredders and food vacuum sealers, meeting the demands of both the office and home needs. Our factory has passed BSCI and ISO9001 audits, ensuring that our products are produced with the highest quality standards, and strict attention is paid to every detail. We focus on the research and development of new technology and products, constantly improving and innovating to meet the diverse needs of our customers. We use the latest technology and equipment to ensure that every product that leaves our factory meets our high standards and is of the highest quality. Our factory takes pride in the quality of our products and the level of customer satisfaction we provide.
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1800ml PEM Electrolysis Hydrogen Generator Residential Hydrogen Electrolyzer Personal Hydrogen Water Generator HHO Torch
... 1800ml PEM Electrolysis Hydrogen Generator Residential Hydrogen Electrolyzer Personal Hydrogen Water Generator HHO Torch - JACC Office Machine Co., Ltd. ...
Cernobbio, Italy
1-10 Employees
2022
Our mission is to empower companies and communities to decarbonize the planet. Our mission is to empower companies and communities to decarbonize the planet. We believe that green hydrogen will combine with solar, wind and other renewable energy sources to make the energy transition from fossil fuels a reality. We believe that green hydrogen will work in lockstep with solar, wind and other renewable energy sources to make the energy transition from fossil fuels a reality. Voltiana engineers, builds and installs customized, state-of-the-art electrolyzers that store renewable energy as green hydrogen for local industry, transport and micro-grids. Voltiana engineers, builds and installs customized,state-of-the-art electrolyzers that store renewable energyas green hydrogen for local industry, transport and micro-grids.
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Home - H2Voltiana Green Hydrogen
... Voltiana Green Hydrogen - Customized green hydrogen electrolyzers to help decarbonize the planet. ...
Stoughton, United States
51-100 Employees
Angstrom Renewable is a pioneer in Hydrogen Electrolyzer design and manufacture. With over 100 patents for our Hydrogen technology, Angstrom Renewable offers state-of-the-art Hydrogen Electrolyzers - from the largest containerized single stack Electrolyzer to a multi-GW Hydrogen Electrolyzer combination. Besides the patented Hydrogen Electrolyzer, Angstrom Renewable also offers a variety of Hydrogen Refueling Stations from containerized refueling stations, to 3-in-1 cabinet refueling stations, to traditional ground refueling stations. Angstrom offers a range of hydrogen refueling technology from our innovative containerized refueling station, to our 3-in-1 cabinet refueling station, to the traditional ground refueling station. Angstrom Renewable has become a leading supplier of Hydrogen Electrolyzers over the past two decades. From the development of the world’s first Electrolyzer designed for Power to Gas, to offering the largest containerized Electrolyzer, Angstrom Renewable has established cutting-edge technology with over 100 patents worldwide. With its dedicated engineering team, Angstrom Renewable has participated in the design, assembly and manufacture of Hydrogen Refueling stations around the world. As one of the very few suppliers offering both Hydrogen Electrolyzers and Refueling Stations, Angstrom Renewable is able to put electrolyzers inside Hydrogen Refueling stations making hydrogen available 24/7, 365 days a year.
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Angstrom Advanced Inc.
... Hydrogen Electrolyzer ...
France
11-50 Employees
2001
In our facilities in Aix-en-Provence (France), we design, manufacture and commercialize PEM* fuel cell stacks and fully-integrated hydrogen systems with a power range from a hundred kW to MW+. With 20 years of expertise, we have developed a solid engineering know-how, built a strong partnership network and completed numerous referenced projects with several world premieres.
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hydrogen fuel cells energy electrolyzer
... hydrogen fuel cells energy electrolyzer ...
1-10 Employees
Saint-Gobain Composite Solutions is a global leader in high-performance, technology-driven materials. Through our ability to provide proven products, customized solutions and complete systems, we serve customers across a diverse array of sectors. Our specialty offerings, concentrated in and around advanced films and fabrics, meet customers’ needs for materials that take on demanding tasks in providing everything from safe, protective barriers and easy-release surfaces, to dielectric insulation and friction control. Most distinct is the strong spirit of collaboration that sets our partnerships apart, serving as the basis of trusted relationships that inspire truly innovative possibilities. Our mission is to create customized material solutions and systems that solve problems in demanding settings.
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Hydrogen Fuel Cells & Electrolyzers
... industry-leading protection and barrier solutions when used as cells, seals, and separators within hydrogen fuel cells and electrolyzers. Our films and fabrics increase membrane electrode assembly efficiency and help manufacturers achieve reduced stack height, high-speed decal ...
Orly, France
11-50 Employees
We produce all the components of our electrolyzers in our plant in France. However, current hydrogen production solutions are either inexpensive but CO2-emmitting (gas reforming) or clean, but expensive, often inefficient and relying on rare metals (PEM and SOEC electrolyzers). Since hydrogen is a solution for clean mobility, industry and for the renewable energy sector, it needs to be produced without emissions, pollutants or using rare components. The cleanest hydrogen production method is water electrolysis, provided that the electricity used is decarbonated. We therefore designed an electrolysis unit featuring the lowest footprint possible: a full hydrogen production system, produced in a single location, using recyclable components. We have designed our production units with the intention of producing a maximum amount of hydrogen using a minimum amount of electricity. This gives us full control on our production chain and allows us to customize our scalable units to the customer's precise need and application. It is the design of the complete system that allows us to achieve a level of efficiency unmatched on the market.
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EFFICIENT HYDROGEN SOLUTIONS – GEN-HY
... Our exclusive electrolyzers optimize hydrogen production for mobility, industry and energy sectors. ...
Sydney, Australia
1-10 Employees
2019
Our electrolyser system revolutionises the waste-energy nexus – through the conversion of industrial wastewater into low-cost, renewable hydrogen. Aussie start-up wants to produce hydrogen from brewery wastewater. Startup aims to turn brewery wastewater into fuel. Tomorrow’s brewers to tap the hydrogen they pour down the drain today. School of Chemical Engineering, Tyree Energy Building, The University of New South Wales, Sydney, NSW 2052.
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Green Hydrogen from Wastewater
... electrolysis technology that can harness the organic waste from breweries to generate clean hydrogen energy. The electrolyzer contains specially designed catalysts with a specific composition that can effectively break down organic waste to generate hydrogen, valorizing the ...
Markham, Canada
1001-5000 Employees
1887
We are on a mission to ensure the continuous availability of power and support the safe operation of critical applications in all environments. We are renowned for rugged reliability, world-class engineering and vast experience in power electronics and conversion technology. We are committed to solving problems and providing power supply and power conversion systems for industries anywhere in the world. We are a dynamic, independent business that’s leveraging years of expertise and knowledge to shape a new future and drive progress in renewable power integration, energy transition and efficiency maximization. We are an honest, reliable and reputable business that does things by the book. We are ready and waiting to offer trusted, expert advice on how to overcome your power challenges and set your organization up for the future. This is why we are committed to designing and delivering innovative and efficient solutions that help organizations reduce their carbon footprint and increase their use of clean energy. We are committed to providing long-lasting solutions that convert, store and unlock the potential of energies for organizations all around the world.
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WORLD’S LARGEST GREEN HYDROGEN PLANT: ELECTROLYZER POWERED BY 8 TRANSFORMER-RECTIFIER UNITS
... WORLD’S LARGEST GREEN HYDROGEN PLANT: ELECTROLYZER POWERED BY 8 TRANSFORMER-RECTIFIER ...
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Some interesting numbers and facts about the results you have just received for Hydrogen Electrolyzer
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 15 |
| Amount of suitable service providers | 11 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1887 |
| Youngest suiting company | 2022 |
A hydrogen electrolyzer is a sophisticated device engineered to separate water (H<sub>2</sub>O) into its basic components, hydrogen (H<sub>2</sub>) and oxygen (O<sub>2</sub>), through a process known as electrolysis. This technology leverages an electrical current to drive the chemical reaction, effectively decomposing water into its constituent gases. The core component of the electrolyzer is the electrolyte, a substance that provides the medium for ion exchange. This process is facilitated by electrodes - an anode and a cathode - submerged in the electrolyte. At the anode, water molecules lose electrons, releasing oxygen and hydrogen ions. The hydrogen ions then migrate through the electrolyte to the cathode, where they gain electrons to form hydrogen gas. Hydrogen electrolyzers are pivotal in the production of green hydrogen, a clean, sustainable energy source that plays a crucial role in the transition towards renewable energy systems. By harnessing electricity derived from renewable sources such as wind, solar, or hydro power, these devices can produce hydrogen with minimal environmental impact. This technological innovation is central to efforts in reducing carbon emissions, particularly in industries and transportation sectors where electrification is challenging. The scalability and efficiency of hydrogen electrolyzers are key factors in their potential to significantly contribute to global decarbonization initiatives, marking a transformative step in the pursuit of sustainable energy solutions.
1. Eco-Friendly Fuel Production
Hydrogen electrolyzers produce hydrogen gas through the electrolysis of water, a process that can be powered by renewable energy sources such as solar or wind. This method significantly reduces carbon emissions compared to traditional hydrogen production methods that rely on fossil fuels, offering a cleaner alternative for energy production.
2. Energy Storage Capabilities
Hydrogen produced by electrolyzers can be stored and transported for use in various applications, including fuel cells for vehicles or electricity generation during peak demand periods. This flexibility in storage and transport provides a viable solution for managing and balancing the intermittent nature of renewable energy sources.
3. Scalability and Versatility
Hydrogen electrolyzers are scalable to meet different energy demands, making them suitable for a wide range of applications, from small-scale residential use to large industrial projects. Their versatility extends to various sectors, including transportation, industrial processes, and power generation, showcasing their potential to significantly contribute to a sustainable energy ecosystem.
4. Energy Efficiency
Modern hydrogen electrolyzers have achieved significant advancements in technology, leading to higher energy efficiency rates. This improvement reduces the overall energy required for hydrogen production, making it a more cost-effective option in the long term compared to other hydrogen production methods.
1. Efficiency and Performance
Evaluate the electrolyzer's efficiency in converting electricity into hydrogen. High efficiency reduces operational costs and improves overall performance.
2. Scalability
Consider whether the electrolyzer technology can be scaled up to meet future demands. Scalability ensures that the system can grow with your needs.
3. Durability and Maintenance
Assess the expected lifespan of the electrolyzer and the maintenance requirements. Durable systems with low maintenance needs offer better long-term value.
4. Cost
Examine both the initial purchase price and the operational costs. An optimal supplier offers competitive pricing without compromising on quality or efficiency.
5. Technical Support and Warranty
Check the level of technical support and warranty offered by the supplier. Reliable support and comprehensive warranties protect your investment.
6. Environmental Impact
Consider the environmental footprint of the electrolyzer technology. Suppliers committed to minimizing environmental impact are preferable for sustainable operations.
Hydrogen electrolyzers play a crucial role in the energy sector, particularly in green energy production. Industries aiming to reduce carbon footprints employ these devices to split water into hydrogen and oxygen, harnessing hydrogen as a clean energy source. This application supports the transition towards sustainable energy practices and aids companies in achieving their environmental goals. In the chemical manufacturing industry, hydrogen electrolyzers are integral for producing ammonia and methanol. These substances are foundational in creating fertilizers and plastics, respectively. By utilizing green hydrogen, produced via electrolysis, industries can significantly lower the environmental impact of their production processes, moving towards more sustainable manufacturing methods. The transportation sector benefits from hydrogen electrolyzers by developing hydrogen fuel cell technologies for vehicles. Buses, trucks, and even passenger cars powered by hydrogen fuel cells offer a cleaner alternative to fossil fuels, reducing greenhouse gas emissions and dependency on oil. This use case not only supports environmental sustainability but also heralds a new era of innovation in automotive technologies. Lastly, hydrogen electrolyzers find application in the refining industry, where hydrogen is essential for processing crude oil into usable products like gasoline and diesel. By incorporating electrolyzers, refineries can produce their hydrogen on-site, reducing operational costs and enhancing efficiency while also making strides in reducing environmental impact.
Hydrogen electrolyzers, pivotal in the production of green hydrogen through water electrolysis, currently situate themselves predominantly at Technology Readiness Level (TRL) 7 to 9. This classification underscores their transition from full-scale prototype demonstration in operational environments (TRL 7) to actual system application and operation in real-life conditions (TRL 9). The ascent to these higher TRLs is primarily attributed to significant advancements in electrolysis technologies, including proton exchange membrane (PEM), alkaline, and solid oxide electrolyzers. Each of these technologies has undergone extensive development, resulting in improved efficiency, durability, and cost-effectiveness. For instance, the advent of advanced catalyst materials has markedly enhanced the efficiency of the electrolysis process, while innovations in membrane technology have extended the operational lifespan of these systems. Moreover, scalability advancements have facilitated the deployment of electrolyzers in larger, more commercially viable capacities. Despite these technical strides, challenges such as high capital costs and the need for further efficiency improvements remain. However, the industry's ongoing research and development efforts, combined with increasing governmental support for hydrogen as a clean energy carrier, continue to propel the technology towards full commercialization and broader market adoption.
In the short-term, hydrogen electrolyzer technology is poised for efficiency enhancements and cost reductions. Immediate advancements focus on optimizing current electrolysis processes, like PEM (Proton Exchange Membrane) and alkaline electrolyzers, through improved catalyst materials that lower the energy input required for hydrogen production. These innovations aim to make green hydrogen more accessible and affordable, addressing the urgent need for clean energy sources. Mid-term developments are set to revolutionize the hydrogen production landscape through the integration of renewable energy sources directly with electrolyzer systems. This period will witness the emergence of advanced electrolysis techniques, such as solid oxide electrolyzers, that operate at higher temperatures and efficiencies. The direct coupling with solar and wind power promises a significant reduction in the carbon footprint of hydrogen production, making it a truly sustainable energy vector. Looking at the long-term horizon, the focus will shift towards scalability and the establishment of global hydrogen economies. Breakthroughs in materials science and engineering are expected to lead to the creation of mega-electrolyzers capable of producing hydrogen at an unprecedented scale. Alongside, the development of international hydrogen supply chains and infrastructure will facilitate the widespread adoption of hydrogen across various sectors, including transportation, industry, and residential heating, cementing its role as a cornerstone of the future clean energy landscape.
