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Featured
Complete 25 cm2 AEM Water Electrolyzer
... Complete 25 cm2 AEM Water Electrolyzer | Dioxide ...
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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Featured
Industrial hydrogen electrolyzers that scale - Verdagy
... World’s largest AEM electrolyzer launched in California – Chemical ...
Hof HaCarmel Regional Council, Israel
11-50 Employees
2016
With more than a decade of experience in development of AEMFC technology, HYDROLITE holds world-leading Anion exchange membrane (AEM) electrode and stack technology. Over the past decade HYDROLITE has developed extensive, proprietary materials technology, pilot-scale production and device operation capabilities, and holds an extensive IP portfolio of 67 patent cases with more in the pipeline. As the global demand for hydrogen solutions starts to grow exponentially – in recognition of the critical role of hydrogen as a carbon-free fuel in a zero-carbon economy – HYDROLITE’s superior Anion exchange membrane (AEM) technology offers a compelling solution that combines the cost advantages of liquid Alkaline Fuel Cells and Electrolyzers, with the high performance of solid-state Proton Exchange Membrane devices. With the help of our unique Anion exchange membrane (AEM) technology, our mission is to become a first-choice and lowest-cost provider of these key enabling systems. Our technology provides a means to capitalize on that opportunity, with the help of a clear long-term vision of enabling green hydrogen to become a universal carbon-free fuel, supplementing battery and other storage technologies to facilitate maximum renewables penetration and deep decarbonization. We believe that achieving a post-carbon global community is not only necessary and achievable, but also financially beneficial to the facilitators of this transition, while recognizing that this combination can only be realized through dedicated, relentless and forward-looking engineering and materials development, guided by a deep understanding of the technologies involved and the challenges to be met. We combine world leading technical expertise with innovative systems design towards realizing our vision of affordable, green hydrogen solutions. Next generation backup power: reliable, flexible, zero-emissions unit.
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Featured
Setting a New Global Standard in Innovation, Expertise & Reliability - Hydrolite
... AEM (Anion exchange membrane (AEM)) Electrolyzer ...
Zelzate, Belgium
1-10 Employees
1926
Finindus is a Belgium based investment company funded by ArcelorMittal and the Flemish Region and is linked to OCAS, a world class metals research centre with two campuses near Ghent (Belgium). Since 2006, we provide early stage and growth financing (both equity and debt) to innovative technology companies active in the field of materials, sustainable manufacturing and industry 4.0. We invests across Europe, with Flanders as our home base and sweet spot. In addition, we invest globally in technology companies at the core of our expertise and in line with the strategic interests of our shareholders. You can benefit from our extensive industry network, including access to our sister company OCAS, a world class metals research centre, as well as to our shareholders, ArcelorMittal and the Flemish Region.
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Featured
FININDUS | Your partner in early stage and growth financing | Finindus
... Cipher Neutron, dynaCERT’s Partner, Signs Collaboration Agreement with Ionomr to Create North America’s First 250-Kilowatt AEM Hydrogen Electrolyzer ...
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Some interesting numbers and facts about the results you have just received for AEM Electrolyser
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 3 |
| Amount of suitable service providers | 1 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1926 |
| Youngest suiting company | 2016 |
An AEM Electrolyser refers to an advanced electrolysis system that utilizes an Anion Exchange Membrane to facilitate the electrochemical splitting of water into hydrogen and oxygen gases. This technology stands at the forefront of hydrogen production, primarily due to its efficiency and the purity of hydrogen it generates. Unlike traditional electrolysis systems, AEM electrolyzers operate under alkaline conditions, which significantly reduces the degradation of components and enhances the system's overall longevity and performance. The core of this technology lies in its ability to conduct hydroxide ions (OH-) from the cathode to the anode through the anion exchange membrane, a feature that distinguishes it from its PEM (Proton Exchange Membrane) counterparts which move protons across the membrane. The impact of AEM electrolyzers within the field of renewable energy and sustainable technology is substantial. By offering a cleaner and more sustainable alternative for hydrogen production, AEM electrolyzers are pivotal in supporting the transition towards low-carbon energy systems. They align with the global push for green hydrogen as a key energy carrier and storage solution, capable of decarbonizing a range of sectors including transportation, industry, and power generation. The adoption of AEM electrolysis technology is instrumental in accelerating the shift towards renewable energy sources, thereby playing a crucial role in mitigating climate change and advancing energy security.
1. High Energy Efficiency
AEM Electrolysers stand out for their high energy efficiency, converting electricity into hydrogen gas with minimal energy loss. This efficiency surpasses many alternative electrolysis methods, making AEM technology a cost-effective solution for large-scale hydrogen production.
2. Lower Operational Costs
The operational costs associated with AEM Electrolysers are significantly lower compared to other electrolysis technologies. This cost advantage is due to the use of cheaper, non-precious metal catalysts and the system's overall energy efficiency, which reduces electricity consumption.
3. Enhanced Safety Features
Safety is a paramount concern in hydrogen production, and AEM Electrolysers offer enhanced safety benefits. Their design minimizes the risk of hydrogen leakage, which is crucial in preventing accidents. Additionally, the technology operates at lower pressures, further reducing potential safety hazards.
4. Environmental Friendliness
AEM Electrolysers contribute to environmental sustainability by facilitating the production of green hydrogen using renewable energy sources. This process emits no greenhouse gases, making it a cleaner alternative to traditional hydrogen production methods that rely on fossil fuels.
1. Technology Compatibility
Ensure the supplier's AEM Electrolyser technology is compatible with your existing systems and future scalability plans. This includes checking for integration capabilities and adaptability to various operational conditions.
2. Energy Efficiency
Evaluate the energy efficiency of the electrolyser. A higher efficiency means lower operational costs and a better return on investment over time.
3. Production Capacity
Consider the production capacity of the electrolyser. It should meet your current demands and have the flexibility to scale up as your needs grow.
4. Durability and Reliability
Investigate the durability and reliability of the electrolyser under various conditions. A robust system reduces downtime and maintenance costs.
5. Cost Effectiveness
Examine the overall cost-effectiveness of the solution, including initial investment, operational costs, and expected lifespan. Affordable solutions that do not compromise on quality or efficiency are ideal.
6. Supplier Reputation and Support
Research the supplier's reputation in the market. Look for reviews, case studies, and testimonials. Also, ensure they offer comprehensive support and warranty terms.
AEM (Anion Exchange Membrane) electrolyzers are gaining traction across multiple industries for their efficiency in green hydrogen production. In the chemical sector, these electrolyzers are deployed for producing hydrogen used as a raw material in various chemical processes, including ammonia synthesis and methanol production. Their ability to operate at lower temperatures compared to traditional electrolyzers makes them a preferred choice for integrating with renewable energy sources. In the energy sector, AEM electrolyzers play a crucial role in energy storage and grid balancing. With the fluctuating nature of renewable energy sources like wind and solar, AEM electrolyzers provide a means to store excess energy in the form of hydrogen. This hydrogen can later be converted back to electricity during peak demand periods, aiding in grid stabilization and reducing reliance on fossil fuels. Furthermore, the transportation industry benefits significantly from AEM electrolyzer technology, especially in fueling hydrogen-powered vehicles. Hydrogen fuel stations use these electrolyzers to produce hydrogen on-site, eliminating the need for transportation and storage of hydrogen, thus reducing costs and potential safety risks. This application is particularly relevant in urban areas and along major transportation corridors, facilitating the adoption of hydrogen as a clean fuel for buses, trucks, and cars. Lastly, the steel manufacturing industry is exploring the use of green hydrogen from AEM electrolyzers as a reducing agent to replace coal, thereby significantly reducing carbon emissions from steel production processes. This application not only supports the decarbonization of a traditionally high-emission industry but also aligns with global sustainability goals.
Anion Exchange Membrane (AEM) electrolyzers, pivotal in the domain of green hydrogen production, are presently assessed at a Technology Readiness Level (TRL) between 5 and 6. This classification underscores that the technology has successfully transcended the proof-of-concept phase and is undergoing validation in a relevant, controlled environment. The primary technical rationale driving this TRL positioning hinges on recent advancements in membrane development, which have significantly enhanced durability and performance under operational conditions akin to industrial settings. However, challenges persist, notably in the realms of long-term stability and cost-efficiency of the AEM materials. Additionally, the integration of AEM electrolyzers into larger, complex systems, such as renewable energy networks, necessitates further demonstration and optimization to ensure their economic and operational viability at scale. These technical hurdles are the focal points of ongoing research and development efforts aimed at propelling AEM electrolyzers towards full commercialization, marked by a higher TRL. Collaborative industry-academia projects and increased investment in this technology are pivotal in addressing these challenges, thereby incrementally advancing the TRL towards widespread market adoption.
In the short term, advancements in Anion Exchange Membrane (AEM) Electrolyser technology are poised to significantly enhance efficiency and reduce operational costs. Developers are focusing on optimizing the membrane's material composition to increase its conductivity and durability. This phase is expected to witness the introduction of more resilient membranes that can operate efficiently under varying environmental conditions, reducing the overall energy consumption of the electrolysis process. Moving into the mid-term, the focus will shift towards scaling the technology for larger, industrial applications. Innovations are anticipated in the design and manufacturing processes of AEM Electrolysers, enabling them to be produced at a larger scale and at reduced costs. Efforts will also be concentrated on integrating renewable energy sources, like solar and wind, more effectively with AEM Electrolysers to facilitate green hydrogen production, marking a significant step towards sustainable industrial practices. In the long term, the evolution of AEM Electrolyser technology is expected to revolutionize the hydrogen economy. Breakthroughs in material science are predicted to lead to the development of ultra-efficient, long-lasting membranes that could drastically lower the cost of hydrogen production. The culmination of these advancements will likely enable widespread adoption of green hydrogen as a clean, affordable alternative to fossil fuels, contributing significantly to global efforts in reducing carbon emissions and combating climate change.
