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Perth, Australia
1-10 Employees
2020
One of our greatest collective global challenges is decarbonisation. Our renewable future encompasses different solutions including hydrogen and carbon capture and storage to ensure low emissions are on target. Sustainable Hydrogen Energy Australia (SHEA) brings together experience and industry knowledge to be a key partner in the transition to our renewables future. Sustainable Hydrogen Energy Australia Pty Ltd (SHEA) is a Western Australian company specialising in research and development of large-scale geologic underground storage of hydrogen (UGHS) to support and enhance the objective of hydrogen export and domestic use, geothermal as well as carbon capture and storage opportunities. Our renewable future encompasses different solutions including hydrogen and, carbon capture and storage to ensure low emissions are on target.
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Sustainable Hydrogen Energy Australia
... Sustainable Hydrogen Energy Australia Pty ...
Limassol, Cyprus
1-10 Employees
We are a renewable energy company, and our mission is to substantially reduce greenhouse gas (GHG) emissions through the reduction of fuel consumption. Our goal is to take our findings from our research and really accelerate the industry’s decarbonisation efforts which have sorely lagged to date. The ripple effects are wide-ranging for ship owners, engine manufacturers, refiners, and consumers. Savva’s research activities focus on air depollution technologies development and hydrogen energy applications. Hydrogen Energy Systems is committed to working with partners and stakeholders to develop and deploy hydrogen technology solutions that are both sustainable and cost-effective.
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Welcome to Hydrogen Energy Systems
... Welcome to Hydrogen Energy ...
Old Toronto, Canada
11-50 Employees
We are Disruptors and Innovators in the space of Plastic Waste Diversion and Hydrogen Production. FusionOne’s HydroPlas™ reactor offers a solution to tackle both these problems. FusionOne™ produces a Synthesis gas with very high Hydrogen content perfect for generating many Megawatts of Zero Emission energy or clean Hydrogen road fuel. FusionOne™ will be using a proprietary technology where Hydrogen will be separated from the SynGas produced in its HydroPlas™ system. Our HydroPlas™ System is the next generation in Thermal Decomposition Technology producing green Hydrogen from Plastic Waste. Various sustainable commercial products are produced as outputs including fuel cell grade pure Hydrogen and Zero Emission electricity. Modularity Our system can be adapted to suit the output products with the highest green return. Zero Emission Nothing, nada, zero is released, nothing is wasted, producing fossil free power.
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Plastic Waste to Hydrogen Energy
... Plastic Waste to Hydrogen Energy. FusionOne diverts plastic waste from landfill converting it to Hydrogen and Electricity, Creating the zero emission future we all deserve. Our HydroPlas™ System is the next generation in thermal decomposition technology producing green hydrogen from plastic ...
Crowthorne, United Kingdom
11-50 Employees
Join us in our mission to create a sustainable future for the planet. H₂OPE was founded with a vision of creating a sustainable future for the planet. Our team of experts in the field of hydrogen generation and energy solutions came together with a common goal of making clean energy accessible to everyone. We believe that hydrogen has the potential to revolutionize the energy industry and provide a sustain. We believe that hydrogen has the potential to revolutionize the energy industry and provide a sustainable alternative to fossil fuels. H₂OPE is on a mission to revolutionize the energy industry by providing innovative hydrogen solutions. We believe that hydrogen generation has the potential to transform the energy landscape and we are committed to making it accessible and affordable to everyone.
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Hydrogen Power & Energy
... About Hydrogen Power & Energy ...
Kelvin Grove, Australia
11-50 Employees
2016
Energa provide sector specific optimisation tactics to reduce energy usage without compromising operations. We develop your solution through engineering and network approvals. Energa builds systems to ensure energy monitoring, tariff analysis, power factor correction, responsive voltage optimisation and embedded networks are in place. Energa find spots across your enterprise that could save you money and drive energy efficiency. Battery storage of power provides options and alternatives for grid-connected and off grid enterprises. Against installation costs of about $1.25m, we are on a path to recover that in the coming years.
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Hydrogen Energy
... When it is produced using renewable energy or processes, hydrogen […] ...
Suzhou City, China
11-50 Employees
2009
Suzhou Green Hydrogen Energy, abbreviated as "Green H2"With its office and manufacturing facility located in Suzhou, China. A Company Specialized in engineering, manufacturing and construction of Green Hydrogen Electrolyzer Stacks as well as whole packaged onsite hydrogen gas generating units.Enaged in providing integrated solutions for green hydrogen gas generating, boosting, storage and application.
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Suzhou Green Hydrogen Energy Co., Ltd
... Suzhou Green Hydrogen Energy Co., ...
Scottsdale, United States
1-10 Employees
2008
Our mission is to protect the environment by providing clean energy, while reducing dependence on traditional sources of energy like oil and coal. We are making hydrogen practical for real world applications. We are the only solution which can claim 100% carbon free capture, storage, and delivery of hydrogen. Our products are recyclable, and our manufacturing is 100% zero-carbon. Plasma Kinetics is a privately held company, not publicly traded. A technology-driven company built on global environmental responsibility, entrepreneurial innovation, integrity, and teamwork. Our breakthrough approach to renewable energy is recognized as having exceptional potential to revolutionize production, transportation, storage and consumption of the cleanest alternative fuels, Hydrogen. The universal adoption of Hydrogen as the cleanest source of energy has stalled due to storage, transport and availability issues.
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Responsible, renewable hydrogen energy systems.
... A zero-carbon hydrogen energy solution; capture, storage and delivery in one container. ...
London, United Kingdom
1-10 Employees
2014
Our mission is to deliver clean, accessible and reliable hydrogen energy from renewable sources that meets decarbonisation targets fast, bringing profitable social impact to millions across the world.Our vision is to create technologies that drive the transition to a more sustainable planet. We are developing a compact hydrogen storage system that is safer and lighter than commercially available pressure tanks. AI algorithms provide cost-efficient management and optimal storage/response operations. Proprietary AI algorithms that provide cost-efficient management and optimal storage/response operations. Manufactured using advanced techniques to meet high power and energy density requirements. Our valuable IP portfolio of innovative H2 energy storage technologies gives us the freedom to operate across multiple applications in the power and energy market. Innovation on the material front; highly porous nano-particle based smart material that combines production, storage and controlled release of hydrogen. Innovation on the system engineering front; 3D printed and traditionally manufactured H2 storage reactors that operate at low pressures to store up to 7wt.%.
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H2GO Power | Hydrogen Energy Storage Technology
... H2GO Power | Hydrogen Energy Storage ...
London, United Kingdom
1-10 Employees
2019
We provide a holistic service by designing, developing, financing owning and operating green hydrogen solutions for clients to achieve net zero energy emissions at their industrial/manufacturing sites. At Protium we can harness its potential, providing essential complimentary technology for organisations looking to achieve their Net Zero Carbon Goals. To own, operate and finance clean energy infrastructure which materially contributes to achieving a net zero emission world. To reduce UK CO2 emissions by 1 million tonnes a year by 2030. Green hydrogen offers several significant advantages, complimenting established renewable technologies. We operate across the UK with a number of projects in active delivery, creating a distributed network to support others, whilst we increasingly look at international opportunities too. We operate across the UK with a number of projects in active delivery, creating a distributed network to support others.
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Pioneering green hydrogen energy solutions
... Pioneering green hydrogen energy ...
Cocoa, United States
1-10 Employees
2014
We are bringing new ideas and products to the market because the world demands a green hydrogen solution. We are investing in research and development with the goal of introducing new technology that will soon fulfill those needs. We develop solutions beyond expectations because of our product knowledge, creativity, resourcefulness, and ingenuity of our team. Our goal is to have a positive influence on the environment, consumers, and our communities. It is a continuous cycle of experimentation, risk-taking, and learning from mistakes. It is Edward’s balance of philosophy and practical knowledge that offers BoMax the production precision and focus the BoMax Lab needs to meet our high aspirations of green hydrogen for all. Max is a certified and licensed EMT, graduating from Seminole State College of Florida. Anayama owns a management consulting firm specializing in technology and offering angel investments to nurture innovations.
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Changing How We Use Hydrogen Energy
... BoMax has developed and patented a process that can generate 100% clean hydrogen energy. Learn about our vision, strategic focus, and team. ...
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Some interesting numbers and facts about the results you have just received for Hydrogen Energy
Country with most fitting companies | United Kingdom |
Amount of fitting manufacturers | 218 |
Amount of suitable service providers | 208 |
Average amount of employees | 1-10 |
Oldest suiting company | 2008 |
Youngest suiting company | 2020 |
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Hydrogen energy refers to the clean energy derived from the chemical reaction that occurs when hydrogen gas is combined with oxygen, producing water and releasing a significant amount of energy in the form of heat or electricity. This process, commonly known as hydrogen fuel cell technology, stands out for its high energy efficiency and minimal environmental footprint, emitting only water vapor and warm air as byproducts. In the context of global efforts to reduce carbon emissions and combat climate change, hydrogen energy is increasingly recognized for its potential to serve as a sustainable alternative to fossil fuels across various sectors, including transportation, power generation, and industrial processes. Its versatility allows it to be produced from a wide range of sources, including water, natural gas, and even organic waste, through processes like electrolysis, steam methane reforming, and biomass gasification. As the world seeks to transition towards more renewable energy sources, the integration of hydrogen energy systems offers a promising avenue for achieving energy security, reducing greenhouse gas emissions, and supporting economic growth in a low-carbon future. This emerging energy technology not only aligns with global sustainability goals but also paves the way for innovative applications in clean transportation, renewable power storage, and green manufacturing practices, underscoring its pivotal role in shaping a more sustainable and resilient energy landscape.
1. Zero Emissions
Hydrogen energy stands out for producing water vapor as its only by-product when used in fuel cells, making it a clean energy source that contributes significantly to reducing air pollution and greenhouse gas emissions.
2. Abundant Resource
Hydrogen is the most abundant element in the universe, and it can be produced from various domestic resources, such as water, natural gas, and even biomass, ensuring a steady and secure supply of energy.
3. High Energy Efficiency
Hydrogen fuel cells are highly efficient, potentially converting up to 60% of the fuel's energy into power, compared to traditional combustion-based power systems, which can only achieve efficiencies of around 20-25%.
4. Versatility
Hydrogen can be used in a wide range of applications, from powering vehicles and generating electricity to heating homes and fueling industrial processes, offering a versatile solution to many of today's energy challenges.
While evaluating the different suppliers make sure to check the following criteria:
1. Technology and Efficiency
Ensure the supplier utilizes the latest technology in hydrogen production, offering high energy efficiency and low carbon footprint.
2. Cost-effectiveness
Consider the overall cost, including installation, operation, and maintenance, ensuring it aligns with your budget without compromising quality.
3. Safety Standards
Verify the supplier adheres to stringent safety standards to handle and store hydrogen energy, minimizing risks of accidents.
4. Supply Chain Reliability
Evaluate the robustness of the supplier's supply chain, ensuring consistent and timely delivery of hydrogen fuel.
5. Regulatory Compliance
Ensure the supplier complies with all relevant local and international regulations governing hydrogen energy production and distribution.
6. Customer Support and Service
Look for suppliers offering comprehensive customer support and maintenance services to address any operational issues promptly.
Hydrogen energy, emerging as a clean alternative to fossil fuels, is being adopted across multiple sectors. In the automotive industry, hydrogen fuel cells are powering electric vehicles (EVs), offering longer ranges and quicker refueling times compared to battery EVs. This application is particularly beneficial for commercial fleets, where downtime for charging is a critical concern. In the realm of manufacturing, hydrogen serves as a green fuel option and a reducing agent in processes like steel production. By replacing coal, hydrogen significantly lowers the carbon footprint of manufacturing activities, aligning with global sustainability goals. This shift not only helps companies reduce emissions but also comply with increasingly stringent environmental regulations. Energy storage is another critical application. Hydrogen can store surplus renewable energy generated from wind or solar power. This stored hydrogen can then be converted back to electricity during peak demand or when renewable sources are not available, ensuring a steady and reliable energy supply. This aspect is particularly valuable for energy suppliers and grid operators facing the challenge of balancing supply with fluctuating demand. Finally, hydrogen is playing a role in decarbonizing the heating sector. By blending hydrogen with natural gas, utilities can reduce the carbon intensity of residential and commercial heating without significant infrastructure changes, offering a transitional path towards a fully hydrogen-powered future.
Hydrogen energy, as a versatile energy carrier, currently spans various Technology Readiness Levels (TRLs) depending on its application and production method, with most technologies situated between TRL 4 (technology validated in lab) and TRL 9 (actual system proven in operational environment). The key technical reasons for this broad range are multifaceted. On one end, electrolysis, a process to produce hydrogen from water using electricity, has reached high TRLs (8-9) with some systems already operational at scale, thanks to advancements in efficiency and durability of electrolyzers. Conversely, technologies for producing hydrogen from less conventional sources, like biological processes or direct solar water splitting, are at lower TRLs (4-6) due to challenges in scalability, efficiency, and cost. The storage and transportation of hydrogen also present technical hurdles. While compressed and liquefied hydrogen storage technologies are relatively advanced (TRL 7-8), novel solid-state hydrogen storage solutions are still under development (TRL 4-5), needing breakthroughs in material science for higher density and safer storage options. These technical challenges, from production to storage and delivery, directly influence the current TRLs of hydrogen energy technologies, reflecting the ongoing research, development, and scaling efforts required to fully harness hydrogen's potential as a clean energy carrier.
In the short-term, hydrogen energy is expected to see significant advancements in production efficiency and cost reduction. Technologies such as electrolysis, which splits water into hydrogen and oxygen using electricity, are likely to become more energy-efficient and less expensive due to innovations in catalyst materials and energy sourcing from renewables. This phase will also witness a growth in the infrastructure for hydrogen fueling stations, particularly in urban areas, to support the initial uptake of hydrogen fuel cell vehicles. Moving into the mid-term, the focus will shift towards scaling up hydrogen production and storage capabilities. Advanced storage solutions, including liquid organic hydrogen carriers and metal hydrides, will become more commercially viable, addressing the challenge of hydrogen's low energy density in its gaseous state. Additionally, the integration of hydrogen energy into the broader energy grid as a clean backup power source will start to take shape. This period will also see hydrogen being increasingly used in sectors beyond transportation, such as in industrial processes and heating for buildings. In the long-term, hydrogen energy is poised to play a pivotal role in achieving global decarbonization goals. Breakthroughs in green hydrogen production technologies, such as biological water splitting and direct solar water splitting, will make sustainable hydrogen more accessible and cost-effective. Hydrogen will become a cornerstone of a circular energy economy, linking disparate renewable energy sources and providing a clean, versatile fuel for a wide range of applications, from heavy industry to residential power, thus significantly reducing the world's reliance on fossil fuels.
Some interesting questions that has been asked about the results you have just received for Hydrogen Energy
What are related technologies to Hydrogen Energy?
Based on our calculations related technologies to Hydrogen Energy are Water/Ocean Cleaning Technologies, Waste Management, Renewable Energy, Sustainable Fashion, Smart Grid
Who are Start-Ups in the field of Hydrogen Energy?
Start-Ups who are working in Hydrogen Energy are Sustainable Hydrogen Energy Australia
Which industries are mostly working on Hydrogen Energy?
The most represented industries which are working in Hydrogen Energy are Energy, Manufacturing, Science and Engineering, Sustainability, Professional Services
How does ensun find these Hydrogen Energy 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.