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Government confirms funding to launch the UK's first carbon capture sites, set to bring thousands of new skilled jobs, billions in private investment and support acceleration to net zero.

  • New era for the clean energy industry with carbon capture clusters launched – in the week that Britain became the first industrialised nation to end its 150-year usage of coal
  • UK will be among the first to deploy this game-changing technology at scale in Teesside and Merseyside – capturing CO2 emissions before they reach the atmosphere and storing them away safely
  • projects will create thousands of jobs, attract £8 billion of private investment, and accelerate the UK towards net zero in 2050

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The UK today enters a new era for clean energy investment and jobs, as the government announces it has reached commercial agreement with industry, and funding to launch carbon capture in the UK.

Major funding for 2 carbon capture sites will inject growth into the industrial heartlands of the North West and North East of England – directly creating 4,000 jobs and supporting 50,000 jobs in the long-term while powering up the rest of the country. 

This comes 10 days before the government’s set-piece International Investment Summit which is poised to put the UK back at the global table – kickstarting a decade of economic renewal and giving business confidence and opportunity to invest in the United Kingdom.

CCUS technology removes CO2 emissions before it reaches the atmosphere and stores it safely beneath the seabed – using tried and tested technology that has been deployed across the globe for over 20 years.

In a boost for economic growth and protecting the environment, the new carbon capture and CCUS enabled hydrogen projects will create 4,000 new jobs, sustain important British industry, and help remove over 8.5 million tonnes of carbon emissions each year – the equivalent of taking around 4 million cars off the road.

Prime Minister Keir Starmer, the Chancellor Rachel Reeves, and Energy Secretary Ed Miliband are visiting the North West today to confirm the funding for 2 sites in Teesside and Merseyside, which are expected to bring in £8 billion of private investment into these communities.

These projects will set the UK on course to become a global leader in CCUS and hydrogen – delivering good jobs and turbocharged growth for decades to come.

Prime Minister Keir Starmer said:

We’re reigniting our industrial heartlands by investing in the industry of the future.

For the past 14 years, business has been second-guessing a dysfunctional government – which has set us back and caused an economic slump.

Today’s announcement will give industry the certainty it needs – committing to 25 years of funding in this groundbreaking technology – to help deliver jobs, kickstart growth, and repair this country once and for all.

Today’s announcement confirms up to £21.7 billion of funding available, over 25 years, to make the UK an early leader in 2 growing global sectors, CCUS and hydrogen, to be allocated between these 2 clusters. The UK’s commitment was first made in 2009, and the confirmation of funding today represents a major success story for British industry.

In the week in which Britain became the first industrialised nation to end its 150-year usage of coal to produce power, the nation now begins a new era of clean energy technology. The UK has enough capacity to store 200 years’ worth of emissions - making CCUS a revolutionary method in tackling the climate crisis and helping industry to decarbonise.

Energy Secretary Ed Miliband said:  On Monday, 150 years of coal in this country came to an end. Today, a new era begins.

By securing this funding, we pave the way for securing the clean energy revolution that will rebuild Britain’s industrial heartlands.

I was proud to kickstart the industry in 2009, and I am even prouder today to turn it into reality. This funding is a testament to the power of an active government working in partnership with businesses to deliver good jobs for our communities.

Chancellor of the Exchequer Rachel Reeves, said: This game-changing technology will bring 4,000 good jobs and billions of private investment into communities across Merseyside and Teesside, igniting growth in these industrial heartlands and powering up the rest of the country.

Working in partnership with business is at the heart of our plan to deliver strong growth and investment, so we can rebuild Britain and make everyone better off.

This announcement will also help turbocharge the low carbon hydrogen sector by paving the way for the UK’s first large-scale hydrogen production plant, decarbonising vital industrial sectors.

It also marks a game-changing development in the mission to tackle climate change – protecting the environment from harmful emissions at a time when the UK has seen a year of record-breaking temperatures. It follows advice from the independent Climate Change Committee, who described CCUS as critical for decarbonising the UK’s heavy industry and a “necessity” for the UK to reach its legally binding target for net zero emissions by 2050.

Similarly, the International Energy Agency and the Intergovernmental Panel on Climate Change have endorsed CCUS as a critical tool in decarbonisation, particularly in heavy industry such as cement and steel.

The carbon capture, usage and storage industry is expected to support 50,000 good, skilled jobs as the sector matures in the 2030s, helping to support the oil and gas sector’s transition away from high emission fossil fuels by using the transferable expertise of their workforce. This supports the UK’s mission for growth, while putting the country at the cutting edge for developing the skills of the future.

An up and running carbon capture industry is expected to add around £5 billion per year to the UK economy by 2050 and the backing of these 2 sites sends a clear signal to investors that the UK is open for business.

As part of the partnership with GB Energy and The Crown Estate, the progress on Track-1 comes as The Crown Estate awarded an Agreement for Lease to Eni to repurpose existing infrastructure to transport and store CO2, reducing cost and environmental impact. 

Louise Kingham, SVP Europe and head of country, UK for bp, said:This announcement represents another step forward for the Northern Endurance Partnership and East Coast Cluster.

Major projects like these have the potential to help stimulate economic growth – supporting thousands of jobs, helping UK companies prosper through the vast supply chains involved and creating the infrastructure to help major industrial companies with their decarbonisation plans.

Collaboration is key in helping to progress and deliver the energy transition in the UK, and we look forward to continuing to work alongside the government and our partners to move these innovative projects forward.

Alex Grant, SVP and head of country, UK for Equinor, said:  We welcome this major milestone in progressing these 2 key projects and applaud the hard work and collaboration that has led us here.

Equinor has been an energy partner with the UK for over 45 years and today’s announcement is a step for both Equinor and the UK to progress our energy partnership further.

This will help decarbonise the country’s industrial heartlands and achieve its net zero ambitions whilst providing jobs and value creation.

The UK will continue to be a key market for Equinor, building on our history of significant energy provision along its East Coast, which is transitioning from traditional oil and gas demand to renewables and low carbon options like CCS and hydrogen.

Eni CEO, Claudio Descalzi, said: Today’s news is an important step towards the creation of a new business chain linked to the energy transition.

HyNet will become one of the first low-carbon clusters in the world and the project will decarbonise one of the key energy-intensive industrial districts as well as unlock significant economic growth in this region of the UK.

This commitment is clear evidence of how governments and industry can work together to implement pragmatic and effective industrial policies, in order to accelerate decarbonisation. On our side, it reaffirms Eni’s role as a key partner with the UK in enabling its journey towards Net Zero.

James Richardson, Acting Chief Executive of the Climate Change Committee, said: It’s fantastic to see funding coming through for these big projects. We can’t hit the country’s targets without CCUS so this commitment to it is very reassuring. It will no doubt provide comfort to investors and business about the direction of travel for the country.

We know these projects will provide good, reliable jobs in communities that need them. It is important that prosperity for these parts of the country is built into a clean energy future.

Emma Pinchbeck, Energy UK’s Chief Executive, said:CCUS is a tool in our armoury of technologies which we need to decarbonise parts of energy that we currently can’t do with clean electricity, such as major industrial processes.

The energy transition is gathering pace, and the development of CCUS here for industrial processes unlocks inward investment, creates jobs and helps areas with a proud history of engineering and industry pioneer the technologies of the future in the UK.

Olivia Powis, CEO of the Carbon Capture and Storage Association (CCSA), said:

The government’s confirmed support for carbon capture and storage and hydrogen demonstrates their commitment to the UK’s journey to net zero.

Today’s announcement shows that decarbonisation does not mean de-industrialisation, and highlights the UK’s leadership in these important technologies.

The industry has made significant strides towards deploying carbon capture projects and by establishing the first 2 CCUS clusters in the North West and North East of England, it means that we can deliver thousands of new highly skilled jobs whilst reducing our CO2 emissions and retaining existing jobs in our industrial areas in critical industries like cement and manufacturing across the UK.

Celia Greaves, CEO of the Hydrogen Energy Association, said: This is a vital step forward, catapulting hydrogen towards long-term certainty we need in the UK. Supporting hydrogen at scale in 2 of the biggest UK industrial clusters is the government giving hydrogen another green light as a key component of its green energy ambitions. We particularly welcome the news that this will provide thousands of new jobs given the HEA’s solid focus on hydrogen’s role in delivering clean growth.

Our own project map has built up a blueprint of hydrogen endeavours across all parts of the UK and this significant investment in carbon capture clusters is going to bring forward the first large scale projects we have seen in the country. What’s more, it will inject further enthusiasm for wider investment to power-up business confidence which will have a knock-on effect of continuing to position the UK as a global player in hydrogen technology and innovation.

Clare Jackson, CEO of Hydrogen UK, said: “Weare thrilled to see the UK government’s commitment to advancing Track-1 clusters in partnership with the private sector. This initiative is a crucial step forward for regional development, driving economic growth, and creating high-quality jobs across the country.

The integration of CCUS technology with hydrogen production is pivotal for achieving our net zero targets. CCUS-enabled hydrogen not only provides a low carbon, and scalable energy solution but also ensures the UK remains at the forefront of the global hydrogen economy.

By moving forward with Track-1, we are laying the foundation for a cleaner, more resilient energy future for all.

Source: Fuel Cells Works

Posted by Morning lark
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China leads world on green hydrogen projects, dominates equipment manufacturing, IEA says

China leads world on green hydrogen projects, dominates equipment manufacturing, IEA says

China accounts for 40 per cent of all new low-emission hydrogen production projects that have received the financial green light in the past year and is dominant in the sector’s manufacturing, according to an International Energy Agency (IEA) report.

The nation is expanding its capacity to make electrolysers, which use renewable electricity to split water into hydrogen and oxygen, and that will lower the cost of the device around the world, the IEA said. Electrolysers are critical for producing low-emission hydrogen from renewable or nuclear electricity.

Of the 6.5 gigawatts (GW) of electrolyser capacity that was approved in the past year, China accounted for more than 40 per cent, the intergovernmental organisation said on Wednesday. In the same period, Europe’s capacity quadrupled to more than 2GW with a share of 32 per cent, while India’s reached 1.3GW.

Do you have questions about the biggest topics and trends from around the world? Get the answers with SCMP Knowledge, our new platform of curated content with explainers, FAQs, analyses and infographics brought to you by our award-winning team.

The IEA said,

The country’s expertise in mass manufacturing of clean energy technologies, including electrolysers, means it is home to 60 per cent of global electrolyser manufacturing capacity,

“At 25GW per year, it is well above the average deployment rate globally.”

Several large Chinese manufacturers of solar panels have started making electrolysers and together they account for about a third of China’s manufacturing capacity in the space, the report said.

The total electrolyser capacity that received financial backing amounted to 20GW globally, which could raise the annual global output of low-emission hydrogen by five-fold by 2030, it said.

Last month, a report from industry body the Hydrogen Council and consultancy McKinsey said the global pipeline of low-carbon hydrogen projects that have won financial backing grew to 434 with US$75 billion worth of investment this year from 102 requiring US$10 billion in 2020.

Last year, coal-based production accounted for a fifth of global hydrogen output, while natural gas contributed nearly two-thirds, the IEA said. Another 15 per cent was from by-products of oil refineries and petrochemical plants. Low-emission production accounted for less than 1 per cent of global production.

High electrolyser costs are the biggest hurdles for low-emission hydrogen proliferation. Sticking with existing policies would lead the cost gap with fossil fuel-based hydrogen to fall by 30 per cent, according to the IEA, compared with a decline of 50 per cent if countries strengthened policies in alignment with the global goal to reach net zero carbon emission by 2050.

While the growing pipeline of projects suggests investors are interested, low-emission hydrogen production projects will only spread in scope with supportive policies to support demand, IEA executive director Fatih Birol said.

He said,

The report highlights a gap between government goals for production and demand,

“Policymakers and developers must look carefully at the tools for supporting demand creation.”

Targets set by governments worldwide for low-emission hydrogen production are expected to amount to 43 million tonnes by 2030, dwarfing demand of only 11 million tonnes, the IEA said.

Some governments have already announced or implemented policies to stimulate demand.

This includes mandatory blended use of sustainable fuels in aviation and shipping in the European Union, as well as contracts in Germany for the state to compensate firms who adopt low-emission manufacturing technology when carbon emission permit prices fall.

Source: Hydrogencentral

Posted by Morning lark
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Oort energy, a pioneering UK-based company specialising in hydrogen electrolysis, has achieved a critical milestone by completing the construction of its groundbreaking 1MW electrolyser.

Established in 2021 by electrolyser industry veterans, Oort Energy is committed to reducing the costs associated with green hydrogen production and driving forward sustainable energy solutions. The company’s next-generation electrolysers produce green hydrogen using water and renewable electricity, setting new benchmarks in efficiency, scalability, and cost-effectiveness. This latest development marks a significant step in Oort Energy’s journey to revolutionise the green hydrogen sector. In just three years, Oort Energy has already become a major player in the global energy transition.

Scaling up with 1MW electrolyser deployment

The completion of Oort Energy’s 1MW electrolyser represents a pivotal moment in the company’s scale-up process. With the build process now complete, the system is being subjected to a rigorous routine of tests and inspections to ensure it meets Oort Energy’s high operating standards. This advanced system is now being primed for deployment in Morocco, where it will play a crucial role in the region’s burgeoning green hydrogen production ecosystem.





The 1MW electrolyser is engineered for high performance across multiple parameters, including superior power conversion efficiency, minimised hydrogen loss through advanced drying technologies, and optimised gas production through a cost-effective stack design. These innovations enable Oort Energy to produce ultra-pure green hydrogen that meets the stringent standards required for industrial applications such as the Haber-Bosch process for green ammonia production. By deploying in Morocco, Oort Energy aims to validate its technology under real-world conditions, setting the stage for further expansion into global markets.

Next-generation hydrogen electrolysis technology

Oort Energy’s mission is centred on transforming the hydrogen industry by making green hydrogen more affordable and accessible. The company’s proton exchange membrane (PEM) electrolysers leverage proprietary technologies, including ultra-thin membranes and advanced coatings, to achieve industry-leading efficiencies. Its first-generation system set a new standard with an impressive 87% efficiency, while its upcoming second-generation model is projected to achieve 91% efficiency without an increase in energy costs.

Achieving such high efficiencies is critical to Oort Energy’s strategy of redefining the economics of green hydrogen production. With its focus on innovation, Oort Energy has optimised its stack design for mass production, significantly reducing overall costs. This approach has allowed the company to cut production expenses by up to 50% in comparison to its competitors, positioning its electrolysers as some of the most capital-efficient options available in the market today. This cost reduction is essential in making green hydrogen competitive with traditional, fossil-fuel-derived grey hydrogen.

Oort Energy sets an industry standard

The successful completion of the 1MW electrolyser build is Oort Energy’s largest project to date, but it is far from the company’s first major achievement. Earlier in 2024, Oort Energy became the first UK company to produce green hydrogen entirely off-grid using its advanced electrolyser technology.





In April 2024, the company’s 250kW demonstrator in Harlaxton was announced as running continuously on solar power, marking a historic milestone in the hydrogen sector. This achievement represented the first instance of a company achieving direct solar-powered hydrogen production in the UK at a commercial scale. Operating at high efficiency, the demonstrator produced green hydrogen with a purity level exceeding 99.9995%, setting a new benchmark for sustainable hydrogen production. Even while operating off-grid, the Oort Energy system managed to produce pure, dry green hydrogen that met the stringent ISO14687 fuel cell specifications, demonstrating the robustness and reliability of its technology. The system also successfully passed a rigorous series of key performance tests, underscoring Oort Energy’s commitment to innovation and environmental stewardship in the renewable energy field. This off-grid success serves as a powerful validation of the company’s technological capabilities and sets the stage for future off-grid and grid-connected deployments.

A strategic business model for the green hydrogen revolution

Oort Energy’s business strategy is designed to capitalise on the rapidly expanding green hydrogen market, which is expected to be a cornerstone in the global transition towards sustainable energy. With green hydrogen playing a pivotal role in decarbonising industries and achieving net zero targets, Oort Energy is positioning itself at the forefront of this revolution.





In the initial phase, the company is focused on selling complete electrolyser systems, allowing customers to fully experience the superior performance and efficiency of its cutting-edge technology. By demonstrating the capability of its systems in real-world applications, Oort Energy aims to build credibility and establish a solid foundation for long-term growth.

The expanding global green hydrogen market

The global hydrogen market, currently valued at approximately £123bn, is projected to exceed £1tn by 2050, driven by the increasing adoption of green hydrogen as a cornerstone of the low-carbon economy. As industries such as chemicals, fertilisers, and heavy transport seek to reduce their carbon footprints, green hydrogen is emerging as a vital solution for achieving net zero emissions. Oort Energy’s advanced electrolyser technology positions the company to play a significant role in this transition, providing a cost-competitive alternative to fossil-fuel-derived hydrogen.

A vision for the hydrogen economy

Oort Energy’s progress is driven not only by technological innovation but also by a clear vision of a sustainable future. The company’s efforts to make green hydrogen more economically viable have the potential to transform entire industries, enabling them to decarbonise and contribute to global climate goals. As Oort Energy continues to grow and innovate, it aims to play a central role in building the green hydrogen infrastructure necessary for a net zero future.

Nick Van Dijk, CEO of Oort Energy, encapsulates the company’s mission, stating: “We’re at a very early stage and we have a long way to grow, but we’re going to do it profitably. By running a lean operation, Oort Energy can run both profitably and with a reduced carbon footprint. The best way to achieve environmental change is to get the market to drive it. Once the market grows, our customers will make the move not just because it’s better for the environment but because it’s the most cost-effective solution.”

Oort Energy’s strategy is designed to ensure that the critical market crossover between green and grey hydrogen happens sooner rather than later. By driving down costs and proving the viability of its technology, Oort Energy is helping to accelerate the adoption of green hydrogen, potentially preventing gigatonnes of carbon emissions and laying the foundation for a sustainable energy future. As the company continues to innovate and expand, it stands at the forefront of a green hydrogen revolution that promises to reshape the global energy landscape for decades to come.

Ultimately, Oort Energy’s rapid progress in the green hydrogen sector marks it as a frontrunner in the global energy transition. With the successful completion of its 1MW electrolyser and upcoming deployments, Oort Energy is well-positioned to revolutionise hydrogen production by driving down costs and enhancing efficiency. Its strategic focus on innovation, scalability, and cost effectiveness underscores the company’s potential to make green hydrogen a competitive alternative to fossil fuels. As Oort Energy continues to expand its global footprint, it is set to play a pivotal role in contributing to a sustainable, low-carbon future.

Source: Fuel Cells Works

Posted by Morning lark
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Hydrogen Production System Successfully Installed at Korean Partner’s New Facilities

Montréal, October 2, 2024 – TheNewswire – St-Georges Eco-Mining Corp. (CSE: SX) (OTCQB: SXOOF) (FSE: 85G1), and its majority owned subsidiary, H2SX Corp., are pleased to disclose that their Korean partner, Wintech Energy, has just completed on time the installation of all the equipment for its hydrogen production system at their new facilities located in the suburbs of Seoul, South Korea.

The system will be fully operational, as planned, before the end of this year. It is expected that there will be a period of a few weeks to a few months of commissioning that will follow the reception of the financial resources required. The next few weeks will be devoted to the commissioning, to calibrating the various components, starting up and ramping up the production of hydrogen and carbon from biogas or natural gas.

Wintech’s technology uses its proprietary microwave plasma torch design and topology to very effectively dissociate, using electromagnetic fields, carbon from hydrogen in a methane molecule, whether it is of natural origin or derived from the biomethanization of organic waste and residues.

Jung Cheol Park, President of Wintech Energy, said :

We will be ready in a few weeks to demonstrate to the entire industry, at real scale and with figures to back it up, the undeniable advantages of Wintech’s technology for producing cheap and clean hydrogen without greenhouse gas emissions, simply pure carbon powder

Dr. Sabin Boily, President and CEO of H2SX, said :

Nothing will please us more than to welcome our future partners and clients to Seoul to present this technology in operation as soon as our Wintech colleagues give us the go-ahead

Investor Outlook

The installation of the Showcase Hydrogen Production Plant in Seoul marks a significant milestone for H2SX. This operational facility will provide interested parties the opportunity to witness the technology in action. Regardless of future scenarios for H2SX, the plant will enable independent third parties to conduct their own due diligence, offering concrete insights into the econometrics and technological challenges associated with running a modular hydrogen plant. Several major industry players have already expressed interest in performing these reviews within a live operational environment.

Source: Hydrogencentral


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Xingran Technology Nears Completion of Major PEM Electrolyzer Production Base in Changzhou

Xingran Technology's new 26,000-square-meter PEM electrolyzer production base in Changzhou is nearing completion and is expected to start operating in January 2025.
The facility, which will focus on modular hydrogen production units and boast an annual output of 1GW, will be the largest of its kind in China.

Xingran Technology's Changzhou PEM electrolyzer production base is located in Wujin National High-tech Industrial Development Zone. The workshop adopts a fully intelligent and automated production and manufacturing system, equipped with nearly 100 sets of equipment such as advanced ultrasonic sprayers and five-in-one hot presses, forming an efficient production model featuring "assembly line operation + intelligent manufacturing", which significantly shortens the production cycle and reduces manufacturing costs.




Through the introduction of intelligent equipment and the construction of automated production lines, the workshop has achieved comprehensive monitoring and management of the production process. Each process can be completed under the precise control of the intelligent system. Whether it is material processing, equipment assembly or quality inspection, it has reached the highest standards in the industry.





PEM water electrolysis hydrogen production technology systematization/set-up

The company has established a hydrogen energy joint laboratory in cooperation with North China Electric Power University. The laboratory is located in the Beijing campus of North China Electric Power University and brings together more than 20 professors, associate professors, doctors, masters and other scientific research elites, becoming an important support for the company's basic research. In terms of technology, the company has mastered the technology in key areas including catalysts, membrane electrodes, plates, electrodes and PEM stacks. The key processes and components of the products are self-developed and self-produced, forming a unique advantage of systematization and set-up of key technologies for PEM water electrolysis hydrogen production.




The company's products are widely used in large-scale hydrogen production projects, industrial chemicals, power energy storage, wind and solar energy storage, high-end laboratories, semiconductors, medicine, metallurgy, environmental protection, inspection and quarantine, artificial diamonds and other fields, and have been successfully exported to the Middle East, winning wide recognition in domestic and foreign markets.




Source: FCW Team

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