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## GENERAL FUSION (VANCOUVER) • JUN 16, 2021.

# General Fusion to build its Fusion Demonstration Plant in the UK, at the UKAEA Culham Campus.

*Unlike conventional nuclear power, which involves fission or splitting atoms, the emerging fusion technology promises clean energy where the only emission would be helium, and importantly, no radioactive waste.*

New partnership between General Fusion and UKAEA is a landmark collaboration in the development of fusion, a technology for the world’s low-carbon future.

VANCOUVER, Canada and LONDON, United Kingdom (17th June 2021 BST): The UK Atomic Energy Authority (UKAEA) and General Fusion have announced an agreement under which General Fusion will build and operate its Fusion Demonstration Plant (FDP) at UKAEA’s Culham Campus. General Fusion will enter into a long-term lease with UKAEA following construction of a new facility at Culham to host the FDP. The FDP will demonstrate General Fusion’s proprietary Magnetized Target Fusion (MTF) technology, paving the way for the company’s subsequent commercial pilot plant. General Fusion will benefit from the cluster of fusion supply chain activities in the UK, centered on UKAEA’s globally recognized expertise and presence in the field.

Amanda Solloway, Science Minister for UK Government said: “This new plant by General Fusion is a huge boost for our plans to develop a fusion industry in the UK, and I’m thrilled that Culham will be home to such a cutting-edge and potentially transformative project. Fusion energy has great potential as a source of limitless, low-carbon energy, and today’s announcement is a clear vote of confidence in the region and the UK’s status as a global science superpower.”

The Fusion Demonstration Plant at Culham is the culmination of more than a decade of advances in General Fusion’s technology, and represents a major milestone on the company’s path to commercialization. The Fusion Demonstration Plant will verify that General Fusion’s MTF technology can create fusion conditions in a practical and cost-effective manner at power plant relevant scales, as well as refine the economics of fusion energy production, leading to the subsequent design of a commercial fusion pilot plant. Construction is anticipated to begin in 2022, with operations beginning approximately three years later.

General Fusion and UKAEA intend to collaborate on a range of fusion energy technologies for power plant design and operation.

“Coming to Culham gives us the opportunity to benefit from UKAEA’s expertise,” stated Christofer Mowry, CEO, General Fusion. “By locating at this campus, General Fusion expands our market presence beyond North America into Europe, broadening our global network of government, institutional, and industrial partners. This is incredibly exciting news for not only General Fusion, but also the global effort to develop practical fusion energy.”

The Culham Campus, the home of the UK’s national fusion research programme, is owned and managed by UKAEA, widely recognized as a world leader in fusion energy development and innovation.

“This is a great development for UKAEA, very much in line with our mission to lead the development of sustainable fusion energy, and builds on our long heritage of hosting major fusion facilities such as the Joint European Torus,” said Ian Chapman, CEO of UKAEA.

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About General Fusion.

General Fusion’s mission is to pursue the commercialization of fusion energy based on its proprietary Magnetized Target Fusion technology. The company is based in Vancouver, Canada, with locations in Washington, D.C., and London, U.K. The company was established in 2002 and is funded by a global syndicate of leading energy venture capital firms, industry leaders, and technology pioneers. General Fusion’s partnership with the UKAEA coincides with an expansion of the company’s global headquarters and research facilities in Vancouver, Canada, and a growing presence in the United States.

Twitter: @GeneralFusion More information: www.generalfusion.com.

Thank you to general fusion, folkstone design inc. & zoomers of the sunshine coast BC

#Fusion #ClimateChange #Vancouver #BC #UK #UKAEA

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About 2.2 billion people globally lack reliable access to clean drinking water, according to the United Nations, and the growing impacts of climate change are likely to worsen this reality.

Solar steam generation (SSG) has emerged as a promising for water harvesting, desalination, and purification that could benefit people who need it most in remote communities, disaster-relief areas, and developing nations. In Applied Physics Letters, Virginia Tech researchers developed a synthetic tree to enhance SSG.

SSG turns into heat. Water from a storage tank continuously wicks up small, floating porous columns. Once water reaches the layer of photothermal material, it evaporates, and the steam is condensed into drinking water.

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During the winter months, renewable energy is in short supply throughout Europe. An international project is now considering an unconventional solution: Renewable hydrogen and carbon dioxide are pumped into the ground together, where naturally occurring microorganisms convert the two substances into methane, the main component of natural gas.

Underground Sun Conversion technology, patented by the Austrian energy company RAG Austria AG, offers a way to seasonally store renewable energy on a large scale and make it available all year round. In summer, this involves converting surplus renewable energy—, for instance—into hydrogen (H2). This is then stored together with (CO2) in natural underground storage facilities—for example, former natural gas deposits—at a depth of over 1000 meters.

This is where little helpers come into play: Microorganisms from , so-called archaea, convert hydrogen and CO2 into renewable methane (CH4) via their metabolism. Archaea are found all over the world, mainly in anaerobic, i.e. low-oxygen environments; they were responsible for converting biomass into natural gas millions of years ago. By feeding hydrogen and CO2 into suitable porous sandstone deposits, this process can be started all over again. The methane “produced” in the depth can then be withdrawn from the reservoirs during winter and used in a variety of ways as CO2-neutral natural gas.

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- Progress, Potential, And Possibilities has had another busy month, with another awesome set of guests from academia, industry, and government, all focused on building a better tomorrow — Please come subscribe and enjoy all our current and future guests — Much more to come! # Health # Longevity # Biotech # SpaceExploration # ArtificialIntelligence # NeuroTechnology # RegenerativeMedicine # Sports # Environment # Sustainability # Food # NationalSecurity # Innovation # Future # Futurism # AnimalWelfare # Equity # IraPastor.

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China is seeing a high-tech greenhouse boom as food supply disruptions sparked by coronavirus lockdowns accelerated the development of modern farming techniques.

SHANGHAI, June 4 (Reuters) — At Chongming Island just outside Shanghai, China’s most populous city, workers collect and pack tomatoes and cucumbers at a glass greenhouse operated by Dutch company FoodVentures, which harvested their first batch of produce at the site in May.

The facility is one of dozens sprouting up on the outskirts of China’s megacities that utilise high-end technology to manage irrigation, temperature and lighting systems to grow vegetables within easy reach of a large and affluent consumer base.

“There is a trend towards more sustainable and professional supply,” said FoodVentures director Dirk Aleven.

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