The US Department of Energy has announced $72m in funding for funding carbon capture technologies and $29m for fusion research projects.

On Wednesday, the department announced money for projects investigating two different areas of carbon capture.

within the first funding opportunity, nine new thermal power projects and industrial carbon sources will receive $51m for advancing carbon capture and storage (CCS).

This will involve testing engineering-scale technologies on flue gases from coal-fired and natural gas-fired power plants.

A further $21m is going to be split between 18 projects that specialize in capturing CO₂ directly from the air,

referred to as direct air capture.


These projects will specialize in developing and field-testing new materials used in direct air capture.

General Electric Research, Susteon, Innosense, and Electricore have each received many thousands of dollars

To develop different methods and sorbent materials for capturing CO2 from the air.

sorbent material

US Secretary of Energy Dan Brouillette said:

“The projects selected as a neighborhood of this research will help us develop the technological solutions needed to scale back greenhouse emission.

This is often critical to balancing our nation’s energy use while continuing to steer the planet in emissions reductions.”

Assistant Secretary for the Office of Fossil Energy Steven Winberg said:

“The primary mission of our office is to make sure that we can still believe its fuel resources for clean and secure energy.

The advancement of carbon capture technologies, including direct air capture, contributes there to the mission.

Our ultimate goal is to mature these technologies

In order to commercialize and delivered to the market.”

Fusion funds specialize in technologies surrounding the most reactor

The department also announced $29m for fusion technology advancements.

Fusion energy generation remains at an experimental stage, with research projects that specialize in consistently producing more energy

Than is required to start out the fusion process.

In a statement, the department said that while this has progressed,

“there remains a big got to specialize in the materials and enabling technologies which will be needed to determine fusion energy’s technical and commercial viability once net energy gain is achieved.”

The support will go toward 14 projects making advancements to technologies outside of this “fusion core”. This comes as a part of the Galvanizing Advances in Market-aligned fusion for an Overabundance of Watts (GAMOW) scheme.

The funded projects will cover three research areas. the primary of those covers the technologies, materials, and superconducting-magnet and fuel-cycle subsystems between the fusion plasma and balance of plant systems.

Oak Ridge National Laboratory received $8.65m for 3 projects, one among which can increase the warmth tolerance of materials in subsystems round the thermonuclear reactor.

Significant funding for US fusion research

The projects also will check out cost-effective, high efficiency, high-duty-cycle electrical driver technologies, also as those with more general applications, like new fusion materials, manufacturing processes, or scaling-up technologies.

The University of Houston has received $1.5m to continue its research into rare-earth metallic tapes. These could allow magnets infusion devices to become more powerful and cheaper to manufacture, lowering their cost by 30 times.

The Advanced scientific research Agency sponsors the GAMOW scheme.

Director Lane Genachowski said:

“Fusion energy may be a potentially game-changing clean energy source,

but for many years it faced scientific and technical challenges.

GAMOW teams will work to further develop enabling fusion materials and subsystem technologies, with attention on the timely future commercialization and deployment of fusion energy generation.”

International governments have collaborated on the ITER project in France, but some companies have started work on smaller reactors. In August, company Chevron invested in Zap Energy, which focuses on scalable fusion technology.



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