Fusion fuel

fusion fuel

What is Fusion Energy Science?

Fusion energy science is a multi-disciplinary field focused on the science needed to develop an energy source based on a controlled thermonuclear fusion reaction. Fusion occurs when two nuclei combine to form a new nucleus.

Who is the co-president of fusion fuel?

Zachary Steele is Co-President (Americas) for Fusion Fuel. He is an experienced energy entrepreneur and senior executive who has founded, led and sold multiple energy infrastructure companies over the course of his 16 year career.

Why choose fusion-fuel?

FUSION-FUEL has developed a revolutionary new electrolyzer design – the HEVO – that will allow it to produce hydrogen using renewable energy at highly competitive costs without any associated carbon emissions. FUSION-FUELS team has a long history in the solar energy industry and in developing concentrated photovoltaic technology. SEC Industry

What are the primary fuels in a fusion reactor?

Therefore the primary fuels in a fusion reactor are deuterium and lithium. The energy released by a fusion reaction is one million times larger than the energy released by a chemical reaction and 1 g of primary fusion fuel (deuterium and lithium) would deliver as much energy as 1 t of coal.

Whats new in Fusion Energy Science?

DOE has already supported huge advances in fusion energy science. Scientists can now use research facilities to produce and measure fusion-grade plasmas heated to more than 100 million degrees. They can also simulate these processes with supercomputers to better understand how plasma functions.

What is the difference between fusion energy and fission energy?

Energy obtained from fusion and fission reactions is based on differences in the nuclear binding energy. The mass of the products of a fusion reaction is smaller than the mass of its reactants. The difference or missing mass is converted into energy in accordance with Einstein’s equation E=mc².

How is energy produced in nuclear fusion?

Fusion energy is produced by nuclear fusion of two lighter atomic nuclei to form a heavier nucleus. The latter weighs slightly less than the total of the two nuclei. The small difference in mass m is transformed into energy E according to Albert Einsteins famed formula E = mc2, where c is the speed of light approximating 3 × 10 8 m/s.

What is fusion and how does it work?

What is Fusion? With its high energy yields, low nuclear waste production, and lack of air pollution, fusion, the same source that powers stars, could provide an alternative to conventional energy sources. But what drives this process?

What is nuclear fusion and why is it important?

Energy from nuclear fusion is an attractive prospect because it does not release greenhouse gases (1kg of fusion fuel contains about 10 million times as much energy as 1kg of coal, oil or gas). Since its a cheap and clean energy source, experts believe fusion can help address climate change.

How is fusion fuel held together?

Another approach to holding the fusion fuel together long enough for adequate energy release to occur is called inertial confinement. If a solid pellet of fusion fuel is heated with an intense laser or particle beam, the surface of the pellet heats and ablates rapidly.

What are the external fuels needed to sustain a fusion reaction?

Once the fusion reaction is established in a tokamak, deuterium and lithium are the external fuels required to sustain it. Both of these fuels are readily available. A future fusion plant producing large amounts of power will be required to breed all of its own tritium.

Is Fusion Energy worth pursuing?

The fossil fuels that shaped 19th and 20th century civilization can only be relied on at the cost of greenhouse gases and pollution. A new large-scale, sustainable and carbon-free form of energy is urgently needed. The following advantages make fusion worth pursuing.

What fuel does a fusion reactor run on? The easiest fuel combination to fuse in modern research reactors is heavy hydrogen and doubly heavy hydrogen: deuterium and tritium. Alternatives for improved reactors include deuterium-deuterium, deuterium-helium-3, and protium-boron-11.

What makes a D-T fusion reactor unique?

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