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Archive for the ‘nuclear energy’ category: Page 25

Aug 3, 2023

‘Eerie-blue glow’ seen with nuclear fusion for the first time

Posted by in category: nuclear energy

SHINE Technologies.

With the world looking for cleaner ways to meet its energy demands, nuclear power is gaining favor once again as a low-carbon source of energy. Companies are also focused on harnessing energy from nuclear fusion instead, which does not raise concerns about nuclear waste.

Aug 1, 2023

Nuclear Power Breakthrough Makes ‘Limitless’ Energy Possible

Posted by in categories: business, nuclear energy

Editor’s note: “Nuclear Power Breakthrough Makes “Limitless” Energy Possible” was previously published in May 2023. It has since been updated to include the most relevant information available.

For a moment, imagine a world of limitless energy – one where energy is so abundant that everyone can power their homes and businesses for mere pennies.

These days, it’s tough to imagine a world like that. Last winter, the average U.S. heating bill was $1,000.

Jul 31, 2023

The first US nuclear reactor built from scratch in decades enters commercial operation in Georgia

Posted by in categories: business, nuclear energy

ATLANTA (AP) — A new reactor at a nuclear power plant in Georgia has entered commercial operation, becoming the first new American reactor built from scratch in decades.

Georgia Power Co. announced Monday that Unit 3 at Plant Vogtle, southeast of Augusta, has completed testing and is now sending power to the grid reliably.

At its full output of 1,100 megawatts of electricity, Unit 3 can power 500,000 homes and businesses. Utilities in Georgia, Florida and Alabama are receiving the electricity.

Jul 30, 2023

NASA is planning to use nuclear power for the first human trip to Mars

Posted by in categories: nuclear energy, space travel

The space race has been revived, but this time, the goal post has been shifted much further – to Mars. As recent technological advancements promise to open new horizons of exploration, NASA plans to cut the travel time to Mars with a nuclear-powered spacecraft.

A trip to Mars currently takes approximately seven months, covering a staggering 300-million-mile journey. NASA, in collaboration with the US Defense Advanced Research Projects Agency (DARPA), now proposes an ambitious plan that hinges on the promise of nuclear thermal propulsion technology to reduce this duration significantly.

NASA aims to launch a nuclear-powered spacecraft, known as DRACO (Demonstration Rocket for Agile Cislunar Operations), into Earth’s orbit either by late 2025 or early 2026. The spacecraft, under construction by Lockheed Martin, a leading aerospace and defense company, will serve as a testbed for this groundbreaking technology.

Jul 25, 2023

Sustained Neutron Production from a Sheared-Flow Stabilized $Z$ Pinch

Posted by in category: nuclear energy

Year 2019 mini fusion device 😗😁.


Researchers spot the signatures of nuclear fusion in a table-top-sized setup commonly used to study the plasmas found in stars and other astrophysical objects.

Jul 24, 2023

A special new tape could make small, efficient nuclear fusion reactors possible

Posted by in categories: nuclear energy, sustainability

A revolutionary new high-temperature superconducting tape could lead to the development of small, efficient tokamak nuclear fusion reactors.

A groundbreaking high-temperature superconducting tape has been devised that could prove revolutionary in our quest to develop sustainable nuclear fusion, reports IEEE Spectrum.

Continue reading “A special new tape could make small, efficient nuclear fusion reactors possible” »

Jul 24, 2023

The Dawn of Collider Neutrino Physics

Posted by in categories: nuclear energy, particle physics

The first observation of neutrinos produced at a particle collider opens a new field of study and offers ways to test the limits of the standard model.

Neutrinos are among the most abundant particles in the Universe, but they rarely interact with matter: trillions pass through us every second, but most of us will never have even a single one interact with the matter in our bodies. Nonetheless, scientists can study these particles using high-intensity neutrino sources and detectors that are large enough to overcome the rarity of neutrino interactions. In this way, neutrinos have been observed from the Sun, from cosmic-ray interactions in the atmosphere, from Earth’s interior, from supernovae and other astrophysical objects, and from artificial sources such as nuclear reactors and particle accelerators in which a beam of particles hits a fixed target. But no one had ever detected neutrinos produced in colliding beams. This feat has now been achieved by the Forward Search Experiment (FASER), located at the Large Hadron Collider (LHC) at CERN in Switzerland [1].

As neutral particles, neutrinos cannot be directly observed by detectors of the kind used in particle colliders. Instead, scientists study neutrinos via the particles produced when incoming neutrinos interact with matter: the properties of the incoming neutrinos can be inferred from the measured properties of their interaction products. While these interactions are always rare, their probability increases with neutrino energy. In a particle collider, the highest energy neutrinos are most likely to be produced in a region of the collider where there are no particle detectors. Collider experiments are built to surround the colliding beams with detectors, with only a small central region left empty to allow for the entry and exit of the beams. It is in this empty “forward” region, along the collision axis, that the highest energy neutrinos are most likely to be produced.

Jul 23, 2023

Recycle Spent Nuclear Fuel Save the Grid with Steven Curtis

Posted by in categories: education, nuclear energy, space

Make nuclear power safer by tapping the gold mine in the spent fuel rods by using molten salt reactors and small modular reactors for both safe nuclear plant back up power and for microgrids that will be less susceptible to an EMP or CME E3 waveform. Watch to learn!

Contact Steven Curtis:
scurtis261@gmail.com.
wastetoenergynow.org.
(702) 219‑6463

Continue reading “Recycle Spent Nuclear Fuel Save the Grid with Steven Curtis” »

Jul 21, 2023

Finding game-changing superconductors with machine learning tools

Posted by in categories: biotech/medical, nuclear energy, robotics/AI, supercomputing

Superconductors—found in MRI machines, nuclear fusion reactors and magnetic-levitation trains—work by conducting electricity with no resistance at temperatures near absolute zero, or −459.67°F.

The search for a conventional superconductor that can function at room temperature has been ongoing for roughly a century, but research has sped up dramatically in the last decade because of new advances in (ML) using supercomputers such as Expanse at the San Diego Supercomputer Center (SDSC) at UC San Diego.

Most recently, Huan Tran, a senior research scientist at Georgia Institute of Technology (Georgia Tech) School of Materials Science and Engineering, has worked on Expanse with Professor Tuoc Vu from Hanoi University of Science and Technology (Vietnam) to create an artificial intelligence/machine learning (AI/ML) approach to help identify new candidates for potential superconductors in a much faster and reliable way.

Jul 20, 2023

Solar space butterfly could power lunar outposts around the clock

Posted by in categories: nuclear energy, solar power, space, sustainability

According to a study by Astrostrom for ESA, future Moon bases could be powered by a giant space butterfly called the Greater Earth Lunar Power Station (GEO-LPS) covered with solar panels made from lunar materials beaming microwaves to the surface.

One of the major design concerns in setting up a lunar base is finding a reliable means of powering it. Solar power might seem the obvious answer, but with lunar nights lasting 14 Earth days, it isn’t a practical option. However, though the most promising alternative is currently a small nuclear reactor, solar may not be out of the running.

The idea of solar power plants in space has been around for well over half a century. On Earth, solar panels are limited by night time, atmospheric haze, and bad weather, making them only capable of intermittent power generation with limited efficiency. On the other hand, in space, where there is no night and no atmosphere, solar power becomes very attractive.

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