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Archive for the ‘nuclear energy’ category: Page 117

May 3, 2018

NASA successfully tested KRUSTY, a nuclear reactor that works in space and could power missions to the Moon or Mars

Posted by in categories: habitats, nuclear energy, space travel

If space is an ocean, the International Space Station is a raft tethered to the shore. The moon is a nearby island that we’ve visited briefly. To go any further or stay any longer, humanity needs more power.

Now, NASA may have the source: A tiny nuclear reactor called KRUSTY, for Kilopower Reactor Using Stirling Technology. (If you’re wondering if this is may be a reference to a popular animated series, its predecessor was known as DUFF).

The reactor uses nuclear fission—the energy released by splitting uranium-235 in a reactor core about the size of a paper towel— to produce 10 kilowatts of power for about ten years, which NASA says is enough energy to power several houses. Four of the reactors could power an outpost on the lunar surface.

Continue reading “NASA successfully tested KRUSTY, a nuclear reactor that works in space and could power missions to the Moon or Mars” »

May 3, 2018

Eliminating small instabilities in tokamaks before they become disruptions

Posted by in categories: nuclear energy, particle physics

One of the greatest obstacles to producing energy via fusion on Eearth is the formation and growth of small magnetic field imperfections in the core of experimental fusion reactors. These reactors, called tokamaks, confine hot ionized gas, or plasma. If the imperfections persist, they let the energy stored in the confined plasma leak out; if allowed to grow, they can lead to sudden termination of the plasma discharge. Recent simulations of tokamak discharges with fast, energetic ions have shown that the structure of the magnetic field can either stabilize or destabilize these magnetic imperfections, or “tearing” instabilities. The result depends on the helical structure of the field as it winds around the tokamak.

Energetic ions, ubiquitous in plasmas, can be a strong stabilizing or destabilizing force. The choice depends on the magnetic shear in the . Understanding the physics driving the onset of the instabilities can lead to their avoidance, a “zero tolerance” approach, vital for ITER’s stable operation. ITER is a key step between today’s fusion research and tomorrow’s fusion power plants. Also, the results explain many experimental observations of tearing instabilities that limit the maximum heat energy that can be contained.

Advanced tokamaks achieve high-thermal-energy plasmas by injecting beams of hot ions that collide with, and thereby heat, the background plasma. Burning plasma experiments that create energy from fusion reactions, such as ITER, will also have a significant population of hot alpha particles, the byproduct of fusion. The effects that have on the benign instabilities, such as the sawtooth instability, which causes the temperature near the plasma core to flatten, and the toroidal Alfvén eigenmode, which intuitively is a “vibration” (wobble) of the lines, have been known for some time.

Continue reading “Eliminating small instabilities in tokamaks before they become disruptions” »

May 1, 2018

Russia Has Launched a Floating Nuclear Power Plant Critics Are Calling “Nuclear Titanic”

Posted by in category: nuclear energy

What could go wrong?


If the world is going to end, why not have it be for a ridiculous, insane reason?

Like, say, building nuclear power plants on top of a barge and sending it floating up to the Arctic?

Continue reading “Russia Has Launched a Floating Nuclear Power Plant Critics Are Calling ‘Nuclear Titanic’” »

Apr 30, 2018

Seaborg Technologies secure funding for thorium-based molten salt reactors

Posted by in categories: innovation, nuclear energy

A Danish company is aiming to build smaller, safe nuclear reactors based on thorium and molten salt, after securing funding in its first pre-seed investment round.

Copenhagen-based Seaborg Technologies, which is developing thorium-based Molten Salt Reactors (MSRs), has received funding from an investment coalition led by Danish innovation incubator PreSeed Ventures.

The company hopes the funding will accelerate development of its CUBE (Compact Used fuel BurnEr) reactor concept.

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Apr 26, 2018

Balancing nuclear and renewable energy

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

Nuclear power plants typically run either at full capacity or not at all. Yet the plants have the technical ability to adjust to the changing demand for power and thus better accommodate sources of renewable energy such as wind or solar power.

Researchers from the U.S. Department of Energy’s (DOE) Argonne National Laboratory and the Massachusetts Institute of Technology recently explored the benefits of doing just that. If nuclear generated in a more flexible manner, the researchers say, the plants could lower electricity costs for consumers, enable the use of more , improve the economics of nuclear and help reduce greenhouse gas emissions.

The team explored technical constraints on flexible operations at and introduced a new way to model how those challenges affect how power systems operate. “Flexible nuclear power operations are a ‘win-win-win,’ lowering power system operating costs, increasing revenues for nuclear plant owners and significantly reducing curtailment of renewable energy,” wrote the team in an Applied Energy article published online on April 24.

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Apr 13, 2018

What is relativity? Einstein’s mind-bending theory explained

Posted by in categories: information science, nuclear energy

Albert Einstein is famous for his theory of relativity, and GPS navigation and nuclear energy would be impossible without the equation e=mc2.

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Apr 7, 2018

How AI and Machine Learning Are Redefining Cybersecurity

Posted by in categories: business, cybercrime/malcode, mobile phones, nuclear energy, robotics/AI, transportation

We are now a connected global community where many digital natives cannot remember a time before the iPhone. The rise of smart homes means that we are increasingly attaching our lighting, door locks, cameras, thermostats, and even toasters to our home networks. Managing our home automation through mobile apps or our voice illustrates how far we have evolved over the last few years.

However, in our quest for the cool and convenient, many have not stopped to consider their cybersecurity responsibilities. The device with the weakest security could allow hackers to exploit vulnerabilities on our network and access our home. But this is just the tip of the proverbial iceberg.

Businesses and even governments are starting to face up to the vulnerabilities of everything being online. Sophisticated and disruptive cyberattacks are continuing to increase in complexity and scale across multiple industries. Areas of our critical infrastructure such as energy, nuclear, water, aviation, and critical manufacturing have vulnerabilities that make them a target for cybercriminals and even a state-sponsored attack.

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Apr 1, 2018

Lockheed Martin Receives Patent For ‘World Changing’ Fusion Reactor

Posted by in categories: nuclear energy, transportation

CBS Local — Lockheed Martin has reportedly been working on a revolutionary new type of reactor that can power anything from cities to aircraft carriers.

The Maryland-based defense contractor recently received a patent for the compact fusion reactor (CFR) after filing plans for the device in 2014. According to reports, one generator would be as small as a shipping container but produce the energy to power 80,000 homes or one of the U.S. Navy’s Nimitz-class carriers.

Lockheed’s advanced projects division, Skunk Works, has reportedly been working on the futuristic power source since 2014 and claimed at the time that a CFR could be ready for production by 2019.

Continue reading “Lockheed Martin Receives Patent For ‘World Changing’ Fusion Reactor” »

Mar 29, 2018

Research enhances performance of Germany’s new fusion device

Posted by in categories: nuclear energy, physics

A team of U.S. and German scientists has used a system of large magnetic “trim” coils designed and delivered by the U.S. Department of Energy’s (DOE) Princeton Plasma Physics Laboratory (PPPL) to achieve high performance in the latest round of experiments on the Wendelstein 7-X (W7-X) stellarator. The German machine, the world’s largest and most advanced stellarator, is being used to explore the scientific basis for fusion energy and test the suitability of the stellarator design for future fusion power plants. Such plants would use fusion reactions such as those that power the sun to create an unlimited energy source on Earth.

The new experiments amply demonstrated the ability of the five copper trim coils and their sophisticated control system, whose operation is led on-site by PPPL physicist Samuel Lazerson, to improve the overall performance of the W7-X. “What’s exciting about this is that the trim coils and Sam’s leadership are producing scientific understanding that will help to optimize future stellarators,” said PPPL physicist Hutch Neilson, who oversees the laboratory’s collaboration on the W7-X with the Max Planck Institute of Plasma Physics, which built the machine and now hosts the international team investigating the behavior of plasmas confined in its unique magnetic configuration.

Stellarators are twisty, doughnut-shaped facilities whose configuration contrasts with the smoothly doughnut-shaped facilities called tokamaks that are more widely used. A major advantage of stellarators is their ability to operate continuously with low input power to sustain the plasma without plasma disruptions—a risk that tokamaks face—enabling the facilities to operate efficiently in steady state. A disadvantage is that the twisting geometry is more complex to design and build.

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Mar 27, 2018

Lockheed Martin Now Has a Patent For Its Potentially World Changing Fusion Reactor

Posted by in category: nuclear energy

When it first announced the project, the company said it could have a working prototype of the revolutionary power source as early as 2019.

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