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Archive for the ‘nuclear energy’ category: Page 91

Apr 16, 2019

Physicists spot the signatures of nuclear fusion in a table-top device

Posted by in categories: nuclear energy, physics

Stable plasma conditions are generated in a Z-pinch device for the first time, offering a new route more compact fusion reactors.

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Apr 15, 2019

Removing Fuel Rods, Japan Hits Milestone in Fukushima Nuclear Cleanup

Posted by in categories: nuclear energy, robotics/AI

The operator of Japan’s ruined Fukushima nuclear power plant began removing radioactive fuel rods on Monday at one of three reactors that melted down after an earthquake and a tsunami in 2011, a major milestone in the long-delayed cleanup effort.

Thousands of former residents have been barred from the area around the plant for years as crews carried out a large-scale radioactive waste cleanup in the aftermath of the worst nuclear disaster since Chernobyl. The process of removing the fuel rods from a storage pool had been delayed since 2014 amid technical mishaps and high radiation levels.

The plant operator, Tokyo Electric Power, said in a statement that workers on Monday morning began removing the first of 566 spent and unspent fuel rods stored in a pool at the plant’s third reactor. A radiation-hardened robot had first located the melted uranium fuel inside the reactor in 2017.

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Apr 12, 2019

China: New “Artificial Sun” Will Be Completed This Year

Posted by in category: nuclear energy

The ions at its core will be seven times hotter than those of the real Sun.

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Apr 11, 2019

Nuclear fusion breakthrough breathes life into the overlooked Z-pinch approach

Posted by in categories: innovation, nuclear energy

Nuclear fusion holds untold potential as a source of power, but to recreate the colliding atomic nuclei taking place inside the Sun and generate inexhaustible amounts of clean energy scientists will need to achieve remarkable things. Tokamak reactors and fusion stellarators are a couple of the experimental devices used in pursuit of these lofty goals, but scientists at the University of Washington (UW) are taking a far less-frequented route known as a Z-pinch, with the early signs pointing to a cheaper and more efficient path forward.

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Apr 8, 2019

What is a Nuclear Microreactor?

Posted by in category: nuclear energy

Learn about the BIG potential of microreactors.

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Apr 5, 2019

Getting a big look at tiny particles

Posted by in categories: biotech/medical, nuclear energy, quantum physics, supercomputing

At the turn of the 20th century, scientists discovered that atoms were composed of smaller particles. They found that inside each atom, negatively charged electrons orbit a nucleus made of positively charged protons and neutral particles called neutrons. This discovery led to research into atomic nuclei and subatomic particles.

An understanding of these ’ structures provides crucial insights about the forces that hold matter together and enables researchers to apply this knowledge to other scientific problems. Although electrons have been relatively straightforward to study, protons and neutrons have proved more challenging. Protons are used in medical treatments, scattering experiments, and fusion energy, but nuclear scientists have struggled to precisely measure their underlying structure—until now.

In a recent paper, a team led by Constantia Alexandrou at the University of Cyprus modeled the location of one of the subatomic particles inside a , using only the basic theory of the strong interactions that hold matter together rather than assuming these particles would act as they had in experiments. The researchers employed the 27-petaflop Cray XK7 Titan supercomputer at the Oak Ridge Leadership Computing Facility (OLCF) and a method called lattice quantum chromodynamics (QCD). The combination allowed them to map on a grid and calculate interactions with high accuracy and precision.

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Apr 4, 2019

Synopsis: Igniting Fusion in the Lab

Posted by in categories: futurism, nuclear energy

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.

Future nuclear fusion reactors promise the possibility of supplying Earth with an unlimited source of clean energy. Attempts to create these reactors typically involve building-sized contraptions to generate the hot plasma needed to initiate fusion reactions. Now Yue Zhang at the University of Washington in Seattle and colleagues have successfully ignited sustained fusion using a setup that is small enough to sit on a table.

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Apr 2, 2019

Nobel Prize Winner: Lasers Could Permanently Destroy Nuclear Waste

Posted by in category: nuclear energy

Nuclear power can provide inexpensive electricity with little in the way of emissions, but there’s a catch: it produces horrifying radioactive waste that can remain deadly for thousands of years.

Enter Gerard Mourou, the Nobel Prize-winning subject of a fascinating new Bloomberg profile. He says that high-intensity lasers could one day render nuclear waste harmless in just a few minutes — a concept which, if realized, could make nuclear power a vastly more appealing energy option.

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Mar 27, 2019

Making a Desktop Fusion Reactor

Posted by in category: nuclear energy

So this was a fun project to try, fusion is the gold standard of energy and I wanted to try making a reactor of my very own.

The design is loosely based on a Farnsworth Fusor — powered off a 10KV transformer, stepped up to 70KV with a voltage multiplier.

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Mar 21, 2019

China Is Building up to 20 Floating Nuclear Power Plants

Posted by in category: nuclear energy

It sounds pretty perilous, but a prototype is already being developed.

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