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Archive for the ‘nuclear energy’ category: Page 114

Sep 21, 2018

NASA targets next-gen nuclear reactors for spacecraft, space colonies

Posted by in categories: nuclear energy, space travel

A new nuclear fission project, called Kilopower, could fuel the future of spaceflight, manifesting a dream that’s been around since the beginning of the Space Age.

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Sep 21, 2018

Build Small Nuclear Reactors for Battlefield Power

Posted by in categories: nuclear energy, physics

Los Alamos engineers are working on a tiny, steel-encased core regulated by physics, not pumps.

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Sep 1, 2018

Nuclear Thermal Propulsion: Game Changing Technology

Posted by in categories: nuclear energy, space travel

Today’s advances in materials, testing capabilities, and reactor development are providing impetus for NASA to appraise Nuclear Thermal Propulsion (NTP) as an attractive 21st century option to propel human exploration missions to Mars and other deep space destinations.

Utilizing nuclear technology as an ingredient of NASA’s exploration prowess is not new. NTP research is part of the space agency’s storied history. In 1961, NASA and the former Atomic Energy Commission jointly embarked on the Nuclear Engine for Rocket Vehicle Application (NERVA) program – an effort that over several years led to the design, building, and testing of reactors and rocket engines.

Those programmatic high points spurred then-NASA Marshall Space Flight Center director and rocket pioneer, Wernher von Braun, to advocate for a proposed mission, dispatching a dozen crew members to Mars aboard two rockets. Each rocket would be propelled by three NERVA engines. As detailed by von Braun, that expeditionary crew would launch to the Red Planet in November 1981 and land on that distant world in August 1982. In presenting his visionary plan in August 1969 to a Space Task Group, von Braun explained that “although the undertaking of this mission will be a great national challenge, it represents no greater challenge than the commitment made in 1961 to land a man on the moon.”

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Aug 27, 2018

China and Russia looking at 27 floating nuclear reactors but ThorCon and Indonesia could scale to 100 per year

Posted by in categories: economics, nuclear energy

https://youtube.com/watch?v=8uQZYyxMhs0

What could possibly go wrong? Does anyone remember Fukushima?


Floating nuclear power plants offer several economic advantages.

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Aug 27, 2018

Global race for transformative molten salt nuclear includes Bill Gates and China

Posted by in categories: government, nuclear energy

Unlike Nuclear fusion which has never had net generation of power, molten salt nuclear fission power had 2.5 megawatts of net power generation from a US nuclear prototype back in the 1960s. The US government had major work on molten salt nuclear reactors form the 1950s through the 1970s.

There is now a multi-billion race from many US companies and China and Canada and European countries to develop molten salt nuclear power.

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Aug 24, 2018

Pushing the plasma density limit

Posted by in categories: nuclear energy, particle physics

For decades, researchers have been exploring ways to replicate on Earth the physical process of fusion that occurs naturally in the sun and other stars. Confined by its own strong gravitational field, the sun’s burning plasma is a sphere of fusing particles, producing the heat and light that makes life possible on earth. But the path to a creating a commercially viable fusion reactor, which would provide the world with a virtually endless source of clean energy, is filled with challenges.

Researchers have focused on the tokamak, a device that heats and confines turbulent plasma fuel in a donut-shaped chamber long enough to create fusion. Because plasma responds to magnetic fields, the torus is wrapped in magnets, which guide the fusing plasma particles around the toroidal chamber and away from the walls. Tokamaks have been able to sustain these reactions only in short pulses. To be a practical source of energy, they will need to operate in a steady state, around the clock.

Researchers at MIT’s Plasma Science and Fusion Center (PSFC) have now demonstrated how microwaves can be used to overcome barriers to steady-state tokamak operation. In experiments performed on MIT’s Alcator C-Mod tokamak before it ended operation in September 2016, research scientist Seung Gyou Baek and his colleagues studied a method of driving current to heat the plasma called Lower Hybrid Current Drive (LHCD). The technique generates plasma current by launching microwaves into the tokamak, pushing the electrons in one direction—a prerequisite for steady-state operation.

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Aug 14, 2018

This Two Billion Year-Old Natural Reactor May Hold The Key To Safe Nuclear Waste Disposal

Posted by in category: nuclear energy

By studying the particular geological conditions found in a two-billion-year-old ‘natural nuclear reactor’ scientists are hoping to find a safe way to dispose of our modern radioactive waste.

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Aug 4, 2018

Can Nuclear Waste Survive a 14,500 Mile Journey?

Posted by in category: nuclear energy

Researchers put a nuclear fuel container through an epic journey to see how safely it could travel.

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Aug 1, 2018

Will Lockheed Martin Change The World With Its New Fusion Reactor?

Posted by in category: nuclear energy

Lockheed Martin has filed a patent for a revolutionary “Compact Fusion Reactor.” If it succeeds where past fusion reactor plans have failed, the technology portends a paradigm shift for humanity on the scale of steam power and the internal combustion engine.

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Jul 20, 2018

Moltex molten salt reactor being built in New Brunswick Canada

Posted by in categories: finance, nuclear energy

https://youtube.com/watch?v=4iRF6pilm3s

UK-based Moltex Energy will build a demonstration SSR-W (Stable Salt Reactor – Wasteburner) at the Point Lepreau nuclear power plant site in Canada under an agreement signed with the New Brunswick Energy Solutions Corporation and NB Power.

The agreement provides CAD5.0 million (USD3.8 million) of financial support to Moltex for its immediate development activities and Moltex will open its North American headquarters in Saint John and build its development team there. It also calls for Moltex to deploy its first SSR-W at the Point Lepreau nuclear power plant site before 2030.

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