Nuclear Energy is the energy in the nucleus of an atom that comes from splitting atoms of radioactive materials, such as uranium, and which produces radioactive wastes. The Nuclear Energy can be used to produce electricity during nuclear fission or fusion.
Related Definitons in the Project: The Nuclear Fusion Energy; Energy Definitions
Example Article of Nuclear Energy:
The Energy Crisis Is Fueling A Nuclear Energy Renaissance (Source: Oil Price on 24 January 2023): By Haley Zaremba - Is this the dawn of a new nuclear era? Across the world, there are rumblings of a new push for nuclear as a solution to decarbonizing global energy production, even from environmentalist groups, representing a stark turnaround for many. Even the most anti-nuclear countries, such as Germany and Japan, have been extending the lives of their existing nuclear plants, flying in the face of their previous pledges to phase out the divisive technology altogether. While nuclear power never died in some key economies, such as China and Russia, more influential world leaders in the West are now getting on board, signaling a potential sea change for the nuclear power industry. ...
The Global Energy Crisis Is Contributing To A Nuclear Renaissance (Source: Oil Price on 17 October 2022): By ZeroHedge - Nuclear continues to be on an upswing globally. Most recently, we learned that Japan is now considering extending its 60 year limit on the operation of plants and is even considering submitting legislation on the issue as soon as next year, according to U.S. News and Nikkei. The rules could allow "repeated extensions", should they be approved by the country's Nuclear Regulation Authority. Currently, regulations put in place in reaction to the Fukushima disaster say that reactors "can be operated for 40 years, followed by a 20-year extension if approved by regulators". As of now, four of the country's 33 reactors have been approved for up to 60 years. ...
Are The Risks Of Nuclear Energy Overblown? By Haley Zaremba (Source: Oil Price on 22 May 2021)- Nuclear energy is all about control. The process by which we generate nuclear power, after all, is not so different from the mechanics that take place to trigger an atomic bomb. It’s all about the way in which the process of nuclear fission is tightly controlled, scheduled, and slowed, which makes nuclear energy production possible and safe. The amount of force that holds the nucleus of an atom together is monumental, and stores a massive amount of energy. When we split atoms into smaller atoms, or “fission fragments”, this energy is released, and in the case of nuclear energy, harvested. But every time an atom is split, it begins a chain reaction triggering more and more atoms to split. So why doesn’t every nuclear fission process turn into a nuclear explosion? Because scientists have gotten very, very good at controlling and slowing down the chain reaction process. Now, a fairly average-sized (1,000 megawatts) nuclear energy plant produces as much energy in a single day as was released by the atomic bomb that detonated over Nagasaki, a 21 kiloton weapon that leveled 90% of the city. And now, in this day and age, neither a 1,000mw nuclear plant nor a 20kt nuclear weapon are particularly big. ...
