Nuclear Waste Pollution is pollution created by mishandling and inappropriate storage of spent nuclear fuel rods (High level waste), used filters, steel components from within the reactor and some effluents (Intermediate level waste), and pieces of protective clothing and tools (Low level Waste).
Related Definitions in the Project: The Nuclear Fusion Energy
Example Article of Nuclear Waste:
Simulated Star Collision Leads to Breakthrough in Nuclear Waste Treatment (Source: Oil Price on 27 February 2024): By Brian Westenhaus - Newly released University of Tokyo research reveals a method to more accurately measure, predict and model a key part of the process to make nuclear waste more stable. This could lead to improved nuclear waste treatment facilities and also to new theories about how some heavier elements in the universe came to be. Simulation of neutron star collision. Detections of gravitational waves from merging neutron stars tipped off researchers here on Earth that it should be possible to predict how neutrons interact with atomic nuclei. ©2024 NASA’s Goddard Space Flight Center. Click the press release link for the largest view. The reporting paper ‘Neutron capture reaction cross-section of 79Se through the 79Se(d,p) reaction in inverse kinematics.’ has been published in the journal Physics Letters B. ...
Is The Nuclear Waste Problem Overblown? (Source: Oil Price on 26 September 2022): By Robert Rapier - In fact, Finland is currently developing the world’s first permanent disposal site for high-level nuclear waste on an island off Finland’s west coast. The waste will be buried in about 100 tunnels about 1,400 feet underground. The facility is projected to hold all of Finland’s nuclear waste until about the year 2100, and is meant to contain spent fuel rods for 100,000 years. The design relies on multiple barriers designed to prevent water from reaching the waste and carrying it into the water supply. It is expected to begin operating next year. A different approach is recycling nuclear waste to recover fissile and fertile materials for additional power production from nuclear power plants. Reprocessing nuclear waste allows for the recovery of plutonium, which is then mixed with depleted uranium oxide to make fresh fuel. This process reduces the volume of high-level waste (HLW) by about 85%, while extracting up to 30% more energy from the uranium. It also reduces the amount of uranium that has to be mined. ...
The World’s Growing Nuclear Waste Dilemma (Source: Oil Price on 15 October 2020): By Haley Zaremba - Nuclear energy has long been touted as a promising form of energy production for a decarbonizing global economy. Nuclear power is efficient, it’s established, and it has zero carbon emissions. Indeed, some countries, most notably China, have included nuclear energy as a major part of their national plan for decreasing their carbon footprint. For all of nuclear energy’s benefits, however, nuclear energy production also has some serious drawbacks. While nuclear meltdown is extremely rare, its horrific consequences loom large in the public imagination. High-profile tragedies like the disasters at Chernobyl, Fukushima, and Three-Mile Island have made nuclear a tough sell for those of us who, understandably, do not want a nuclear power plant in our backyard. We’ve all seen the Simpsons, and we prefer our fish with just two eyes, thanks. ...
