Nuclear Issues

187 Items

Vertical dry cask storage of spent nuclear fuel is depicted here.

Nuclear Regulatory Commission

Book Chapter - Springer Nature

Nuclear Waste

| Aug. 01, 2023

This chapter appears in Handbook of the Anthropocene: Humans between Heritage and Future.

Nuclear waste epitomizes the Anthropocene. Scientific discovery of nuclear fission in the 1930s ushered in the atomic age. The onset of nuclear weapons and nuclear energy production in the 1940s and 1950s then created a uniquely human problem with planetary implications. Today, 33 countries operate 442 nuclear power reactors, and nine countries possess nearly 13,000 nuclear arms. The result is high-level waste that is dangerously radioactive for millennia to come. Yet, there has never been a permanent waste solution in place. Technically feasible long-term nuclear waste storage options exist, but nearly all governments prefer riskier interim plans hidden from public view and debate. This chapter considers the likelihood of societies addressing the contentious environmental and economic politics of deep geological repositories; and it asks, how long will obfuscation of the risks of this unique Anthropocene challenge continue?

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Analysis & Opinions - The Guardian

Fears mount for safety of Ukraine’s nuclear reactors amid Russian invasion

| Feb. 25, 2022

Concerns are mounting about the safety of Ukraine’s 15 nuclear reactors and the possibility of an ecological disaster in the midst of the Russian invasion.

“There are contingencies but I doubt that these power plants have prepared for a full-scale invasion,” said Mariana Budjeryn, a Ukrainian research associate with Harvard University’s project on managing the atom. “In the middle of a large scale conflict, there’s a myriad of things that could happen, for which normal, even very robust, safety procedures at a nuclear power plant [would be insufficient].”

The Grohnde Nuclear Power Plant in Germany.

pxfuel

Journal Article - Issues in Science and Technology

A Viable Nuclear Industry

| Summer 2021

Aditi Verma and Denia Djokić call for rethinking our collective approach to the benefits and risks of nuclear technology—a call that is crucial and timely. As humanity confronts the catastrophic consequences of climate change, questions related to the viability of nuclear energy to achieve a decarbonized world abound. The authors, however, push the boundaries of the current conversation by arguing that what is required to make nuclear energy “viable” for the twenty-first century is much more than just an exercise in technological development.

Doha, Qatar is one of the Persian Gulf cities most at risk from a spent fuel fire at Barakah.

Hossein Ostovar/Wikimedia Commons

Journal Article - Science & Global Security

Risks to Persian Gulf Cities from Spent Fuel Fires at the Barakah and Bushehr Nuclear Power Plants

    Author:
  • Thomas G.A.S. Spence
| Aug. 18, 2021

Interest in nuclear power has grown in some Middle Eastern states despite poor economics, seismic activity, and attacks on nuclear facilities in the region. This article assesses risks from cesium-137 release and dispersal from spent nuclear fuel fires at Barakah in the United Arab Emirates and Bushehr in Iran to public health, the water supply, and the food security of major Persian Gulf cities. Doha, Dammam, Al-Hofuf, and Manama are most at risk of receiving 1.5 MBq/m2 for a spent fuel fire at Barakah, while a spent fuel fire at Bushehr could affect Shiraz, Ahvaz, Basrah, and Kuwait City, albeit at lower probabilities. Absent a decision to end nuclear power in the region, options for reducing the potential risks of spent fuel fires on Persian Gulf populations include the timely transfer of spent fuel from pools into safer dry cask storage, multilateral disaster-response planning, and a commitment not to attack nuclear facilities.

Nuclear operations professionals at Idaho National Laboratory's Advanced Test Reactor routinely refuel the reactor and perform maintenance from the reactor top area.

Idaho National Laboratory via Flickr

Journal Article - Nuclear Technology

The Nuclear, Humanities, and Social Science Nexus: Challenges and Opportunities for Speaking Across the Disciplinary Divides

| Aug. 07, 2021

The central aim of this special issue is to explore how research findings and insights from the humanities and social sciences can be used to shape and meaningfully inform the work of practitioners and policy makers in the nuclear energy sector and its corresponding areas of research and practice—all of which presently, in many ways, simultaneously face several challenges and opportunities and find themselves at a crossroads.

Sequoyah Nuclear Power Plant near Chattanooga, Tennessee.

Photorush/Wikimedia Commons

Journal Article - Nature Energy

Increase in Frequency of Nuclear Power Outages Due to Changing Climate

| July 05, 2021

Climate-related changes have already affected operating conditions for different types of energy system, in particular power plants. With more than three decades of data on changing climate, we are now in a position to empirically assess the impact of climate change on power plant operations. Such empirical assessments can provide an additional measure of the resilience of power plants going forward. Here I analyse climate-linked outages in nuclear power plants over the past three decades. My assessment shows that the average frequency of climate-induced disruptions has dramatically increased from 0.2 outage per reactor-year in the 1990s to 1.5 in the past decade. Based on the projections for adopted climate scenarios, the average annual energy loss of the global nuclear fleet is estimated to range between 0.8% and 1.4% in the mid-term (2046–2065) and 1.4% and 2.4% in the long term (2081–2100).

Jasmine Hatcher's work in Brookhaven's Medical Isotope Research and Production Program focuses on extracting Actinium-225, a rare radioactive element that can be used in cancer radiation therapy.

Brookhaven National Laboratory via Flickr

Analysis & Opinions - Bulletin of the Atomic Scientists

How to Make Sure Neutrons Save Lives Instead of End Them

| May 12, 2021

To ensure that the world has reliable access to the neutrons it needs, at the lowest possible cost, and to facilitate further efforts to minimize and eventually eliminate civilian use of highly enriched uranium, we need an international mechanism to anticipate worldwide neutron needs and plan how to meet them. In essence, the 2016 National Academies’ report recommendation (which sadly remains unfulfilled even in the United States) should be internationalized.