Energy

284 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?

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).

A sign in Middletown, Pennsylvania

Wikimedia CC/Z22

Journal Article - Energy Research & Social Science

Public Opinion on Nuclear Energy and Nuclear Weapons: The Attitudinal Nexus in the United States

| October 2020

Does a lack of enthusiasm for nuclear energy among the U.S. public relate to connections with nuclear weapons? A critical area of public opinion remains understudied: the connection between nuclear energy and nuclear weapons. Scholars have theorized such a relationship in the public consciousness, but the premise has not been systematically investigated. The authors use two studies which provide evidence of psychological linkage. In fact, attitudes toward nuclear weapons may even drive those on nuclear energy.

The Chernobyl nuclear power plant sarcophagus (Petr Pavlicek/IAEA via Wikimedia).

Petr Pavlicek/IAEA via Wikimedia

Analysis & Opinions - The Washington Post

Chernobyl’s Effects Go Far Beyond What You’re Seeing on HBO. It Shook Up Geopolitics for Years.

| July 15, 2019

Chernobyl’s effects went well beyond radiation, rippling through the social and political fabric of a deteriorating society. Chernobyl helped to bring down the Soviet Union and constrained independent Ukraine’s nuclear options. It still reverberates today on the front lines of the war in eastern Ukraine and in Moscow’s denials that it is involved in undermining Ukraine’s territorial integrity.

Monument for victims of Chernobyl in front of covef

AP Photo/Efrem Lukatsky

Analysis & Opinions - Belfer Center for Science and International Affairs, Harvard Kennedy School

Thirty-three Years Since the Catastrophe at Chernobyl: A Universal Lesson for the Global Nuclear Power Industry

| Apr. 25, 2019

The world will soberly commemorate the 33rd anniversary of the Chernobyl nuclear power plant catastrophic accident on Friday, April 26, 2019.  Some may wonder why bother with a gone-by historical event that happened in a distant land — a country that no longer exists — the former Soviet Union (now Ukraine).  On the contrary, Chernobyl and its legacy, with its specters of lingering human toll, radiation contamination, and the massive new shelter ("New Safe Confinement") installed over the old sarcophagus encasing the reactor, will be with us for a long time.

Three Mile Island nuclear power plant

cdc.gov/phil

Analysis & Opinions - Belfer Center for Science and International Affairs, Harvard Kennedy School

How to Deal with Increasingly Complex Safety-Critical Technologies

| Mar. 28, 2019

The authors analyze the 1979 Three Mile Island nuclear accident and the recent back-to-back crashes of two Boeing 737 Max jets and make policy recommendations for the regulation of increasingly complex technologies.

The Kudankulam Nuclear Power Plant in India, built in collaboration with Atomstroyexport, a subsidiary of Rosatom (Flickr/India Water Portal).

Flickr/India Water Portal

Journal Article - Sustainability

Nonproliferation and Security Implications of the Evolving Civil Nuclear Export Market

| Mar. 27, 2019

In recent decades, the nuclear export market has observed a marked shift of demand from traditional customers in the Western world to Asia. The lack of projects in the United States, the delay in the French construction of advanced reactors, and the Fukushima accident in Japan have also led to the declining export capabilities of their companies. In contrast, Russia has gained numerous contracts, and China will likely become another major exporter. In this paper, the evolution of the market was examined from both the supply and demand sides with issues including the more concentrated and uncertain market, the lack of full participation by emerging suppliers to the nonproliferation regime, and the lesser governance capabilities of the newcomers. Addressing these issues, a range of policy suggestions was made, including the reinforcement of market shares of Western suppliers, the encouragement of newcomers to adhere to international norms, and a better safeguards contribution scheme.

Book Chapter - Routledge

Nuclear Disarmament, Nuclear Energy, and Climate Change

| March 2019

Preventing nuclear war and avoiding catastrophic climate change are two of the most basic challenges facing human civilization in the twenty-first century. While these are separate issues, these challenges are linked in several ways, and both may be affected by the future of nuclear energy. For nuclear energy to provide any substantial part of the low-carbon energy needed in the second half of the twenty-first century would require dramatic growth. This chapter provides an overview of the constraints and risks of nuclear energy growth on that scale, and the necessary steps to address them. In particular, use of nuclear energy at that scale would place unprecedented demands on global systems for verification, control, and security for weapons-usable nuclear materials. Deep reductions in nuclear arms and their eventual prohibition will also require new approaches to managing the vast global stocks of weapons-usable nuclear materials. Politically, nuclear energy may not be able to grow on the scale required unless governments and publics are confident that it will not contribute to the spread of nuclear weapons, creating another link between climate mitigation and nuclear nonproliferation and disarmament.

South Korean President Moon Jae-in.

Republic of Korea via Flickr

Journal Article - Georgetown Journal of Asian Affairs

An Analysis of Moon Jae-in's Nuclear Phase-out Policy

| Winter 2019

Although South Korea adopted nuclear energy later than countries like the United States, Russia, or France, the country, until recently, has been considered to have one of the most successful civil nuclear power programs in the world, with a fully-devel- oped supply chain, a remarkable record in constructing and operating nuclear power plants (NPPs), and the ability to compete and win contracts to supply NPPs abroad. The fortune of South Korea’s nuclear program has seemingly come to an end, however, with the election of Moon Jae-in. The new South Korean President promised to reduce the country’s dependence on nuclear energy, and has, since taking office, implemented measures to phase out this type of electricity generation.

In this paper, following a brief history of the development of nuclear energy in South Korea, the root causes that instilled public distrust of nuclear energy and Moon Jae-in’s phase-out policy are discussed. Subsequently, by analyzing the validity of Moon’s plan, I argue that this phase-out policy is not beneficial for the long-term sustainability of South Korea’s economy in general, and of the Korean nuclear industry in particular. The paper concludes with policy recommendations for a more balanced nuclear policy that can accommodate public opinion and, at the same time, ensure energy security and provide other economic and diplomatic benefits.