Nuclear Issues

48 Items

Tomas Roggero via Flickr

Tomas Roggero via Flickr

Report Chapter - Women’s International League for Peace and Freedom

Assuring Destruction Forever: 2022 Edition

| January 2022

Under the guidance of its self-defence nuclear strategy, China will continue to modernise its nuclear force in order to maintain a reliable second-strike retaliatory capability. China’s nuclear weapon modernisation has been responsive to the advances of military capabilities of other countries, particularly the US. As Hu Side emphasised, “The sole purpose for China to maintain a limited nuclear counterattack force is to deter a potential nuclear strike. However, the development of US missile defense and the long-rang strike capability with high accuracy to target mobile missiles is in practice to decrease the effectiveness of Chinese nuclear deterrence. Thus, it surely leads to Chinese attention."

Demonstration reprocessing and mixed-oxide facilities under construction in Gansu Province, China. Satellite image from August 29, 2019.

Maxar Technologies/Google Earth

Report Chapter - Nonproliferation Policy Education Center

China’s Uranium Enrichment and Plutonium Recycling 2020-2040: Current Practices and Projected Capacities

| March 2021

Since 2010, China has significantly expanded its indigenous enrichment capacity to meet the expected rapid increase of enrichment requirements. Meanwhile, China has expanded its plutonium reprocessing and recycling capabilities for “saving uranium.” The purpose of this report is to provide a better understanding of the development of China’s uranium enrichment and plutonium recycling programs.

teaser image

Paper - Nonproliferation Policy Education Center

China’s Uranium Enrichment and Plutonium Recycling 2020-2040: Current Practices and Projected Capacities

| July 16, 2020

Since 2010, China has significantly expanded its indigenous enrichment capacity to meet the expected rapid increase of enrichment requirements. Meanwhile, China has expanded its plutonium reprocessing and recycling capabilities for “saving uranium.” The purpose of this report is to provide a better understanding of the development of China’s uranium enrichment and plutonium recycling programs.

teaser image

Paper - Institute for Nuclear Materials Management

Assessing China's Plutonium Separation and Recycling Programs

| July 2020

China pursues actively its closed fuel-cycle policy. In 2010, it began testing a pilot civilian reprocessing plant (50 tHM/year). In 2015, China began construction of the demonstration reprocessing plant (200 tHM/year). China has also been negotiating with France over the purchase of a commercial reprocessing plant with a capacity of 800 tHM/year. China’s Experimental Fast Reactor (20 MWe) started operation in 2010. Construction of the CFR-600 demonstration fast reactor began in 2017. This work will assess those plutonium separation and recycling programs. Further, it will estimate their cumulative plutonium production and discuss the potential uses of separated plutonium in China’s fast reactors over next two decades.

teaser image

Paper - Institute of Nuclear Materials Management

The Development Status of China's Uranium Enrichment

| July 2020

China leads the world in term of nuclear power development pace and new reactor construction. To meet the expected rapid increase of enrichment requirements, since 2010 the China National Nuclear Corporation (CNNC) has expanded significantly its indigenous centrifuge enrichment capacity. However, China does not officially release information on its enrichment capacity. Based on satellite imagery, Chinese publications, and discussions with Chinese experts, this work will examine the current status of China's uranium-enrichment development and offer significant new estimates of the capacity of China's operating enrichment facilities.

A satellite view of Shigatse, Tibet, home to the PLA’s 6th Border Defense Regiment, near the China-India border.

Maxar Technologies / CNES Airbus via Google, used with permission

Report - Managing the Atom Project, Belfer Center

The Strategic Postures of China and India: A Visual Guide

| March 2020

Fueled by aggressive rhetoric from both capitals, Indian and Chinese ground forces engaged in a standoff between June and August 2017. The Doklam crisis, as it became known, stimulated introspection among officials and experts in both states about the future of their relationship. Politically, both strategic communities largely concluded that the peaceful resolution of border disputes is now less likely, forecasting more rivalry than cooperation. Militarily, Indian discussions on the strength of its military position against China in their disputed ground frontier areas have converged on the view that China holds the conventional and nuclear edge over India in this domain.

Based on our analysis of data on the location and capabilities of Indian and Chinese strategic forces and related military units, we conclude that this assessment of the balance of forces may be mistaken and a poor guide for Indian security and procurement policies. We recommend that instead of investing in new nuclear weapons platforms that our analysis suggests are not likely to be required to deter China, New Delhi should improve the survivability of its existing forces and fill the gap in global arms control leadership with an initiative on restraint and transparency.

A member of the Czech Army takes part in an anti-terrorism drill at the Temelin nuclear power plant near the town of Tyn nad Vltavou, Czech Republic, April 11, 2017.

REUTERS/David W. Cerny

Report - Belfer Center for Science and International Affairs, Harvard Kennedy School

Revitalizing Nuclear Security in an Era of Uncertainty

| January 2019

Nuclear security around the world has improved dramatically over the last three decades—which demonstrates that with focused leadership, major progress is possible. But important weaknesses remain, and the evolution of the threat remains unpredictable. The danger that terrorists could get and use a nuclear bomb, or sabotage a major nuclear facility, or spread dangerous radioactive material in a “dirty bomb,” remains too high. The United States and countries around the world need to join together and provide the leadership and resources needed to put global nuclear security on a sustained path of continuous improvement, in the never-ending search for excellence in performance.

teaser image

Paper - Institute of Nuclear Materials Management

On China's Closed Fuel Cycle Strategies

| July 2018

As it expands its fleet of nuclear power plants, China faces an important decision: whether to make large capital investments in facilities to reprocess spent nuclear fuel and recycle the resulting plutonium in fast neutron reactors, or continue to store nuclear fuel, leaving for the future decisions on whether to reprocess the fuel or dispose of it as waste. In reaching a decision, policymakers should consider financial costs, the available fuel supply, nuclear security and proliferation risks, health and environmental dangers, and spent fuel management issues. This paper will first discuss the status of China’s breeder reactors and civilian reprocessing programs. It will then examine the costs and fuel supply issues associated with reprocessing.

Paper - Carnegie-Tsinghua Center for Global Policy

Stabilizing Sino-Indian Security Relations: Managing the Strategic Rivalry After Doklam

| June 21, 2018

The paper provides a detailed analysis of the contemporary Sino-Indian conventional ground and nuclear force balances and carefully reconstructs how mutual developments in these areas are perceived by both New Delhi and Beijing.

Report - International Panel on Fissile Materials

China’s Fissile Material Production and Stockpile

| January 2018

China began producing highly enriched uranium (HEU) and plutonium for nuclear weapons in the 1960s and is believed to have halted production the 1980s. Despite the passage of thirty years there has been no official policy declaration in this regard. This report uses newly available public information from Chinese sources to provide an improved reconstruction of the history of China’s production of HEU and plutonium for nuclear weapons. This allows improved estimates of the amount of HEU and plutonium China has produced and of its current stockpiles.