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."

A presentation by Hui Zhang, Senior Research Associate with the Project on Managing the Atom, to the Online International Symposium "Growing Plutonium Stockpiles and the Rokkasho Reprocessing Plant—Reality of Nuclear Fuel Cycle and Security in East Asia."

On December 6, 2021, Managing the Atom Senior Research Associate Hui Zhang presented to a virtual meeting of the National Academies of Sciences, Engineering, and Medicine Committee on Merits and Viability of Different Nuclear Fuel Cycles and Technology Options and the Waste Aspects of Advanced Nuclear Reactors. 

Recently published documents, news reports, and other sources of open source information indicate that China is accelerating its current nuclear force modernization programme. It is clear that it is driven largely in response to the growing United States (U.S.) missile defense program, which China perceives as a threat to its minimum credible deterrence. While China is not altering its nuclear doctrine, it believes that it needs to enhance the reliability, survivability, and effectiveness of its retaliatory capability in response to a first-strike. In addition to expanding the size of its nuclear arsenal, it is enhancing its delivery capabilities, for example, by increasing the number of ICBMs and making them more sophisticated. It is building more Multiple Independently Targetable Reentry Vehicle (MIRV) warheads as well as a new class of ballistic missile submarines. China’s ongoing nuclear modernization aims to increase the survivability, reliability, safety, and penetration capability of its small nuclear arsenal and thereby assures a limited, reliable, and effective counterattack capability that will deter a nuclear first-strike. China’s nuclear modernization program will likely continue to be guided by its nuclear policy, which is characterized by a no-first-use pledge and a commitment to “minimum nuclear deterrence.” Finally, while China supports the total elimination of nuclear weapons, it does not believe it is in China’s interest to participate in discussions about nuclear disarmament until the U.S. and Russia reduce their arsenals to one thousand each, or lower.

Commercial bidding and purchase documents and other accounts suggest China is likely to start construction of a second spent fuel reprocessing plant of the same capacity and at the same site as its first such plant, the CNNC Gansu Nuclear Technology Industrial Park in Jinta, Gansu province.

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.

Since 1983, China has had the objective of developing breeder reactors to run on recycled plutonium. Since 2004, it has been progressing through three stages of its plutonium recycling strategy: from pilot to demonstration to commercial facilities. At the first stage, in 2010, China began testing a pilot civilian reprocessing plant and running a small experimental fast reactor. Although those pilot facilities did not perform well, since 2015 China has moved forward to the second stage, which includes a demonstration reprocessing plant, a mixed-oxide fuel facility, and two demonstration liquid-sodium-cooled fast-neutron reactors. Recent satellite images and other information show construction of those demonstration facilities is actively underway. Meanwhile, the China National Nuclear Corporation is pushing toward the third stage by negotiating with France’s nuclear fuel cycle company Orano (formerly Areva) over the purchase of a large commercial reprocessing plant, and has proposed construction of large commercial fast-neutron reactors by 2028.

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.

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.

Since 2015 China has shown it is quickly modernising its nuclear force through adding more and “better” intercontinental ballistic missiles (ICBMs) and multiple independently targetable re-entry vehicles (MIRVs).Based on Chinese publications and Western governmental and non-governmental estimates, this author estimates that in 2020 China has a total inventory of approximately 360±50 nuclear warheads. This stockpile is likely to grow further over the next decade as additional nuclear capable missiles become operational. In particular, China nuclear force modernization has been driven mainly by expansion in US missile defence programmes as many Chinese believe. China’s arsenal may be somewhat larger than France’s but is much smaller than the US and Russia.