ANS Explains Safety of MOX Fuel | AREVA North America: Next Energy Blog


As part of the conversation on the ongoing situation in Japan, there have been some questions about MOX (Mixed Oxied) fuel. A brief released yesterday from the American Nuclear Society (ANS) specifically concludes that:

“Mixed Oxide (MOX) fuel has been used safely in nuclear power reactors for decades, and the presence of a limited number of MOX fuel assemblies at Fukushima Daiichi Unit 3 has not had a significant impact on the ability to cool the reactor or on any radioactive releases from the site due to damage from the earthquake and tsunami.”

A clear explanation of the situation can be found below in the summary of the brief prepared by the ANS Special Committee on Nuclear Nonproliferation below:

At the time of the magnitude 9.0 earthquake, Fukushima Daiichi Unit 3 was operating with 32 mixed oxide (MOX) fuel assemblies and 516 low enriched uranium (LEU) fuel assemblies in its reactor core. In other words, less than 6% of the fuel in the Unit 3 core was MOX fuel. There were no other MOX fuel assemblies (new, in operation or used) at the Fukushima Daiichi plant at the time of the accident.

MOX fuel assemblies were loaded into Fukushima Daiichi Unit 3 for the first time in the fall of 2010. The MOX fuel had been used for less than five months at the time of the accident. Differences in initial fuel composition between MOX and LEU fuel can lead to differences in consequences (prompt fatalities and latent cancers) following a core damage event with releases to the environment.

There are indications that Fukushima Daiichi Unit 3 suffered damage to some of its core. The core damage resulted from a loss of core cooling due to damage to plant systems from the tsunami that followed the earthquake. The damage was not related to the presence of MOX fuel.

There have been no prompt fatalities as a result of radiation exposure from Fukushima Daiichi. Prompt evacuation has minimized radiation exposure to the public, so long-term public health consequences from radiation exposure are expected to be small. Given the small number of MOX fuel assemblies at Fukushima Daiichi Unit 3 at the time of the event, coupled with the short time of irradiation of the MOX fuel, it can be concluded that MOX fuel has had and will have no perceptible impact on any consequences from the event.

Continue reading the rest of the document here for even further background information.

TAGS: ANS, Mixed Oxide Fuel, MOX Fuel

Posted in: News, Uncategorized, Used Fuel | No Comments»

Share post:



More like this