Proposal of a plutonium burner system based on HTGR with high proliferation resistance

Abstract

An innovative plutonium burner concept based on high temperature gas cooled reactor (HTGR) technology, “Clean Burn”, is proposed by Japan Atomic Energy Agency (JAEA). That is expected to be as an effective and safe method to consume surplus plutonium accumulated in Japan. A similar concept proposed by General Atomics (GA), Deep Burn, cannot be introduced to Japan because of its adopting highly enriched plutonium, which shall infringe on a Japanese nuclear nonproliferation policy according to Japan–US reprocessing negotiation. The Clean Burn concept can avoid this problem by employing an inert matrix fuel (IMF) and a tightly coupled fuel reprocessing and fabrication plants. Both features make it impossible to extract plutonium alone out of the fabrication process and its outcomes. As a result, the Clean Burn can use surplus plutonium as a fuel without mixing it with uranium matrix. Thus, surplus plutonium alone will be incinerated effectively, while generation of plutonium from the uranium matrix is avoided. High neutronic performance, i.e., achievement of burn-up of about 500 GWd/t and consumption ratio of plutonium-239 reaching to about 95%, is also assessed. Furthermore, reactivity defect caused by the inert matrix is found to be negligible. It is concluded that the Clean Burn concept is a useful option to incinerate plutonium with high proliferation resistance.

Keywords:

• Clean Burn
• plutonium burner reactor
• Deep Burn
• inert matrix fuel
• IMF
• proliferation resistance

Acknowledgements

The authors wish to thank Dr M. Ogawa, Dr R. Hino, Dr X. Yan, Dr S. Nakagawa, Dr J. Sumita, Dr S. Ueta, Dr J. Aihara, Dr H. Sato, Dr H. Akie of JAEA, and Prof. T. Iwamura of University of Fukui for their cooperation in the Clean Burn concept.