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UCS Comments on NRC’s Draft Spent Fuel Storage Study

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In late June 2013, the Nuclear Regulatory Commission released a draft of its long-awaited study on spent fuel storage methods.

We thought the NRC’s study would answer the question of whether it is safer to store irradiated fuel in spent fuel pools or in dry storage at nuclear plant sites. This question arose after 9/11 for security reasons and resurfaced after Fukushima for safety reasons. The question is simple:

Are the risks from irradiated fuel better managed (i.e., lower) when it is in spent fuel pools or in dry storage?

The answer to this question of relative safety is important. Due to the federal government’s failure to fulfill its obligation to the American public and plant owners by disposing of irradiated fuel, this material has accumulated at plant sites across the country. At operating nuclear plants, the irradiated fuel fills spent fuel pools until near capacity and then overflows into dry storage. Would accelerating the transfer of irradiated fuel from spent fuel pools to dry storage reduce the security and safety hazards? That is precisely what we expected the NRC’s study to explicitly address.

To be sure, Figure 139 from the NRC’s study spoke to this point, but from such a distance and with such vagueness as to be a non-answer.

Fig. 1: Change of risks posed by spent fuel stored in cooling pools under the current practice and in the the case of expedited transfer of spent fuel from the pool into dry cask storage.

Part of Figure 139 (Fig. 1) addressed the relative risk of storing irradiated fuel in spent fuel pools under the current practice and if transfers to dry storage were expedited. UCS colorized the differences to highlight them. The red region indicates where expedited transfers increase risk. The green regions indicate where expedited transfers reduce risk.

Fig. 2: Change in risks posed by spent fuel stored in dry cask storage under the same two scenarios.

Another part of Figure 139 (Fig. 2) addressed the relative risk of storing irradiated fuel in dry storage under the current practice and if transfers to dry storage were expedited. Once again, UCS colorized the difference to highlight it. The red region indicates where expedited transfers increase risk.

But the NRC’s figure and text did not quantify this conceptual portrayal of the risk impacts from expedited transfers–there are no numbers on the vertical axis. In other words, the NRC’s efforts do not allow one to determine if the net risk reductions (green areas) are larger than the net risk increases (red areas) so that such transfers make the public safer.

All the NRC’s study “reveals” is that reducing the inventory of irradiated fuel in spent fuel pools lowers its risk and accumulating irradiated fuel onsite in dry storage at a faster pace increases that risk. Those facts have been known for decades.

Therefore, the NRC’s study serves little purpose by answering questions that haven’t been asked for decades. And the NRC’s study does a real dis-service by ducking the question that has been asked countless times in recent years.

UCS submitted formal comments on the NRC’s draft spent fuel study critiquing this and other aspects of the study. Unless these comments are really and truly addressed, the NRC’s final study will serve no use unless one has a spot on a bookshelf or a place on a coffee table to fill.

 

Posted in: Nuclear Power Safety Tags: , , ,

About the author: Mr. Lochbaum received a BS in Nuclear Engineering from the University of Tennessee in 1979 and worked as a nuclear engineer in nuclear power plants for 17 years. In 1992, he and a colleague identified a safety problem in a plant where they were working. When their concerns were ignored by the plant manager, the utility, and the Nuclear Regulatory Commission (NRC), they took the issue to Congress. The problem was eventually corrected at the original plant and at plants across the country. Lochbaum joined UCS in 1996 to work on nuclear power safety. He spent a year in 2009-10 working at the NRC Training Center in Tennessee. Areas of expertise: Nuclear power safety, nuclear technology and plant design, regulatory oversight, plant license renewal and decommissioning

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  • Richard Solomon

    Thanks for a brief summary of UCS’s concerns about the NRC’s lack of clarity, etc in its work on dry cask storage. The comments submitted by UCS are complex at best and hard to follow for a person like myself who lacks the technical expertise and experience in nuclear power, etc.

    But it seems clear enough to me that UCS members should take the time to write their Senators and Representative in Congress to encourage them to direct their attention to the NRC’s paper on this important issue. I plan to do so. I hope other UCS members will do likewise.

  • Sean McKinnon

    I see soooooo let’s do everything possible to delay and ultimately de rail the geological repository then complain that the government is not fulfilling its commitment to dispose of the spent fuel! Brilliant strategy!

    We should be reprocessing this valuable resource that still contains 95% of its energy

    • Richard Solomon

      As best as I know, reprocessing is still not viable. It was part of the early promises made about nuclear power being the solution for the future. But I have not read that it has become economically or practically feasible. Didn’t the Japanese try it but gave it up when they had a huge fire at one of their facilities?

      I would appreciate UCS weighing in on this with some expertise which I admittedly lack.