Algorithms and methods for optimizing a used nuclear fuel allocation strategy

G. M. Petersen, S. E. Skutnik, R. A. Joseph

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

1 Scopus citations

Abstract

A key challenge fulfilling the United States federal government's obligations under the Nuclear Waste Policy Act is in the transition of used nuclear fuel (UNF) storage away from at-reactor storage and to a consolidated interim storage facility (ISF). The default strategy (Standard Contract) for the Department of Energy is to use the Oldest Fuel First (OFF) allocation strategy, which would entail the federal government prioritizing UNF shipments based on fuel discharge date with the option to prioritize shutdown sites. This may not be the most cost-efficient model given the extensive amount of UNF already at reactor sites. Currently there is no way to preemptively remove fuel from sites that may be close to shutdown or have a higher storage or potential storage cost. As wet storage pools at reactors continue to fill to capacity at operating reactors, the backlog of UNF shipments to the ISF places additional pressure on operators to expand atreactor dry storage capacity, thus adding to total system costs. An essential aspect to this transition to a centrallymanaged ISF for domestic UNF is in developing appropriate analytical tools to evaluate the effect of factors such as fuel shipment prioritization, logistics, and associated expense. Examples of this analysis would include evaluating fuel offloading prioritization strategies (OFF vs. shutdown sites first), strategies to minimize transfer of UNF to dry storage (i.e., through direct shipment from cooling pools to the ISF), etc. While the solution space for the scheduling problem is intractably large to admit direct analytical evaluation of optimal solutions, by applying well-established optimization algorithms, it is possible to make a rigorous analytical determination of a UNF removal allocation strategy that minimizes the number of shutdown reactor years. Our findings indicate that the current OFF allocation strategy ranks in the bottom 3% of all possible queuing strategies in terms of total system shutdown reactor years.

Original languageEnglish
Title of host publicationANS IHLRWM 2017 - 16th International High-Level Radioactive Waste Management Conference
Subtitle of host publicationCreating a Safe and Secure Energy Future for Generations to Come - Driving Toward Long-Term Storage and Disposal
PublisherAmerican Nuclear Society
Pages889-898
Number of pages10
ISBN (Electronic)9780894487422
StatePublished - 2017
Externally publishedYes
Event16th International High-Level Radioactive Waste Management Conference: Creating a Safe and Secure Energy Future for Generations to Come - Driving Toward Long-Term Storage and Disposal, IHLRWM 2017 - Charlotte, United States
Duration: Apr 9 2017Apr 13 2017

Publication series

NameANS IHLRWM 2017 - 16th International High-Level Radioactive Waste Management Conference: Creating a Safe and Secure Energy Future for Generations to Come - Driving Toward Long-Term Storage and Disposal

Conference

Conference16th International High-Level Radioactive Waste Management Conference: Creating a Safe and Secure Energy Future for Generations to Come - Driving Toward Long-Term Storage and Disposal, IHLRWM 2017
Country/TerritoryUnited States
CityCharlotte
Period04/9/1704/13/17

Funding

The Nuclear Waste Policy Act (NWPA) of 1982 specified that DOE would begin to take possession of UNF from private utility companies beginning no later than January 31, 1998 [1]. The NWPA established the Nuclear Waste Fund, funded by a tax on nuclear-generated electricity paid by utilities to fund future disposal of UNF. Consequently, the Office of Standard Contract Management was created to be responsible for interactions relating to the litigation and settlements under the Standard Contacts with the nuclear industry and the management of Nuclear Waste Fund activities [2]. By mid-2013 the utilities had contributed over $28B to the fund (including accrued interest), but there is still no solution to storing UNF away from reactor sites [3].

FundersFunder number
University of North Florida

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