Results of an In-Field Validation Exercise in Support of Wide-Area Environmental Sampling

Year
2024
Author(s)
Robert Jubin - Oak Ridge National Laboratory
Arden Dougan - U.S. Department of Energy, National Nuclear Security Administration
Paula Cable-Dunlap - Oak Ridge National Laboratory
Brian Ticknor - Oak Ridge National Laboratory
Joshua Hewitt - Oak Ridge National Laboratory
Benjamin Manard - Oak Ridge National Laboratory
Wendy Kuhne - Savannah River National Laboratory
Kelly McHugh - Pacific Northwest National Laboratory
Megan Nims - Pacific Northwest National Laboratory
Sean Stave - Pacific Northwest National Laboratory
Nathan Stevens - Idaho National Laboratory
Abstract

The National Nuclear Security Administration’s (NNSA) Office of Nonproliferation and Arms Control (NA-24) is evaluating Wide-Area Environmental Sampling (WAES) as an additional safeguards verification tool for the International Atomic Energy Agency to detect undeclared nuclear activities. The NNSA is evaluating strategies for conducting a generic WAES campaign, the cost of a WAES campaign, and the effect of technological advancements that have occurred since the last major WAES review in 1999. Until now, the NNSA effort has focused on tabletop exercises (TTXs) in which high-performance computing allows for advanced modeling and simulation efforts to be applied to the WAES question. Although the modeling and simulations used in the TTXs are extremely valuable, field campaigns are still needed to validate the assumptions that underpin the models and the modeling process itself.  During a 7-week period beginning in May 2023 and ending in June 2023, which included 4 weeks of active field collections, a multi-laboratory team conducted its first in-field validation exercise. Prior to the in-field exercise, abbreviated TTXs were conducted to estimate the performance of all collection systems to be used during the field test. These TTXs guided the selection of materials to be released and the placement of the collection system. Based on these determinations, materials were procured to use in the field test, and an injection/release system was designed, built, and installed at the test facility. Background samples were collected during weeks one and four, and environmental collections against active releases were conducted during weeks two and three. The goals of this validation exercise included a demonstration of (1) the ability to provide controlled releases of particulates of surrogate materials, (2) the fielding and operation of collection systems (including deposition and active air collectors), and (3) the flexibility to revise equipment and campaign plans in the field. This paper presents the results and preliminary conclusions for this initial validation test. Based on these results, subsequent field campaigns are anticipated and will include the addition of other released materials.