NSRD-11: Computational Capability to Substantiate DOE-HDBK-3010 Data.

Louie, David; Brown, Alexander; Gelbard, Fred; Bignell, John; Pierce, Flint; Voskuilen, Tyler; Rodriguez, Salvador B.; Dingreville, Remi Philippe Michel; Zepper, Ethan T.; Juan, Pierre-Alexandre; Le, San; Gilkey, Lindsay Noelle

doi:10.2172/1334942

Title: NSRD-11: Computational Capability to Substantiate DOE-HDBK-3010 Data.

Technical Report · Tue Nov 01 00:00:00 EDT 2016

DOI:https://doi.org/10.2172/1334942· OSTI ID:1334942

Louie, David ^[1]; Brown, Alexander ^[1]; Gelbard, Fred ^[1]; Bignell, John ^[1]; Pierce, Flint ^[1]; Voskuilen, Tyler ^[1]; Rodriguez, Salvador B. ^[1]; Dingreville, Remi Philippe Michel ^[1]; Zepper, Ethan T. ^[1]; Juan, Pierre-Alexandre ^[1]; Le, San ^[1]; Gilkey, Lindsay Noelle ^[1]

Sandia National Lab. (SNL-NM), Albuquerque, NM (United States)

Safety basis analysts throughout the U.S. Department of Energy (DOE) complex rely heavily on the information provided in the DOE Handbook, DOE - HDBK - 3010, Airborne Release Fractions/Rates and Respirable Fractions for Nonreactor Nuclear Facilities, to determine radionuclide source terms. In calculating source terms, analysts tend to use the DOE Handbook's bounding values on airborne release fractions (ARFs) and respirable fractions (RFs) for various categories of insults (representing potential accident release categories). This is typically due to both time constraints and the avoidance of regulatory critique. Unfortunately, these bounding ARFs/RFs represent extremely conservative values. Moreover, they were derived from very limited small-scale bench/laboratory experiments and/or from engineered judgment. Thus, the basis for the data may not be representative of the actual unique accident conditions and configurations being evaluated. The goal of this research is to develop a more accurate and defensible method to determine bounding values for the DOE Handbook using state-of-art multi-physics-based computer codes. This enables us to better understand the fundamental physics and phenomena associated with the types of accidents in the handbook. In this year, this research included improvements of the high-fidelity codes to model particle resuspension and multi-component evaporation for fire scenarios. We also began to model ceramic fragmentation experiments, and to reanalyze the liquid fire and powder release experiments that were done last year. The results show that the added physics better describes the fragmentation phenomena. Thus, this work provides a low-cost method to establish physics-justified safety bounds by taking into account specific geometries and conditions that may not have been previously measured and/or are too costly to perform.

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Research Organization:: Sandia National Lab. (SNL-NM), Albuquerque, NM (United States)

Sponsoring Organization:: USDOE Office of Health, Safety and Security (HSS), Office of Nuclear Safety (HS-30)

DOE Contract Number:: AC04-94AL85000

OSTI ID:: 1334942

Report Number(s):: SAND2016-12167; 649599; TRN: US1700821

Country of Publication:: United States

Language:: English

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54 ENVIRONMENTAL SCIENCES
MANUALS
ACCIDENTS
SOURCE TERMS
EVAPORATION
FIRES
FRAGMENTATION
LIQUIDS
SAFETY
COMPUTER CODES
LIMITING VALUES
NUCLEAR FACILITIES
PARTICLE RESUSPENSION
CERAMICS
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Title: NSRD-11: Computational Capability to Substantiate DOE-HDBK-3010 Data.

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