@inproceedings{e6d34c78d3de4792b5d134c945be820c,
title = "BISON modeling of reactivity-initiated accident experiments in a static environment",
abstract = "In conjunction with the restart of the TREAT reactor and the design of test vehicles, modeling and simulation efforts are being used to model the response of Accident Tolerant Fuel (ATF) concepts under reactivityinitiated accident (RIA) conditions. The purpose of this work is to model a baseline case of a 10 cm long UO2- Zircaloy fuel rodlet using BISON and RELAP5 over a range of energy depositions and with varying reactor power pulse widths. The results provide an initial best estimate of fuel performance modeling during a RIA event in TREAT with a focus on the effect of varying the pulse width and energy deposition on both thermal and mechanical parameters that are important for predicting failure of the fuel rodlet. The combined BISON/RELAP5 model captures coupled thermal and mechanical effects on the fuel-to-cladding gap conductance, cladding-to-coolant heat transfer coefficient and water temperature and pressure that would not be capable in each code individually. These combined effects allow for a more accurate modeling of the thermal and mechanical response in the fuel rodlet and thermal-hydraulics of the test vehicle.",
keywords = "BISON, RELAP5, Reactivity-initiated accident, TREAT, Transient irradiation testing",
author = "Folsom, {Charles P.} and Colby Jensen and Williamson, {Richard L.} and Woolstenhulme, {Nicolas E.} and Heng Ban and Wachs, {Daniel M.}",
year = "2016",
language = "English",
series = "Top Fuel 2016: LWR Fuels with Enhanced Safety and Performance",
publisher = "American Nuclear Society",
pages = "239--247",
booktitle = "Top Fuel 2016",
note = "Top Fuel 2016: LWR Fuels with Enhanced Safety and Performance ; Conference date: 11-09-2016 Through 15-09-2016",
}