TY - BOOK
T1 - CTF Validation and Verification: Version 4.4
AU - Salko, Jr., Robert
AU - Wysocki, Aaron
AU - Toptan, A.
AU - Porter, Nathan
AU - Zhao, Xingang
AU - Hizoum, Belgacem
AU - Blyth, Taylor S.
AU - Magedanz, Jeffrey W.
AU - Dances, Christopher A.
AU - Gergar, Marcus
AU - Gosdin, Chris
AU - Jernigan, Caleb
AU - Kelly, Joeseph
AU - Kumar, Vineet
AU - Palmtag, Scott
AU - Gehin, Jess C.
AU - Avramova, M.
PY - 2023
Y1 - 2023
N2 - Coolant-Boiling in Rod Arrays- Two Fluids (COBRA-TF) is a thermal/hydraulic (T/H) simulation code designed for light water reactor (LWR) analysis. It uses a two-fluid, three-field (i.e., fluid film, fluid drops, and vapor) modeling approach. Both subchannel and 3D Cartesian forms of nine conservation equations are available for LWR modeling. The code was originally developed by Pacific Northwest Laboratory in 1980 and has been used and modified by several institutions over the last several decades. COBRA-TF is also used at the Pennsylvania State University (PSU) by the Reactor Dynamics and Fuel Modeling Group (RDFMG) and has been improved, updated, and subsequently became the CTF. One part of the improvement process includes validating the methods in CTF. This document seeks to provide a certain level of certainty and confidence in the predictive capabilities of the code for the scenarios it was designed to model—rod bundle geometries with operating conditions that are representative of prototypical pressurized water reactor (PWR)s and boiling water reactor (BWR)s in both normal and accident conditions. This is done by modeling a variety of experiments that simulate these scenarios and then presenting a qualitative and quantitative analysis of the results that demonstrates the accuracy to which CTF is capable of capturing specific quantities of interest.
AB - Coolant-Boiling in Rod Arrays- Two Fluids (COBRA-TF) is a thermal/hydraulic (T/H) simulation code designed for light water reactor (LWR) analysis. It uses a two-fluid, three-field (i.e., fluid film, fluid drops, and vapor) modeling approach. Both subchannel and 3D Cartesian forms of nine conservation equations are available for LWR modeling. The code was originally developed by Pacific Northwest Laboratory in 1980 and has been used and modified by several institutions over the last several decades. COBRA-TF is also used at the Pennsylvania State University (PSU) by the Reactor Dynamics and Fuel Modeling Group (RDFMG) and has been improved, updated, and subsequently became the CTF. One part of the improvement process includes validating the methods in CTF. This document seeks to provide a certain level of certainty and confidence in the predictive capabilities of the code for the scenarios it was designed to model—rod bundle geometries with operating conditions that are representative of prototypical pressurized water reactor (PWR)s and boiling water reactor (BWR)s in both normal and accident conditions. This is done by modeling a variety of experiments that simulate these scenarios and then presenting a qualitative and quantitative analysis of the results that demonstrates the accuracy to which CTF is capable of capturing specific quantities of interest.
KW - 11 NUCLEAR FUEL CYCLE AND FUEL MATERIALS
KW - 97 MATHEMATICS AND COMPUTING
U2 - 10.2172/2204566
DO - 10.2172/2204566
M3 - Commissioned report
BT - CTF Validation and Verification: Version 4.4
CY - United States
ER -