Zircoloy Cladding Oxidation Simulation for LWR under LOCA Conditions
Abstract
PRECIP-2 simulates zircaloy cladding oxidation under LOCA conditions of LWRs. The code calculates oxygen concentration distribution across the cladding wall by solving the diffusion equation with moving boundary conditions, taking into account the structure change of the beta phase, i.e. alpha precipitation during the cooling period. The code also predicts total oxygen uptake, thicknesses of alpha, beta and oxide layers.
- Authors:
- Publication Date:
- Research Org.:
- JAERI
- Sponsoring Org.:
- NEA
- OSTI Identifier:
- 1230596
- Report Number(s):
- PRECIP-2; 001389I376500
- DOE Contract Number:
- NP
- Resource Type:
- Software
- Software Revision:
- 00
- Software Package Number:
- 001389
- Software Package Contents:
- Media Directory; Software Abstract; ReadMe File; Media includes Source Code; Makefiles; Sample Problem Input Data and Sample Problem Output Data;/1 CD ROM
- Software CPU:
- I3765
- Open Source:
- No
- Source Code Available:
- Yes
- Country of Publication:
- Japan
Citation Formats
Suzuki, M., Kawasaki, S., and Furuta, T. Zircoloy Cladding Oxidation Simulation for LWR under LOCA Conditions.
Computer software. Vers. 00. NEA. 25 Apr. 2003.
Web.
Suzuki, M., Kawasaki, S., & Furuta, T. (2003, April 25). Zircoloy Cladding Oxidation Simulation for LWR under LOCA Conditions (Version 00) [Computer software].
Suzuki, M., Kawasaki, S., and Furuta, T. Zircoloy Cladding Oxidation Simulation for LWR under LOCA Conditions.
Computer software. Version 00. April 25, 2003.
@misc{osti_1230596,
title = {Zircoloy Cladding Oxidation Simulation for LWR under LOCA Conditions, Version 00},
author = {Suzuki, M. and Kawasaki, S. and Furuta, T.},
abstractNote = {PRECIP-2 simulates zircaloy cladding oxidation under LOCA conditions of LWRs. The code calculates oxygen concentration distribution across the cladding wall by solving the diffusion equation with moving boundary conditions, taking into account the structure change of the beta phase, i.e. alpha precipitation during the cooling period. The code also predicts total oxygen uptake, thicknesses of alpha, beta and oxide layers.},
doi = {},
url = {https://www.osti.gov/biblio/1230596},
year = {Fri Apr 25 00:00:00 EDT 2003},
month = {Fri Apr 25 00:00:00 EDT 2003},
note =
}
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