Prediction of Interfacial Area Transport in a Scaled 8x8 BWR Rod Bundle
In the two-fluid model, it is important to give an accurate prediction for the interfacial area concentration. In order to achieve this goal, the interfacial area transport equation has been developed. This study focuses on the benchmark of IATE performance in a rod bundle geometry. A set of interfacial area concentration source and sink term models are proposed for a rod bundle geometry based on the confined channel IATE model. This model was selected as a basis because of the relative similarity of the two geometries. Benchmarking of the new model with interfacial area concentration data in an 8x8 rod bundle test section which has been scaled from an actual BWR fuel bundle is performed. The model shows good agreement in bubbly and cap-bubbly flows, which are similar in many types of geometries, while it shows some discrepancy in churn-turbulent flow regime. This discrepancy may be due to the geometrical differences between the actual rod bundle test facility and the facility used to collect the data which benchmarked the original source and sink models.
X. Yang et al., "Prediction of Interfacial Area Transport in a Scaled 8x8 BWR Rod Bundle," Nuclear Engineering and Design, vol. 310, pp. 638-647, Elsevier, Dec 2016.
The definitive version is available at https://doi.org/10.1016/j.nucengdes.2016.10.037
Mining and Nuclear Engineering
Keywords and Phrases
Benchmarking; Boiling water reactors; Geometry; Accurate prediction; Churn-turbulent flow regime; Geometrical differences; Interfacial area concentrations; Interfacial area transport equation; Interfacial area transports; Rod bundles; Two fluid model; Two phase flow; Two-phase flow
International Standard Serial Number (ISSN)
Article - Journal
© 2016 Elsevier, All rights reserved.
01 Dec 2016