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http://dx.doi.org/10.6112/kscfe.2015.20.1.084

CFD ANALYSIS FOR THERMAL MIXING CHARACTERISTICS OF A FLOW MIXING HEADER ASSEMBLY OF SMART  

Kim, Y.I. (Korea Atomic Energy Research Institute)
Bae, Y.M. (Korea Atomic Energy Research Institute)
Chung, Y.J. (Korea Atomic Energy Research Institute)
Kim, K.K. (Korea Atomic Energy Research Institute)
Publication Information
Journal of computational fluids engineering / v.20, no.1, 2015 , pp. 84-91 More about this Journal
Abstract
SMART adopts, very unique facility, an FMHA to enhance the thermal and flow mixing capability in abnormal conditions of some steam generators or reactor coolant pumps. The FMHA is important for enhancing thermal mixing of the core inlet flow during a transient and even during accidents, and thus it is essential that the thermal mixing characteristics of flow of the FMHA be understood. Investigations for the mixing characteristics of the FMHA had been performed by using experimental and CFD methods in KAERI. In this study, the temperature distribution at the core inlet region is investigated for several abnormal conditions of steam generators using the commercial code, FLUENT 12. Simulations are carried out with two kinds of FMHA shapes, different mesh resolutions, turbulence models, and steam generator conditions. The CFD results show that the temperature deviation at the core inlet reduces greatly for all turbulence models and steam generator conditions tested here, and the effect of mesh refinement on the temperature distribution at the core inlet is negligible. Even though the uniformity of FMHA outlet hole flow increases the thermal mixing, the temperature deviation at the core inlet is within an acceptable range. We numerically confirmed that the FMHA applied in SMART has an excellent mixing capability and all simulation cases tested here satisfies the design requirement for FMHA thermal mixing capability.
Keywords
CFD; Flow Mixing; Thermal Mixing; Downcomer; Flow Mixing Header Assembly; Nuclear Reactor; Core Flow;
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