Vertical steam generator thermal-hydraulics: CMFD numerical simulation and verification
Само за регистроване кориснике
2003
Конференцијски прилог (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
The need for the investigation of complex multidimensional two-phase flow conditions on the vertical steam generator shell side and thermal and hydraulic interactions of two-phase flow with the steam generator's tube bundle and other internals, lead to the application of advanced computational methods. The Computational Multi-Fluid Dynamics (CMFD) codes provide detailed insight into two-phase flow process parameters. The code 3D ANA was developed for the numerical simulations and analyses of steam generators. It has been already successfully applied to the investigation of horizontal steam generator thermal hydraulics. In this study, the 3D ANA code is verified for the thermal hydraulic conditions of the vertical steam generator by numerical simulation of the experimental conditions performed at the large-scale test facility. The code is based on the two-fluid model and the porous media approach, which enable calculation of both liquid and vapour velocity fields, void fraction distribu...tion and two-phase mixture pressure field.
Кључне речи:
Vertical steam generator / Thermal Hydraulics / Numerical simulationИзвор:
11th International Conference On on Nuclear Engineering (ICONE-11), Tokyo, Japan, April 20-23, 2003, 2003, ICONE11-36491Издавач:
- Japan Society of Mechanical Engineers
Колекције
Институција/група
Mašinski fakultetTY - CONF AU - Maslovarić, Blaženka AU - Stevanović, Vladimir AU - Prica, Sanja AU - Stošić, Zoran AU - Stoll, Uwe PY - 2003 UR - https://machinery.mas.bg.ac.rs/handle/123456789/7647 AB - The need for the investigation of complex multidimensional two-phase flow conditions on the vertical steam generator shell side and thermal and hydraulic interactions of two-phase flow with the steam generator's tube bundle and other internals, lead to the application of advanced computational methods. The Computational Multi-Fluid Dynamics (CMFD) codes provide detailed insight into two-phase flow process parameters. The code 3D ANA was developed for the numerical simulations and analyses of steam generators. It has been already successfully applied to the investigation of horizontal steam generator thermal hydraulics. In this study, the 3D ANA code is verified for the thermal hydraulic conditions of the vertical steam generator by numerical simulation of the experimental conditions performed at the large-scale test facility. The code is based on the two-fluid model and the porous media approach, which enable calculation of both liquid and vapour velocity fields, void fraction distribution and two-phase mixture pressure field. PB - Japan Society of Mechanical Engineers C3 - 11th International Conference On on Nuclear Engineering (ICONE-11), Tokyo, Japan, April 20-23, 2003 T1 - Vertical steam generator thermal-hydraulics: CMFD numerical simulation and verification IS - ICONE11-36491 UR - https://hdl.handle.net/21.15107/rcub_machinery_7647 ER -
@conference{ author = "Maslovarić, Blaženka and Stevanović, Vladimir and Prica, Sanja and Stošić, Zoran and Stoll, Uwe", year = "2003", abstract = "The need for the investigation of complex multidimensional two-phase flow conditions on the vertical steam generator shell side and thermal and hydraulic interactions of two-phase flow with the steam generator's tube bundle and other internals, lead to the application of advanced computational methods. The Computational Multi-Fluid Dynamics (CMFD) codes provide detailed insight into two-phase flow process parameters. The code 3D ANA was developed for the numerical simulations and analyses of steam generators. It has been already successfully applied to the investigation of horizontal steam generator thermal hydraulics. In this study, the 3D ANA code is verified for the thermal hydraulic conditions of the vertical steam generator by numerical simulation of the experimental conditions performed at the large-scale test facility. The code is based on the two-fluid model and the porous media approach, which enable calculation of both liquid and vapour velocity fields, void fraction distribution and two-phase mixture pressure field.", publisher = "Japan Society of Mechanical Engineers", journal = "11th International Conference On on Nuclear Engineering (ICONE-11), Tokyo, Japan, April 20-23, 2003", title = "Vertical steam generator thermal-hydraulics: CMFD numerical simulation and verification", number = "ICONE11-36491", url = "https://hdl.handle.net/21.15107/rcub_machinery_7647" }
Maslovarić, B., Stevanović, V., Prica, S., Stošić, Z.,& Stoll, U.. (2003). Vertical steam generator thermal-hydraulics: CMFD numerical simulation and verification. in 11th International Conference On on Nuclear Engineering (ICONE-11), Tokyo, Japan, April 20-23, 2003 Japan Society of Mechanical Engineers.(ICONE11-36491). https://hdl.handle.net/21.15107/rcub_machinery_7647
Maslovarić B, Stevanović V, Prica S, Stošić Z, Stoll U. Vertical steam generator thermal-hydraulics: CMFD numerical simulation and verification. in 11th International Conference On on Nuclear Engineering (ICONE-11), Tokyo, Japan, April 20-23, 2003. 2003;(ICONE11-36491). https://hdl.handle.net/21.15107/rcub_machinery_7647 .
Maslovarić, Blaženka, Stevanović, Vladimir, Prica, Sanja, Stošić, Zoran, Stoll, Uwe, "Vertical steam generator thermal-hydraulics: CMFD numerical simulation and verification" in 11th International Conference On on Nuclear Engineering (ICONE-11), Tokyo, Japan, April 20-23, 2003, no. ICONE11-36491 (2003), https://hdl.handle.net/21.15107/rcub_machinery_7647 .