Henryk Anglart, Ph.D.
Affiliations: | 2001 | Rensselaer Polytechnic Institute, Troy, NY, United States |
Area:
Nuclear EngineeringGoogle:
"Henryk Anglart"Parents
Sign in to add mentor| Michael Z. Podowski | grad student | 2001 | RPI | |
| (Mechanistic modeling of slug flows.) | ||||
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Publications
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| Bergagio M, Fan W, Thiele R, et al. (2020) Large eddy simulation of thermal mixing with conjugate heat transfer at BWR operating conditions Nuclear Engineering and Design. 356: 110361 |
| Fan W, Cherdantsev AV, Anglart H. (2020) Experimental and numerical study of formation and development of disturbance waves in annular gas-liquid flow Energy. 207: 118309 |
| Fan W, Anglart H. (2020) varRhoTurbVOF 2: Modified OpenFOAM volume of fluid solvers with advanced turbulence modeling capability Computer Physics Communications. 256: 107467 |
| Fan W, Anglart H. (2020) varRhoTurbVOF: A new set of volume of fluid solvers for turbulent isothermal multiphase flows in OpenFOAM Computer Physics Communications. 247: 106876 |
| Fan W, Anglart H. (2019) Progress in Phenomenological Modeling of Turbulence Damping around a Two-Phase Interface Fluids. 4: 136 |
| Spirzewski M, Anglart H, Stano PM. (2019) Uncertainty and sensitivity analysis of a phenomenological dryout model implemented in DARIA system code Nuclear Engineering and Design. 355: 110281 |
| Li H, Anglart H. (2019) Dryout prediction with CFD model of annular two-phase flow Nuclear Engineering and Design. 349: 20-26 |
| Anglart H. (2019) Progress in understanding and modelling of annular two-phase flows with heat transfer Nuclear Engineering and Design. 345: 166-182 |
| Fan W, Li H, Anglart H. (2019) Numerical investigation of spatial and temporal structure of annular flow with disturbance waves International Journal of Multiphase Flow. 110: 256-272 |
| Spirzewski M, Anglart H. (2018) An improved phenomenological model of annular two-phase flow with high-accuracy dryout prediction capability Nuclear Engineering and Design. 331: 176-185 |