Farzad Rahnema
Affiliations: | Georgia Institute of Technology, The George W. Woodruff School of Mechanical Engineering |
Area:
Nuclear Engineering, MathematicsGoogle:
"Farzad Rahnema"Children
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Publications
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| Rahnema F, Zhang D. (2021) CONTINUOUS ENERGY COMET SOLUTION TO A SMALL MODULAR ADVANCED HIGH-TEMPERATURE REACTOR BENCHMARK PROBLEM (SmAHTR) Epj Web of Conferences. 247: 05002 |
| Reed KL, Rahnema F, Zhang D, et al. (2020) A Stylized 3-D Benchmark Problem Set Based on the Pin-Fueled SmAHTR Nuclear Technology. 1-12 |
| Zhang D, Rahnema F. (2020) COMET neutronics solutions to the prismatic VHTR benchmark problem Nuclear Engineering and Design. 358: 110395 |
| rahnema f. (2019) Data for: Consistent Spatial Expansion Functions on Hexagonal Surfaces for Use in Radiation Transport Methods Annals of Nuclear Energy. 1: 603-609 |
| Rahnema F, Diamond D, Serghiuta D, et al. (2019) Phenomena, gaps, and issues for neutronics modeling and simulation of FHRs Annals of Nuclear Energy. 123: 172-179 |
| Rahnema F, Sun X, Petrovic B, et al. (2018) Phenomena identification and categorization by the required level of multiphysics coupling in FHR modeling and simulation Annals of Nuclear Energy. 121: 540-551 |
| Zhang D, Rahnema F. (2018) Continuous-energy COMET solution to the stylized AHTR benchmark problem Annals of Nuclear Energy. 121: 284-294 |
| Zhang D, Rahnema F. (2018) A stylized 3D Advanced High Temperature Reactor (AHTR) benchmark problem Annals of Nuclear Energy. 120: 178-185 |
| Rahnema F, Zhang D. (2018) Continuous energy coarse mesh transport (COMET) method Annals of Nuclear Energy. 115: 601-610 |
| Remley K, Rahnema F. (2018) Development and assessment of a parallel computing implementation of the Coarse Mesh Radiation Transport (COMET) method Annals of Nuclear Energy. 114: 288-300 |