- Ph.D., University of California, Los Angeles, 1981
- M.S., Louisiana State University, 1977
- B.S., Illinois Institute of Technology, 1975
- Nuclear and Radiological Engineering/Medical Physics; Reactor physics, perturbation and variational methods, computational transport theory, criticality safety
Came to Tech in Fall 1992 as an Associate Professor. Prior was a Principal Engineer at General Electric Nuclear Energy.
Dr. Farzad Rahnema is a Georgia Power Company Distinguished Professor of Nuclear and Radiological Engineering and the Director of the Computational Reactor and Medical Physics (CRMP) Laboratory at Georgia Institute of Technology. Since 2005, he has also held an appointment as an Adjunct Professor of Radiation Oncology at the Emory University School of Medicine.
Dr. Rahnema received his PhD in nuclear engineering from the University of California–Los Angeles (UCLA). He joined Georgia Tech in 1992 and was at General Electric Nuclear Energy before then. His responsibility included GE’s 3-D Nuclear/Thermal Hydraulics BWR Core Simulator PANACEA used for design, monitoring and prediction of BWR cores. He has published over 200 refereed technical articles.
Dr. Rahnema is a Fellow of the American Nuclear Society (ANS), the Chair of the Honors and Award Committee of the ANS Mathematics and Computation Division (MCD), an Advisory Editor of Annals of Nuclear Energy, a member of the Nuclear Technology Editorial Board, and a member of the External Advisory Board of the Ohio State University Nuclear Engineering Program. He served as the Chair of the Nuclear & Radiological Engineering and Medical Physics Programs at Georgia Institute of Technology (7/2003-6/2016), Chair of the MCD (2 times) and the Reactor Physics Divisions (RPD), and the founding Chairman of the Board of Directors of the Southeast Universities Nuclear Reactors Institute for Science and Education (SUNRISE).
His research interest is in the areas of radiation transport and reactor physics methods and code development with applications to reactor core analysis, nuclear security, and computational medical physics. His interest also include perturbation and variational methods.
- National Science Foundation, Faculty Early Career Development Award, 2011-2016
- American Nuclear Society
- Mathematics and Computation Division Chair, 2010-2011 and 1999-2000
- Reactor Physic Division Chair, 2007-2008
- Fellow, 2003
- Southeastern Universities Nuclear Research Institute for Science and Education (SUNRISE) Chair, 2006-2010
- Journal on Transport Theory and Statistical Physics Conference Special Issue Guest Editor, 2001
- 16th International Conference on Transport Theory Organizing Committee Chair, 1999
- Boundary Condition Adjustment Methods and Systems, U. S. Patent 7,676,015B2, with Ben Forget, March 9, 2010.
- Richard Ulmer, Farzad Rahnema, and Kevin John Connolly, “A Neutronic Benchmark Specification and COMET Solution for the Advanced Burner Test Reactor,” Ann. Nucl. Energy, 87, 77-106 (2016).
- Dingkang Zhang and Farzad Rahnema, “An Implicit Correlation Method for COMET Core-Eigenvalue Uncertainty Analysis,” Nucl. Sci. Eng., 182, No. 3, 369–376 (2016).
- Kyle Remley and Farzad Rahnema, “A Method for the Adaptive Selection of Angular Flux Expansion Orders in the Coarse Mesh Radiation Transport (COMET) Method,” Nucl. Sci. Eng., 183 / No. 2, 161-172 (2016).
- Kevin John Connolly, Alex J. Huning, Farzad Rahnema, and Srinivas Garimella, “A Coarse Mesh Coupled Neutronics and Thermal Fluids method for Prismatic Cores,” Nucl. Sci. Eng., 184, No. 2, 228-243 (2016).
- Dingkang Zhang and Farzad Rahnema “The Adjoint Coarse Mesh Transport (COMET) Method and Reciprocity Relation of Response Coefficients,” Journal of Computational and Theoretical Transport, 45, No. 7, 578-593 (2016).
- Daniel Lago and Farzad Rahnema, “Benchmark Description of a Stylized Three-Dimensional European Pressurized Reactor (EPR) Problem,” Prog. Nucl. Energy, 93, 18-46 (2016).
- Daniel Lago and Farzad Rahnema, “Development of a Set of Benchmark Problems to Verify Numerical Methods for Solving Burnup Equations,” Ann. Nucl. Energy, 99, 266-271 (2017).
- Dingkang Zhang and Farzad Rahnema, “Monte Carlo Solution Convergence Analysis via COMET in a Stylized Integral Inherently Safe LWR Benchmark Problem,”Ann. Nucl. Energy, 100, 3-11 (2017).
- Ryan Hon, Gabriel Kooreman, Farzad Rahnema, Bojan Petrovic, “Stylized whole-core benchmark of the Integral Inherently Safe Light Water Reactor (I2S-LWR) concept,”Ann. Nucl. Energy, 100, 12–22 (2017).
- Daniel Lago and Farzad Rahnema, “Development of an Application Programming Interface for Depletion Analysis (APIDA),” Ann. Nucl. Energy, 103, 163-172 (2017).
- Andrew Holcomb, Luiz Leal, Farzad Rahnema, and Dorothea Wiardab, “A New Method for Generating Probability Tables in the Unresolved Resonance Region,” Nucl. Sci. Eng., in print (2017).