GEORGETA RADULESCU
PUBLICATIONS
2008
G. Radulescu, D. E. Mueller, and J. C. Wagner, Sensitivity and Uncertainty Analysis of Commercial Reactor Criticals for Burnup Credit, NUREG/CR-6951 (ORNL/TM-2006/87), prepared for the U.S. Nuclear Regulatory Commission by Oak Ridge National Laboratory, Oak Ridge, Tenn., January 2008.2007
G. Radulescu, D. E. Mueller, S. Goluoglu, D. F. Hollenbach, and P. B. Fox, Range of Applicability and Bias Determination for Postclosure Criticality of Commercial Spent Nuclear Fuel, ORNL/TM-2007/127, Oak Ridge National Laboratory, Oak Ridge, Tenn., October 2007. G. Radulescu, D. E. Mueller, and J. C. Wagner, "Evaluation of Applicability of CRC Models for Burnup Credit Validation," Trans. Am. Nucl. Soc. 97, 151-153 (2007).2005
G. Radulescu and S. Su, “Dose Rate Evaluation for Spent Fuel Aging Areas at Yucca Mountain,” Trans. Am. Nucl. Soc. 92, 29 (2005). Direct Radiation Dose Consequence Calculation for Category 1 and 2 Event Sequences. 000-00C-WHS0-00600-000-00A. Las Vegas, Nevada: Bechtel SAIC Company, 2005. Dose Rate Calculation for the Exhaust Main in Emplacement Panel 1. 800-00C-SS00-00300-000-00A. Las Vegas, Nevada: Bechtel SAIC Company, 2005. Dose Rate Calculation for an Optimized Turnout Drift Configuration. 800-00C-SS00-00200-000-00A. Las Vegas, Nevada: Bechtel SAIC Company, 2005.2004
Shielding Calculation for Dry Transfer Facility, Remediation Facility, and Canister Handling Facility. 100-00C-WHS0-00200-000-00B. Las Vegas, Nevada: Bechtel SAIC Company, 2004. Dose Rate Evaluations for Spent Nuclear Fuel Aging Areas. 170-00C-HAP0-00400-000-00A. Las Vegas, Nevada: Bechtel SAIC Company, 2004. Shielding Evaluation for Spent Nuclear Fuel Aging Areas. 170-00C-HAP0-00200-000-00A. Las Vegas, Nevada: Bechtel SAIC Company, 2004.2003
G. Radulescu, “Automated Variance Reduction for Monte Carlo Shielding Analyses with MCNP,” Ph.D. Dissertation, The University of Texas at Austin, Austin, Texas (May 2003). Shielding Design Calculations for Dry Facility #1. 110-00C-CS10-00200-000-00A. Las Vegas, Nevada: Bechtel SAIC Company, 2003. Dose Rate Calculation for Emplacement Drift Turnout Configurations. 800-00C-WIS0-00200-000-00A. Las Vegas, Nevada: Bechtel SAIC Company, 2003.2002
G. Radulescu and J. S. Tang, “Shielding Evaluations of Waste Package Designs,” Proceedings of the 12th Biennial RPSD Topical Meeting, Santa Fe, NM, April 14-18, 2002. J. S. Tang and G. Radulescu, “Radiolytic Production of Nitric Acid Outside a 21-PWR Waste Package,” Proceedings 12th Biennial RPSD Topical Meeting, April 14-18, 2002.2001
G. Radulescu, Evaluation of the Relative Power Experiments for the Saxton Partial Plutonium Core, ORNL/SUB/99-XSZ175V-4, Oak Ridge National Laboratory, Oak Ridge, Tennessee (2001).2000
G. Radulescu, J. S. Tang, T. W. Doering, “Evaluation of the Effect of Source Geometry Models on Dose Rates of Waste Packages,” J. Nucl. Sci. Technol, Supplement 1, 320-323 (2000) (9th International Conference on Radiation Shielding, Tsukuba, Japan, 17-22 Oct. 1999). N. M. Abdurrahman, I. Carron, G. Radulescu, Neutronics Benchmarks for the Utilization of Mixed-Oxide Fuel: Saxton Critical Experiments, ORNL/SUB/00-XSZ175V-2, Oak Ridge National Laboratory, Oak Ridge, Tennessee, (2000).1999
N. M. Abdurrahman, G. Radulescu, I. Carron, “Benchmark Calculations for Critical Experiments of the Saxton Plutonium Program,” Nucl. Technol. 127, 315-331 (1999).1998
G. Radulescu and N. M. Abdurrahman, “Benchmark Calculations for Relative Power Experiments of the Saxton Plutonium Critical Experiments,” Trans. Am. Nucl. Soc. 78, 250 (1998).1997
N. M. Abdurrahman, M. Yavuz, and G. Radulescu, “MCNP Analysis of PNL Split-Table Critical Experiments Containing Mixed-Oxide Fuels,” Trans. Am. Nucl. Soc. 77, 213 (1997). G. Radulescu and N. M. Abdurrahman, “MCNP Criticality Calculations of the Saxton Plutonium Program Experiments,” Trans. Am. Nucl. Soc. 76, 231 (1997). G. Radulescu, “MCNP Criticality Benchmarks for Mixed Oxide Lattices of the Saxton Plutonium Program,” M.S. Thesis, The University of Texas at Austin, Austin, Texas, (1997).