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Aysenur Toptan
Aysenur Toptan
Westinghouse Electric Company (United States)
Geverifieerd e-mailadres voor westinghouse.com - Homepage
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CTF Theory Manual
RK Salko, A Wysocki, M Avramova, A Toptan, N Porter, T Blyth, C Dances, ...
241*2016
BISON: A flexible code for advanced simulation of the performance of multiple nuclear forms
RL Williamson, JD Hales, SR Novascone, G Pastore, KA Gamble, ...
Nuclear Technology, 2021
1962021
TRISO particle fuel performance and failure analysis with BISON
W Jiang, JD Hales, BW Spencer, BP Collin, AE Slaughter, SR Novascone, ...
Journal of Nuclear Materials, 2021
812021
Sensitivity studies on the multi-sensor conductivity probe measurement technique for two-phase flows
T Worosz, M Bernard, R Kong, A Toptan, S Kim, C Hoxie
Nuclear Engineering and Design 310, 552-563, 2016
612016
Sensitivity Studies on the Multi-sensor Conducitvity Probe Measurement Technique for Two-phase Flows
T Worosz, M Bernard, R Kong, A Toptan, S Kim, C Hoxie
Proceeding of 2015 US-Japan Seminar on Two-phase Flow Dynamics, May 10-15 …, 2015
612015
Modeling fission product diffusion in TRISO fuel particles with BISON
JD Hales, W Jiang, A Toptan, KA Gamble
Journal of Nuclear Materials, 2021
392021
BISON TRISO Modeling Advancements and Validation to AGR-1 Data
JD Hales, W Jiang, A Toptan, KA Gamble
EXT-20-00297. Idaho National Laboratory, 2020
282020
CTF 4.0 theory manual
R Salko Jr, M Avramova, A Wysocki, A Toptan, J Hu, N Porter, TS Blyth, ...
Oak Ridge National Laboratory (ORNL), Oak Ridge, TN (United States), 2019
262019
Modeling of gap conductance for LWR fuel rods applied in the BISON code
A Toptan, JD Hales, RL Williamson, S Novascone, G Pastore, ...
Journal of Nuclear Science and Technology, 2020
252020
BISON TRISO modeling advancements and validation to AGR-1 data
JD Hales, W Jiang, A Toptan, K Gamble
Idaho National Lab.(INL), Idaho Falls, ID (United States), 2020
232020
A new fuel modeling capability, CTFFuel, with a case study on the fuel thermal conductivity degradation
A Toptan, RK Salko, MN Avramova, K Clarno, DJ Kropaczek
Nuclear Eng Design 341, 248-258, 2019
232019
Efficient high-fidelity TRISO statistical failure analysis using Bison: Applications to AGR-2 irradiation testing
W Jiang, G Singh, JD Hales, A Toptan, BW Spencer, SR Novascone, ...
Journal of Nuclear Materials 562, 153585, 2022
222022
FEA-aided investigation of the effective thermal conductivity in a medium with embedded spheres
A Toptan, W Jiang, JD Hales, BW Spencer, A Casagranda, ...
Nuclear Engineering and Design 381, 111355, 2021
222021
Gap conductance modeling I: Theoretical considerations for single- and multi-component gases in curvilinear coordinates
A Toptan, DJ Kropaczek, MN Avramova
Nuclear Engineering and Design 353, 110283, 2019
212019
Numerical evaluation of AGR-2 fission product release
JD Hales, A Toptan, W Jiang, B Spencer
Journal of Nuclear Materials 558, 153325, 2022
192022
FY20 Verification of BISON using analytic and manufactured solutions
A Toptan, NW Porter, J Hales, R Williamson, M Pilch
182020
Gap conductance modeling II: Optimized model for UO2-Zircaloy interfaces
A Toptan, DJ Kropaczek, MN Avramova
Nuclear Engineering and Design 355, 110289, 2019
172019
CTF: A modernized, production-level, thermal hydraulic solver for the solution of industry-relevant challenge problems in pressurized water reactors
R Salko, A Wysocki, T Blyth, A Toptan, J Hu, V Kumar, C Dances, W Dawn, ...
Nuclear Engineering and Design 397, 111927, 2022
162022
Implementation and assessment of wall friction models for LWR core analysis
A Toptan, NW Porter, RK Salko, MN Avramova
Annals of Nuclear Energy 115, 565–572, 2018
162018
On the validity of dilute gas assumption for gap conductance calculations in nuclear fuel performance codes
A Toptan, DJ Kropaczek, MN Avramova
Nuclear Engineering and Design 350, 1-8, 2019
152019
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