Critical Experiment Analyses by CHAPLET-3D Code in Two- and Three-Dimensional Core Models
スポンサーリンク
概要
- 論文の詳細を見る
A series of critical experiments has been analyzed by the deterministic method code CHAPLET-3D in two- and three-dimensional core configurations in which explicit core structures are represented. The results show that the three-dimensional core calculation model employed in CHAPLET-3D code is valid and useful to obtain fine resolution results by the deterministic method. Moreover, the conventional two-dimensional axial buckling calculation for critical experiment analysis has also been validated, through the comparison between the results of two- and three-dimensional experimental core analyses by CHAPLET-3D code.
- 社団法人 日本原子力学会の論文
- 2005-01-25
著者
関連論文
- Analysis of the Main Steam Line Break Benchmark (Phase II) Using ANCK/MIDAC Code
- Analysis of the SPERT-III E-Core Using ANCK Code with the Chord Weighting Method
- The Verification of 3 Dimensional Nodal Kinetics Code ANCK Using Transient Benchmark Problems
- Depletion Calculations for PWR Assemblies including Burnable Absorbers with Lattice Code PARAGON
- Spatially Dependent Self-Shielding Method with Temperature Distribution for the Two-Dimensional Transport Code PARAGON
- Development of Spatially Dependent Resonance Shielding Method
- A Fast and Simplified Method to Calculate Exponential of Burnup Matrix
- Generalized Bias Factor Method for Accurate Prediction of Neutronics Characteristics
- Critical Experiment Analyses by CHAPLET-3D Code in Two- and Three-Dimensional Core Models
- Verification of 3D Heterogeneous Core Transport Calculation Utilizing Non-linear Iteration Technique
- Application of Quick Subchannel Analysis Method for Three-Dimensional Pin-by-Pin BWR Core Calculations
- Application of Quick Subchannel Analysis Method for Three-Dimensional Pin-by-Pin BWR Core Calculations
- An optimization approach to establish an appropriate energy group structure for BWR pin-by-pin core analysis
- Neutron Spectrum Calculation Code HARPY for Hexagonal Assembly.