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Automated Variance Reduction for SCALE Shielding Calculations Douglas E. Peplow and John C. Wagner Nuclear Science and Technology Division Oak Ridge National.

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Presentation on theme: "Automated Variance Reduction for SCALE Shielding Calculations Douglas E. Peplow and John C. Wagner Nuclear Science and Technology Division Oak Ridge National."— Presentation transcript:

1 Automated Variance Reduction for SCALE Shielding Calculations Douglas E. Peplow and John C. Wagner Nuclear Science and Technology Division Oak Ridge National Laboratory 14th Biennial Topical Meeting of the ANS Radiation Protection and Shielding Division April 3-6, 2006 Carlsbad, New Mexico, USA

2 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 2 Motivation  Codes need to solve increasingly difficult problems  Need accurate and fast answers  Monte Carlo with importance sampling is the best variance reduction  Codes need to be simple and as automated as possible

3 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 3 Background  SCALE (Standardized Computer Analyses for Licensing Evaluation)  Collection of codes for performing criticality safety, radiation shielding, spent fuel characterization and heat transfer analyses  Control modules or sequences automate the execution and data exchange of individual codes to perform various types of analyses  SAS4 – Shielding Analysis Sequence  Automated 1-D variance reduction capability for more than a decade, with limitations  Effective for cask midplane and top center dose  Not well suited to cask corners and very heterogeneous geometries  Hence, need for Monte Carlo tool with automated 3-D variance reduction (AVR) for general shielding applications

4 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 4 CADIS Methodology - Consistent Adjoint Driven Importance Sampling  Use Discrete Ordinates to find approximate adjoint flux  From the adjoint flux  Importance map for MC transport (weight windows for splitting and roulette)  Biased source distribution  Biased source and importance map work together

5 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 5 SCALE Implementation of CADIS  Cross sections  Multi-group SCALE libraries – many choices  Create adjoint and forward cross section sets  Find the approximate adjoint flux  GRTUNCL3-D – first collision code  TORT – three dimensional DO transport code  Monaco  Descendant of MORSE – still in progress  Uses SCALE general geometry (KENOVI)  Automate as much as possible

6 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 6 SCALE Sequence: MAVRIC Monaco with Automated Variance Reduction using Importance Calculations SCALE Driver and MAVRIC Input ICE Monaco End Optional: TORT adjoint cross sections Optional: 3-D discrete ordinates calculation 3-D Monte Carlo Resonance cross-section processing BONAMI / NITAWL or BONAMI / CENTRM / PMC TORT GRTUNCL-3D Optional: first-collision source calculation

7 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 7 SCALE Sequence: MAVRIC  Monaco with Automated Variance Reduction using Importance Calculations  Input:  Physical Problem  Materials  Geometry  Source  Det. Positions  Det. Responses  Monte Carlo info  Histories, max time, etc  Adjoint DO info  Adjoint source  Spacial discretization

8 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 8 Example  Simple cask with ventports  Spent fuel:  UO2 (20%), air  Uniform source  Steel, Concrete

9 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 9 Example  Source: photons  Response: photon dose

10 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 10 Analog Monaco

11 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 11 Example - Discretization

12 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 12 Example – Adjoint Flux

13 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 13 Example – Imp. Map/Biased Source

14 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 14 Example – Biased source distribution

15 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 15 Results

16 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 16 Results  Compare MAVRIC and Analog

17 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 17 Results  Compare MAVRIC and SAS4

18 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 18 Results  Compare MAVRIC and others: FOM ratios to analog Monaco

19 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 19 Results  Compare MAVRIC and ADVANTG: FOM ratios to analog

20 O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 20 Future Work  MAVRIC Sequence  Automatic homogenization in importance map  Determine standard set of TORT parameters  Monaco  Flux tallies for regions  Mesh tally  Testing, Testing, then a bit more Testing

21 Discussion & Questions

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