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SAS2H Analysis of Radiochemical Assay Samples from Yankee Rowe PWR Reactor

SAS2H Analysis of Radiochemical Assay Samples from Yankee Rowe PWR Reactor

Author(s)
CRWMS
Publication Date

The purpose of this design analysis is to determine the accuracy of the SAS2H module of SCALE 4.3 in predicting isotopic concentrations of spent fuel assemblies. The objective is to develop a methodology for modeling assemblies similar to those evaluated within this analysis and to establish the consistency of SAS2H predictions. The results of this analysis may then be applied to future depletion calculations using SAS2H in which no measurements are available.

depletion scale pwr spent fuel sas2h radionuclides isotopic concentrations used fuel

Geochemistry Model Validation Report: External Accumulation Model

Geochemistry Model Validation Report: External Accumulation Model

Author(s)
Bechtel SAIC Company, LLC
Publication Date

The purpose of this report is to document and validate the external accumulation model that predicts accumulation of fissile materials in the invert, fractures and lithophysae in the rock beneath a degrading waste package containing spent nuclear fuel (SNF) in the monitored geologic repository at Yucca Mountain. (Lithophysae are hollow, bubblelike structures in the rock composed of concentric shells of finely crystalline alkali feldspar, quartz, and other materials (Bates and Jackson 1984 [DIRS 128109], p.

high level waste yucca mountain commercial spent nuclear fuel criticality analysis monitored geologic repository storage postclosure fissile material accumulation external criticality doe spent nuclear fuel isotopic concentrations

SAS2H Analysis of Radiochemical Assay Samples from Trino Vercelles PWR Reactor

SAS2H Analysis of Radiochemical Assay Samples from Trino Vercelles PWR Reactor

Author(s)
CRWMS
Publication Date

The purpose of this design analysis is to determine the accuracy of the SAS2H module of SCALE 4.3 in predicting isotopic concentrations of spent fuel assemblies. The objective is to develop a methodology for modeling assemblies similar to those evaluated within this analysis and to establish the consistency of SAS2H predictions. The results of this analysis may then be applied to future depletion calculations using SAS2H in which no measurements are available.

scale pwr spent fuel sas2h radionuclides isotopic concentrations used fuel

Code to Code Comparison of One- and Two-Dimensional Methods

Code to Code Comparison of One- and Two-Dimensional Methods

Author(s)
Areva
Publication Date

This calculation file provides comparisons of one- and two-dimensional methods for calculating the isotopic content of spent nuclear fuel. The one-dimensional methods use the SAS2H sequence of SCALE 4.4a (Reference 7.1) and the SAS2 sequence of SCALE 5.0 (Reference 7.2). The two-dimensional method uses the TRITON control module along with the T-DEPL sequence of SCALE 5.0 (Reference 7.3). The SAS2H results for SCALE 4.4a are taken from Reference 7.4. Data from previous two-dimensional calculations (Reference 7.5) using CASM03 will also be used for comparisons with TRITON.

scale pwr bwr commercial spent nuclear fuel triton sas2h casmo code verification isotopic concentrations radiochemical assay reactivity

Isotopic Model for Commercial SNF Burnup Credit

Isotopic Model for Commercial SNF Burnup Credit

Author(s)
OCRWM
Publication Date

Disposal Criticality Analysis Methodology Topical Report describes a methodology for performing postclosure criticality analyses within the repository at Yucca Mountain, Nevada. An important component of the postclosure criticality analysis is the calculation of conservative isotopic concentrations for spent nuclear fuel. This report documents the isotopic calculation methodology. The isotopic calculation methodology is shown to be conservative based upon current data for pressurized water reactor and boiling water reactor spent nuclear fuel.

burnup credit criticality scale yucca mountain commercial spent nuclear fuel sas2h postclosure isotopic concentrations cal-dsu-nu-000007 isotopic calculation methodology

EQ6 Calculations for Chemical Degradation of Pu-Ceramic Waste Packages

EQ6 Calculations for Chemical Degradation of Pu-Ceramic Waste Packages

Author(s)
CRWMS
Publication Date

In this study, the long-term geochemical behavior of waste package (WP), containing Pu-ceramic, was modeled. The ceramic under consideration contains Ti, U, Pu, Gd and Hf in a pyrochlore structure; the Gd and Hf stabilize the mineral structure, but are also intended to provide criticality control. The specific study objectives were to determine:
1) the extent to which criticality control material, suggested for this WP design, will remain in the WP after corrosion/dissolution of the initial package configuration (such that it can be effective in preventing criticality), and

criticality external criticality isotopic concentrations waste package degradation corrosion internal criticality plutonium ceramics chemical analysis bba000000-01717-0210-00018

SAS2H Analysis of Radiochemical Assay Samples from Cooper BWR Reactor

SAS2H Analysis of Radiochemical Assay Samples from Cooper BWR Reactor

Author(s)
CRWMS
Publication Date

The purpose of this design analysis is to determine the accuracy of the SAS2H module of SCALE 4.3 in predicting isotopic concentrations of spent fuel assemblies. The objective is to develop a methodology for modeling assemblies similar to those evaluated within this analysis and to establish the consistency of SAS2H predictions. The results of this analysis may then be applied to future depletion calculations using SAS2H in which no measurements are available.

depletion scale bwr spent fuel sas2h radionuclides isotopic concentrations used fuel

SAS2H Analysis of Radiochemical Assay Samples from Calvert Cliffs PWR Reactor

SAS2H Analysis of Radiochemical Assay Samples from Calvert Cliffs PWR Reactor

Author(s)
CRWMS
Publication Date

The purpose of this design analysis is to determine the accuracy of the SAS2H module of SCALE 4.3 in predicting isotopic concentrations of spent fuel assemblies. The objective is to develop a methodology for modeling assemblies similar to those evaluated within this analysis and to establish the consistency of SAS2H predictions. The results of this analysis may then be applied to future depletion calculations using SAS2H in which no measurements are available.

depletion scale pwr spent fuel sas2h radionuclides isotopic concentrations used fuel

Isotopic Generation and Verification of the PWR Application Model

Isotopic Generation and Verification of the PWR Application Model

Author(s)
OCRWM
Publication Date

The objective of this calculation is to establish an isotopic database to represent commercial spent nuclear fuel (CSNF) from pressurized water reactors (PWRs) in criticality analyses performed for the proposed Monitored Geologic Repository at Yucca Mountain, Nevada. Confirmation of the conservatism with respect to criticality in the isotopic concentration values represented by this isotopic database is performed as described in Section 3.5.3.1.2 of the Disposal Criticality Analysis Methodology Topical Report (YMP 2000).

criticality yucca mountain commercial spent nuclear fuel isotopic measurements monitored geologic repository isotopic concentrations pwr snf cal-dsu-nu-000004

Calculation of Isotopic Bias and Uncertainty for BWR SNF

Calculation of Isotopic Bias and Uncertainty for BWR SNF

Author(s)
OCRWM
Publication Date

The objective of Calculation of Isotopic Bias and Uncertainty for BWR SNF is to quantify the computational bias and uncertainty in the multiplication factor (keff) to be used for Boiling Water Reactor (BWR) spent nuclear fuel (SNF) burn-up credit. The scope of this bias and uncertainty determination covers 38 different radiochemical assay (RCA) spent fuel samples from 14 different fuel assemblies that were irradiated in four different BWRs. The irradiated fuel samples evaluated span an enrichment range of 2.53 weight percent U-235 through 3.95 weight percent U-235.

burnup credit commercial spent nuclear fuel license application isotopic concentrations isotopic bias uncertainty bwr snf cal-dsu-nu-000003

slides - Industry Response to NRC's Request for Comments on Retrievability, Cladding Integrity and 10 CFR 71/72 Alignment

slides - Industry Response to NRC's Request for Comments on Retrievability, Cladding Integrity and 10 CFR 71/72 Alignment

Author(s)
Levin, A. H.
Publication Date

Presented at the NEI Used Fuel Management Conference, St. Petersburg, FL, May 7-9, 2013

nrc slides retrievability nei used fuel management meeting cladding integrity industry response 10 cfr 71 10 cfr 72

SAS2H Analysis of Radiochemical Assay Samples from Obrigheim PWR Reactor

SAS2H Analysis of Radiochemical Assay Samples from Obrigheim PWR Reactor

Author(s)
CRWMS
Publication Date

The purpose of this design analysis is to determine the accuracy of the SAS2H module of SCALE 4.3 in predicting isotopic concentrations of spent fuel assemblies. The objective is to develop a methodology for modeling assemblies similar to those evaluated within this analysis and to establish the consistency of SAS2H predictions. The results of this analysis may then be applied to future depletion calculations using SAS2H in which no measurements are available.

depletion scale pwr spent fuel sas2h radionuclides isotopic concentrations used fuel
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