Calculations of computational benchmark problems for the disposition of weapons-grade plutonium fuel in VVER-1000 reactors have been performed under the Joint US/Russian Fissile Material Disposition Program. The benchmarks cover pin cell, single fuel assembly, and multi-assembly structures with several different fuel types, moderator densities, and boron content for operational and off-normal conditions. Fuel depletion is performed to a burnup of 60 MWd/kgHM. The results of the analysis of the benchmarks with US and Russian code systems have been compared and indicated good agreement among the different methods and data
2001PDFProceedingsDE-AC05-00OR22725Hazardous materialsRadioactive materialsPlutoniumOxidesNuclear re...
The Task Force on Reactor-Based Plutonium Disposition (TFRPD) was formed by the Organization for Eco...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Calculations of computational benchmark problems for the disposition of weapons-grade mixed-oxide fu...
Among various versions of excess weapons-grade plutonium handling the most preferred in Russia is it...
As part of Fissile Materials Disposition Program (FMDP) physics support was given to the design of a...
Standard problems were created to test the ability of American and Russian computational methods and...
As part of Fissile Materials Disposition Program (FMDP) physics support was given to the design of a...
A series of unit pin-cell benchmark problems have been analyzed related to irradiation of mixed oxid...
One of the proposed ways to dispose of surplus weapons-grade plutonium (Pu) is to irradiate the high...
The computational benchmarks performed on the TVEL and the Westinghouse fuel assemblies for the VVER...
The present work is a part of Joint U.S./Russian Project with Weapons-Grade Plutonium Disposition in...
Both the Russian Federation and the US are pursing mixed uranium-plutonium oxide (MOX) fuel in light...
This paper aims to investigate and compare the burnup processes of the VVER-1200 reactor fueled with...
The Task Force on Reactor-Based Plutonium Disposition, now an Expert Group, was set up through the O...
2001PDFProceedingsDE-AC05-00OR22725Hazardous materialsRadioactive materialsPlutoniumOxidesNuclear re...
The Task Force on Reactor-Based Plutonium Disposition (TFRPD) was formed by the Organization for Eco...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Calculations of computational benchmark problems for the disposition of weapons-grade mixed-oxide fu...
Among various versions of excess weapons-grade plutonium handling the most preferred in Russia is it...
As part of Fissile Materials Disposition Program (FMDP) physics support was given to the design of a...
Standard problems were created to test the ability of American and Russian computational methods and...
As part of Fissile Materials Disposition Program (FMDP) physics support was given to the design of a...
A series of unit pin-cell benchmark problems have been analyzed related to irradiation of mixed oxid...
One of the proposed ways to dispose of surplus weapons-grade plutonium (Pu) is to irradiate the high...
The computational benchmarks performed on the TVEL and the Westinghouse fuel assemblies for the VVER...
The present work is a part of Joint U.S./Russian Project with Weapons-Grade Plutonium Disposition in...
Both the Russian Federation and the US are pursing mixed uranium-plutonium oxide (MOX) fuel in light...
This paper aims to investigate and compare the burnup processes of the VVER-1200 reactor fueled with...
The Task Force on Reactor-Based Plutonium Disposition, now an Expert Group, was set up through the O...
2001PDFProceedingsDE-AC05-00OR22725Hazardous materialsRadioactive materialsPlutoniumOxidesNuclear re...
The Task Force on Reactor-Based Plutonium Disposition (TFRPD) was formed by the Organization for Eco...
Due to the character of the original source materials and the nature of batch digitization, quality ...