Instant Release Fraction (Source and Expert ranges) for SFC-1: UOX 50 and 60 GWd/tHM MOX 50 GWd/tHM. Status 2011

Research output: Report/bookER - External report

Standard

Instant Release Fraction (Source and Expert ranges) for SFC-1 : UOX 50 and 60 GWd/tHM MOX 50 GWd/tHM. Status 2011. / Cachoir, Christelle; Mennecart, Thierry.

Studiecentrum voor Kernenergie, 2018. 65 p. (SCK•CEN Reports; No. ER-0166).

Research output: Report/bookER - External report

Bibtex - Download

@book{bbf2bb1551494115ac3deb5329577361,
title = "Instant Release Fraction (Source and Expert ranges) for SFC-1: UOX 50 and 60 GWd/tHM MOX 50 GWd/tHM. Status 2011",
abstract = "Belgium and elsewhere, it is necessary to have sufficient knowledge about the rate and mechanisms by which the spent fuel will release its radionuclide inventory into the environment. Most of the inventory will be released slowly on a geological time scale, but a certain fraction may be released at high rate shortly after contact with ground water. The fraction that is released fast for today’s fuels can be measured experimentally, and will be called ‘accessible fraction of inventory’ (AFI) in the terminology of SFC-1. The AFI values are thus purely experimental data. The estimation of the fast release at the time of the canister breaching builds further on the knowledge about the AFI of todays’s fuels, but also involves an evaluation of hypotheses about the further evolution of the fuel. The resulting values for the released fractions are intended for use in performance assessment calculations, and are called ‘instant release fraction’ (IRF). In literature, the distinction between experimental and extrapolated data is often unclear. For SFC-1, the distinction will be made more explicitly. This report summarizes related literature data, focussing on IRF data, while another report is devoted to the AFI [ER-0407].",
keywords = "Spent Nuclear Fuel, Accessible fraction of inventory, Fission Gas Release, gap, grain boundary",
author = "Christelle Cachoir and Thierry Mennecart",
note = "Score=2",
year = "2018",
month = "3",
day = "1",
language = "English",
series = "SCK•CEN Reports",
publisher = "Studiecentrum voor Kernenergie",
number = "ER-0166",

}

RIS - Download

TY - BOOK

T1 - Instant Release Fraction (Source and Expert ranges) for SFC-1

T2 - UOX 50 and 60 GWd/tHM MOX 50 GWd/tHM. Status 2011

AU - Cachoir, Christelle

AU - Mennecart, Thierry

N1 - Score=2

PY - 2018/3/1

Y1 - 2018/3/1

N2 - Belgium and elsewhere, it is necessary to have sufficient knowledge about the rate and mechanisms by which the spent fuel will release its radionuclide inventory into the environment. Most of the inventory will be released slowly on a geological time scale, but a certain fraction may be released at high rate shortly after contact with ground water. The fraction that is released fast for today’s fuels can be measured experimentally, and will be called ‘accessible fraction of inventory’ (AFI) in the terminology of SFC-1. The AFI values are thus purely experimental data. The estimation of the fast release at the time of the canister breaching builds further on the knowledge about the AFI of todays’s fuels, but also involves an evaluation of hypotheses about the further evolution of the fuel. The resulting values for the released fractions are intended for use in performance assessment calculations, and are called ‘instant release fraction’ (IRF). In literature, the distinction between experimental and extrapolated data is often unclear. For SFC-1, the distinction will be made more explicitly. This report summarizes related literature data, focussing on IRF data, while another report is devoted to the AFI [ER-0407].

AB - Belgium and elsewhere, it is necessary to have sufficient knowledge about the rate and mechanisms by which the spent fuel will release its radionuclide inventory into the environment. Most of the inventory will be released slowly on a geological time scale, but a certain fraction may be released at high rate shortly after contact with ground water. The fraction that is released fast for today’s fuels can be measured experimentally, and will be called ‘accessible fraction of inventory’ (AFI) in the terminology of SFC-1. The AFI values are thus purely experimental data. The estimation of the fast release at the time of the canister breaching builds further on the knowledge about the AFI of todays’s fuels, but also involves an evaluation of hypotheses about the further evolution of the fuel. The resulting values for the released fractions are intended for use in performance assessment calculations, and are called ‘instant release fraction’ (IRF). In literature, the distinction between experimental and extrapolated data is often unclear. For SFC-1, the distinction will be made more explicitly. This report summarizes related literature data, focussing on IRF data, while another report is devoted to the AFI [ER-0407].

KW - Spent Nuclear Fuel

KW - Accessible fraction of inventory

KW - Fission Gas Release

KW - gap

KW - grain boundary

UR - http://ecm.sckcen.be/OTCS/llisapi.dll/open/31029901

M3 - ER - External report

T3 - SCK•CEN Reports

BT - Instant Release Fraction (Source and Expert ranges) for SFC-1

PB - Studiecentrum voor Kernenergie

ER -

ID: 4531523