Abstract
This report refers to the work carried out within the Chair of Nuclear Technology, Polytechnical University of Madrid, in the frame of the project Modelling the Chemical Behaviour of Tellurium Species in the Reactor Pressure Vessel and the Reactor Cooling System under Severe Accident Conditions (Contract N. 3608-88-12 ELISPPC). It is related to the validation and improvement effort on the tellurium chemistry model in the RAFT code. The use of this code was decided during the Second Shared Cost Action Progress Meeting on Modelling and Code Development, as it seemed to be the best model among those available to the Chair of Nuclear Technology. The improvement effort consists in the inclusion of new tellurium species both in the gaseous and condensed phase; in the incorporation of a simple model for the interaction of tellurium with silver aerosols and finally in some other minor changes, such as the introduction of new variables to compute separately chemisorption and condensation of Te{sub 2} onto walls, and the detection and correction of some Fortran errors found in the as received version of the code. The validation effort reported in this document includes the analysis of the MARVIKEN 4 and 7 experiments with the modified/improved
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Alonso, A;
Gonzalez, C
[1]
- Universidad Politecnica de Madrid (Spain). Escuela Tecnica Superior de Ingenieros Industriales
Citation Formats
Alonso, A, and Gonzalez, C.
Analysis of tellurium behaviour in the Marviken large scale aerosol transport test with an improved RAFT code version.
France: N. p.,
1991.
Web.
Alonso, A, & Gonzalez, C.
Analysis of tellurium behaviour in the Marviken large scale aerosol transport test with an improved RAFT code version.
France.
Alonso, A, and Gonzalez, C.
1991.
"Analysis of tellurium behaviour in the Marviken large scale aerosol transport test with an improved RAFT code version."
France.
@misc{etde_10149378,
title = {Analysis of tellurium behaviour in the Marviken large scale aerosol transport test with an improved RAFT code version}
author = {Alonso, A, and Gonzalez, C}
abstractNote = {This report refers to the work carried out within the Chair of Nuclear Technology, Polytechnical University of Madrid, in the frame of the project Modelling the Chemical Behaviour of Tellurium Species in the Reactor Pressure Vessel and the Reactor Cooling System under Severe Accident Conditions (Contract N. 3608-88-12 ELISPPC). It is related to the validation and improvement effort on the tellurium chemistry model in the RAFT code. The use of this code was decided during the Second Shared Cost Action Progress Meeting on Modelling and Code Development, as it seemed to be the best model among those available to the Chair of Nuclear Technology. The improvement effort consists in the inclusion of new tellurium species both in the gaseous and condensed phase; in the incorporation of a simple model for the interaction of tellurium with silver aerosols and finally in some other minor changes, such as the introduction of new variables to compute separately chemisorption and condensation of Te{sub 2} onto walls, and the detection and correction of some Fortran errors found in the as received version of the code. The validation effort reported in this document includes the analysis of the MARVIKEN 4 and 7 experiments with the modified/improved versions of RAFT 1.0 and RAFT 1.1}
place = {France}
year = {1991}
month = {Dec}
}
title = {Analysis of tellurium behaviour in the Marviken large scale aerosol transport test with an improved RAFT code version}
author = {Alonso, A, and Gonzalez, C}
abstractNote = {This report refers to the work carried out within the Chair of Nuclear Technology, Polytechnical University of Madrid, in the frame of the project Modelling the Chemical Behaviour of Tellurium Species in the Reactor Pressure Vessel and the Reactor Cooling System under Severe Accident Conditions (Contract N. 3608-88-12 ELISPPC). It is related to the validation and improvement effort on the tellurium chemistry model in the RAFT code. The use of this code was decided during the Second Shared Cost Action Progress Meeting on Modelling and Code Development, as it seemed to be the best model among those available to the Chair of Nuclear Technology. The improvement effort consists in the inclusion of new tellurium species both in the gaseous and condensed phase; in the incorporation of a simple model for the interaction of tellurium with silver aerosols and finally in some other minor changes, such as the introduction of new variables to compute separately chemisorption and condensation of Te{sub 2} onto walls, and the detection and correction of some Fortran errors found in the as received version of the code. The validation effort reported in this document includes the analysis of the MARVIKEN 4 and 7 experiments with the modified/improved versions of RAFT 1.0 and RAFT 1.1}
place = {France}
year = {1991}
month = {Dec}
}