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Analysis of the water dynamics for the MSE-COIL and theMST-COIL

In this report, we present the technical specification for the numerical model and the study of the acoustic wave propagation in the water tubes of the extraction septum magnet (MSE) and the thin magnetic septum (MST) in the event of an asynchronous firing of the extraction kickers (MKE). The deposi...

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Detalles Bibliográficos
Autores principales: Massidda, L, Mura, F, Kadi, Y, Balhan, B
Lenguaje:eng
Publicado: 2005
Materias:
Acceso en línea:http://cds.cern.ch/record/934204
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author Massidda, L
Mura, F
Kadi, Y
Balhan, B
author_facet Massidda, L
Mura, F
Kadi, Y
Balhan, B
author_sort Massidda, L
collection CERN
description In this report, we present the technical specification for the numerical model and the study of the acoustic wave propagation in the water tubes of the extraction septum magnet (MSE) and the thin magnetic septum (MST) in the event of an asynchronous firing of the extraction kickers (MKE). The deposited energy densities, estimated by the high-energy particle transport code FLUKA, were converted to internal heat generation rates according to the time dependence of the extracted beam. The transient response to this thermal load was obtained by simulating power deposition and acoustic wave propagation by the spectral-element code ELSE.
id cern-934204
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2005
record_format invenio
spelling cern-9342042019-09-30T06:29:59Zhttp://cds.cern.ch/record/934204engMassidda, LMura, FKadi, YBalhan, BAnalysis of the water dynamics for the MSE-COIL and theMST-COILEngineeringIn this report, we present the technical specification for the numerical model and the study of the acoustic wave propagation in the water tubes of the extraction septum magnet (MSE) and the thin magnetic septum (MST) in the event of an asynchronous firing of the extraction kickers (MKE). The deposited energy densities, estimated by the high-energy particle transport code FLUKA, were converted to internal heat generation rates according to the time dependence of the extracted beam. The transient response to this thermal load was obtained by simulating power deposition and acoustic wave propagation by the spectral-element code ELSE.CERN-AB-2006-016-ATBoai:cds.cern.ch:9342042005-06-30
spellingShingle Engineering
Massidda, L
Mura, F
Kadi, Y
Balhan, B
Analysis of the water dynamics for the MSE-COIL and theMST-COIL
title Analysis of the water dynamics for the MSE-COIL and theMST-COIL
title_full Analysis of the water dynamics for the MSE-COIL and theMST-COIL
title_fullStr Analysis of the water dynamics for the MSE-COIL and theMST-COIL
title_full_unstemmed Analysis of the water dynamics for the MSE-COIL and theMST-COIL
title_short Analysis of the water dynamics for the MSE-COIL and theMST-COIL
title_sort analysis of the water dynamics for the mse-coil and themst-coil
topic Engineering
url http://cds.cern.ch/record/934204
work_keys_str_mv AT massiddal analysisofthewaterdynamicsforthemsecoilandthemstcoil
AT muraf analysisofthewaterdynamicsforthemsecoilandthemstcoil
AT kadiy analysisofthewaterdynamicsforthemsecoilandthemstcoil
AT balhanb analysisofthewaterdynamicsforthemsecoilandthemstcoil