Experimental and Mathematical Analysis of Multilayer Insulation below 80 K

The Large Hadron Collider [1], presently under construction at CERN, will make an extensive use of multilayer insulation system (MLI). The total surface to be insulated will be of about 80000 m2. A mathematical model has been developed to describe the heat flux through MLI from 80 K to 4.2 K. The to...

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Detalles Bibliográficos
Autores principales: Chorowski, M, Grzegory, P, Parente, C, Riddone, G
Lenguaje:eng
Publicado: 2000
Materias:
Accelerators and Storage Rings
Acceso en línea:http://cds.cern.ch/record/449269
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author Chorowski, M
Grzegory, P
Parente, C
Riddone, G
author_facet Chorowski, M
Grzegory, P
Parente, C
Riddone, G
author_sort Chorowski, M
collection CERN
description The Large Hadron Collider [1], presently under construction at CERN, will make an extensive use of multilayer insulation system (MLI). The total surface to be insulated will be of about 80000 m2. A mathematical model has been developed to describe the heat flux through MLI from 80 K to 4.2 K. The total heat flux between the layers is the result of three distinct heat transfer modes: radiation, residual gas conduction and solid conduction. The mathematical model enables prediction of MLI behavior with regard to different MLI parameters, such as gas insulation pressure, number of layers and boundary temperatures. The calculated values have been compared to the experimental measurements carried out at CERN. Theoretical and experimental results revealed to be in good agreement, especially for insulation vacuum between 10-5 Pa and 10-3 Pa.
id cern-449269
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2000
record_format invenio
spelling cern-4492692023-05-31T13:22:04Zhttp://cds.cern.ch/record/449269engChorowski, MGrzegory, PParente, CRiddone, GExperimental and Mathematical Analysis of Multilayer Insulation below 80 KAccelerators and Storage RingsThe Large Hadron Collider [1], presently under construction at CERN, will make an extensive use of multilayer insulation system (MLI). The total surface to be insulated will be of about 80000 m2. A mathematical model has been developed to describe the heat flux through MLI from 80 K to 4.2 K. The total heat flux between the layers is the result of three distinct heat transfer modes: radiation, residual gas conduction and solid conduction. The mathematical model enables prediction of MLI behavior with regard to different MLI parameters, such as gas insulation pressure, number of layers and boundary temperatures. The calculated values have been compared to the experimental measurements carried out at CERN. Theoretical and experimental results revealed to be in good agreement, especially for insulation vacuum between 10-5 Pa and 10-3 Pa.LHC-Project-Report-385CERN-LHC-Project-Report-385oai:cds.cern.ch:4492692000-07-26
spellingShingle Accelerators and Storage Rings
Chorowski, M
Grzegory, P
Parente, C
Riddone, G
Experimental and Mathematical Analysis of Multilayer Insulation below 80 K
title Experimental and Mathematical Analysis of Multilayer Insulation below 80 K
title_full Experimental and Mathematical Analysis of Multilayer Insulation below 80 K
title_fullStr Experimental and Mathematical Analysis of Multilayer Insulation below 80 K
title_full_unstemmed Experimental and Mathematical Analysis of Multilayer Insulation below 80 K
title_short Experimental and Mathematical Analysis of Multilayer Insulation below 80 K
title_sort experimental and mathematical analysis of multilayer insulation below 80 k
topic Accelerators and Storage Rings
url http://cds.cern.ch/record/449269
work_keys_str_mv AT chorowskim experimentalandmathematicalanalysisofmultilayerinsulationbelow80k
AT grzegoryp experimentalandmathematicalanalysisofmultilayerinsulationbelow80k
AT parentec experimentalandmathematicalanalysisofmultilayerinsulationbelow80k
AT riddoneg experimentalandmathematicalanalysisofmultilayerinsulationbelow80k

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