High-temperature reaction of sodium vapour with quartz glass

High-temperature reaction of sodium vapour with quartz glass

Heat pipes are one of the most efficient ways to transfer thermal energy hundred times more efficiently than copper. In this work, we present the investigation of sodium terminal velocity inside a glass pulsating heat pipe. Velocity measurements were conducted under operating conditions within the r...

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Main Authors: Nosek Radovan, Kolkova Zuzana, Trško Libor, Liptáková Tatiana, Procházka Jan, Libera Ondřej, Bublíková Petra
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201816807006
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spelling doaj-c32586450d2b4775847aeba42458adc32021-03-02T03:33:25ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-011680700610.1051/matecconf/201816807006matecconf_xxi.aeanmifmae-2018_07006High-temperature reaction of sodium vapour with quartz glassNosek RadovanKolkova ZuzanaTrško LiborLiptáková TatianaProcházka JanLibera OndřejBublíková PetraHeat pipes are one of the most efficient ways to transfer thermal energy hundred times more efficiently than copper. In this work, we present the investigation of sodium terminal velocity inside a glass pulsating heat pipe. Velocity measurements were conducted under operating conditions within the range of 500 – 1 100 °C. Since sodium is generally able to etch glass and ceramic materials, its presence resulted in glass reduction and sodium oxidation. From the XPS analysis of specimens extracted from a glass pipe after sodium explosion, it can be concluded that the reaction products are sodium oxide Na2O and a thin layer of carbon, which is localized on the SiO2 glass. The character of damage induced by chemical reactions is analysed in this manuscript.https://doi.org/10.1051/matecconf/201816807006
collection DOAJ
language English
format Article
sources DOAJ
author Nosek Radovan
Kolkova Zuzana
Trško Libor
Liptáková Tatiana
Procházka Jan
Libera Ondřej
Bublíková Petra
spellingShingle Nosek Radovan
Kolkova Zuzana
Trško Libor
Liptáková Tatiana
Procházka Jan
Libera Ondřej
Bublíková Petra
High-temperature reaction of sodium vapour with quartz glass
MATEC Web of Conferences
author_facet Nosek Radovan
Kolkova Zuzana
Trško Libor
Liptáková Tatiana
Procházka Jan
Libera Ondřej
Bublíková Petra
author_sort Nosek Radovan
title High-temperature reaction of sodium vapour with quartz glass
title_short High-temperature reaction of sodium vapour with quartz glass
title_full High-temperature reaction of sodium vapour with quartz glass
title_fullStr High-temperature reaction of sodium vapour with quartz glass
title_full_unstemmed High-temperature reaction of sodium vapour with quartz glass
title_sort high-temperature reaction of sodium vapour with quartz glass
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description Heat pipes are one of the most efficient ways to transfer thermal energy hundred times more efficiently than copper. In this work, we present the investigation of sodium terminal velocity inside a glass pulsating heat pipe. Velocity measurements were conducted under operating conditions within the range of 500 – 1 100 °C. Since sodium is generally able to etch glass and ceramic materials, its presence resulted in glass reduction and sodium oxidation. From the XPS analysis of specimens extracted from a glass pipe after sodium explosion, it can be concluded that the reaction products are sodium oxide Na2O and a thin layer of carbon, which is localized on the SiO2 glass. The character of damage induced by chemical reactions is analysed in this manuscript.
url https://doi.org/10.1051/matecconf/201816807006
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AT kolkovazuzana hightemperaturereactionofsodiumvapourwithquartzglass
AT trskolibor hightemperaturereactionofsodiumvapourwithquartzglass
AT liptakovatatiana hightemperaturereactionofsodiumvapourwithquartzglass
AT prochazkajan hightemperaturereactionofsodiumvapourwithquartzglass
AT liberaondrej hightemperaturereactionofsodiumvapourwithquartzglass
AT bublikovapetra hightemperaturereactionofsodiumvapourwithquartzglass
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