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Statements

Subject Item
n2:RIV%2F60461373%3A22340%2F13%3A43895652%21RIV14-MSM-22340___
rdf:type
skos:Concept n18:Vysledek
rdfs:seeAlso
http://www.sciencedirect.com/science/article/pii/S0022311513012385
dcterms:description
The rate of batch-to-glass conversion is a primary concern for the vitrification of nuclear waste, as it directly influences the life cycle of the cleanup process. This study describes the development of an advanced model of the cold cap, which augments the previous model by further developments on the structure and the dynamics of the foam layer. The foam layer on the bottom of the cold cap consists of the primary foam, cavities, and the secondary foam, and forms an interface through which the heat is transferred to the cold cap. Other model enhancements include the behavior of intermediate crystalline phases and the dissolution of quartz particles. The model relates the melting rate to feed properties and melter conditions, such as the molten glass temperature, foaminess of the melt, or the heat fraction supplied to the cold cap from the plenum space. The model correctly predicts a 25% increase in melting rate when changing the alumina source in the melter feed from Al(OH)3 to AlO(OH). It is expected that this model will be incorporated in the full glass melter model as its integral component. The rate of batch-to-glass conversion is a primary concern for the vitrification of nuclear waste, as it directly influences the life cycle of the cleanup process. This study describes the development of an advanced model of the cold cap, which augments the previous model by further developments on the structure and the dynamics of the foam layer. The foam layer on the bottom of the cold cap consists of the primary foam, cavities, and the secondary foam, and forms an interface through which the heat is transferred to the cold cap. Other model enhancements include the behavior of intermediate crystalline phases and the dissolution of quartz particles. The model relates the melting rate to feed properties and melter conditions, such as the molten glass temperature, foaminess of the melt, or the heat fraction supplied to the cold cap from the plenum space. The model correctly predicts a 25% increase in melting rate when changing the alumina source in the melter feed from Al(OH)3 to AlO(OH). It is expected that this model will be incorporated in the full glass melter model as its integral component.
dcterms:title
Model for the conversion of nuclear waste melter feed to glass Model for the conversion of nuclear waste melter feed to glass
skos:prefLabel
Model for the conversion of nuclear waste melter feed to glass Model for the conversion of nuclear waste melter feed to glass
skos:notation
RIV/60461373:22340/13:43895652!RIV14-MSM-22340___
n18:predkladatel
n19:orjk%3A22340
n4:aktivita
n17:S
n4:aktivity
S
n4:cisloPeriodika
NEUVEDEN
n4:dodaniDat
n8:2014
n4:domaciTvurceVysledku
n16:6858791
n4:druhVysledku
n13:J
n4:duvernostUdaju
n12:S
n4:entitaPredkladatele
n9:predkladatel
n4:idSjednocenehoVysledku
88735
n4:idVysledku
RIV/60461373:22340/13:43895652
n4:jazykVysledku
n20:eng
n4:klicovaSlova
Glass melting; Glass foaming; Waste vitrification; Cold cap
n4:klicoveSlovo
n11:Glass%20foaming n11:Glass%20melting n11:Waste%20vitrification n11:Cold%20cap
n4:kodStatuVydavatele
NL - Nizozemsko
n4:kontrolniKodProRIV
[E415983E48BE]
n4:nazevZdroje
Journal of nuclear materials
n4:obor
n5:CI
n4:pocetDomacichTvurcuVysledku
1
n4:pocetTvurcuVysledku
2
n4:rokUplatneniVysledku
n8:2013
n4:svazekPeriodika
445
n4:tvurceVysledku
Pokorný, Richard Hrma, Pavel
s:issn
0022-3115
s:numberOfPages
10
n14:doi
10.1016/j.jnucmat.2013.11.009
n10:organizacniJednotka
22340