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Statements

Subject Item
n2:RIV%2F00216305%3A26210%2F11%3APU95286%21RIV12-MSM-26210___
rdf:type
n8:Vysledek skos:Concept
dcterms:description
The aim of this research is an investigation of hot surface orientation influence on heat transfer during cooling by a nozzle. Two types of nozzles were used for the experiments (air-mist nozzle and hydraulic nozzle). A test plate was cooled in three positions – top, side and bottom position. The aim was to simulate a cooling situation in the secondary zone of a continuous casting machine. Temperature was measured in seven locations under the cooled surface by thermocouples. These data were used for an inverse heat conduction problem and then boundary conditions were computed. These boundary conditions are represented by surface temperature, heat transfer coefficient and heat flux. Results from an inverse calculation were compared in each position of thermocouples separately. The total cooling intensity was specified for all configurations of nozzles and test plate orientation. Results are summarised in a graphical and numerical format. The aim of this research is an investigation of hot surface orientation influence on heat transfer during cooling by a nozzle. Two types of nozzles were used for the experiments (air-mist nozzle and hydraulic nozzle). A test plate was cooled in three positions – top, side and bottom position. The aim was to simulate a cooling situation in the secondary zone of a continuous casting machine. Temperature was measured in seven locations under the cooled surface by thermocouples. These data were used for an inverse heat conduction problem and then boundary conditions were computed. These boundary conditions are represented by surface temperature, heat transfer coefficient and heat flux. Results from an inverse calculation were compared in each position of thermocouples separately. The total cooling intensity was specified for all configurations of nozzles and test plate orientation. Results are summarised in a graphical and numerical format.
dcterms:title
Nozzle cooling of hot surfaces with various orientations Nozzle cooling of hot surfaces with various orientations
skos:prefLabel
Nozzle cooling of hot surfaces with various orientations Nozzle cooling of hot surfaces with various orientations
skos:notation
RIV/00216305:26210/11:PU95286!RIV12-MSM-26210___
n8:predkladatel
n19:orjk%3A26210
n5:aktivita
n17:S
n5:aktivity
S
n5:dodaniDat
n20:2012
n5:domaciTvurceVysledku
n14:8752338 n14:5828627
n5:druhVysledku
n11:D
n5:duvernostUdaju
n21:S
n5:entitaPredkladatele
n15:predkladatel
n5:idSjednocenehoVysledku
216711
n5:idVysledku
RIV/00216305:26210/11:PU95286
n5:jazykVysledku
n9:eng
n5:klicovaSlova
Cooling, surface orientation, nozzles, inverse heat conduction problem, boundary conditions.
n5:klicoveSlovo
n6:boundary%20conditions. n6:Cooling n6:nozzles n6:inverse%20heat%20conduction%20problem n6:surface%20orientation
n5:kontrolniKodProRIV
[833EE6A76B18]
n5:mistoKonaniAkce
Jičín
n5:mistoVydani
Jičín
n5:nazevZdroje
Experimental fluid Mechanics 2011
n5:obor
n7:BJ
n5:pocetDomacichTvurcuVysledku
2
n5:pocetTvurcuVysledku
3
n5:rokUplatneniVysledku
n20:2011
n5:tvurceVysledku
Horský, Jaroslav Ondroušková, Jana Luks, Tomáš
n5:typAkce
n10:WRD
n5:zahajeniAkce
2011-11-22+01:00
s:numberOfPages
10
n3:hasPublisher
Neuveden
n13:isbn
978-80-7372-784-0
n16:organizacniJednotka
26210