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Statements

Subject Item
n2:RIV%2F00216305%3A26210%2F14%3APU109131%21RIV15-MSM-26210___
rdf:type
n17:Vysledek skos:Concept
rdfs:seeAlso
http://www.scopus.com/record/display.url?eid=2-s2.0-84904035281&origin=resultslist&sort=plf-f&src=s&st1=hnízdil&sid=C4F5B65991CF15C6559F2A1962AE4A66.ZmAySxCHIBxxTXbnsoe5w%3a340&sot=b&sdt=b&sl=20&s=AUTHOR-NAME%28hnízdil%29&relpos=0&relpos=0&citeCnt=0&se
dcterms:description
Stainless steel sheets are successively heated to a temperature of 1150degree of Celsia and cooled until ambient temperature during the production process. Requirements for high cooling rates of stainless steel sheets producers lead to use water as a cooling medium. The information about cooling intensity (heat transfer coefficient) of different nozzles configurations is necessary for designing cooling sections. Although many researchers deal with water spray cooling, actually a general correlation for predicting heat transfer coefficient for wide range of nozzles configurations does not exists. That is the reason why heat transfer coefficient for different nozzles configurations can be only obtained by laboratory measurements. Heat transfer coefficient is mostly influenced by water impingement density and impact velocity. However other factors e.g. water temperature and velocity of the sheet can influence the heat transfer coefficient. Optimized design of the cooling unit with high cooling intensity Stainless steel sheets are successively heated to a temperature of 1150degree of Celsia and cooled until ambient temperature during the production process. Requirements for high cooling rates of stainless steel sheets producers lead to use water as a cooling medium. The information about cooling intensity (heat transfer coefficient) of different nozzles configurations is necessary for designing cooling sections. Although many researchers deal with water spray cooling, actually a general correlation for predicting heat transfer coefficient for wide range of nozzles configurations does not exists. That is the reason why heat transfer coefficient for different nozzles configurations can be only obtained by laboratory measurements. Heat transfer coefficient is mostly influenced by water impingement density and impact velocity. However other factors e.g. water temperature and velocity of the sheet can influence the heat transfer coefficient. Optimized design of the cooling unit with high cooling intensity
dcterms:title
Spray Cooling Unit for Heat Treatment of Stainless Steel Sheets Spray Cooling Unit for Heat Treatment of Stainless Steel Sheets
skos:prefLabel
Spray Cooling Unit for Heat Treatment of Stainless Steel Sheets Spray Cooling Unit for Heat Treatment of Stainless Steel Sheets
skos:notation
RIV/00216305:26210/14:PU109131!RIV15-MSM-26210___
n3:aktivita
n5:P
n3:aktivity
P(ED0002/01/01), P(EE2.3.20.0188), P(LO1202)
n3:cisloPeriodika
1
n3:dodaniDat
n10:2015
n3:domaciTvurceVysledku
n8:7880456 n8:8009333
n3:druhVysledku
n20:J
n3:duvernostUdaju
n12:S
n3:entitaPredkladatele
n15:predkladatel
n3:idSjednocenehoVysledku
46857
n3:idVysledku
RIV/00216305:26210/14:PU109131
n3:jazykVysledku
n18:eng
n3:klicovaSlova
Heat treatment, heat transfer coefficient, strip cooling, cooling intensity, sheet cooling, spray, water cooling, stainless steel
n3:klicoveSlovo
n6:strip%20cooling n6:spray n6:water%20cooling n6:heat%20transfer%20coefficient n6:Heat%20treatment n6:stainless%20steel n6:sheet%20cooling n6:cooling%20intensity
n3:kodStatuVydavatele
CH - Švýcarská konfederace
n3:kontrolniKodProRIV
[59F751FE5BC3]
n3:nazevZdroje
Advanced Materials Research
n3:obor
n13:BJ
n3:pocetDomacichTvurcuVysledku
2
n3:pocetTvurcuVysledku
5
n3:projekt
n4:EE2.3.20.0188 n4:LO1202 n4:ED0002%2F01%2F01
n3:rokUplatneniVysledku
n10:2014
n3:svazekPeriodika
936
n3:tvurceVysledku
Chabičovský, Martin Magadoux, Eric Raudenský, Miroslav Code, Florent Hnízdil, Milan
s:issn
1022-6680
s:numberOfPages
5
n19:doi
10.4028/www.scientific.net/AMR.936.1720
n11:organizacniJednotka
26210